Create an account and get 3 free clips per day.
Chapters
AAA Rupture, Common Iliac Occlusion, AUI Thrombosis (Post-op) | rEVAR (Aort-Uni-Iliac), Fem-Fem Bypass, Balloon Angioplasty | 81 | Female
AAA Rupture, Common Iliac Occlusion, AUI Thrombosis (Post-op) | rEVAR (Aort-Uni-Iliac), Fem-Fem Bypass, Balloon Angioplasty | 81 | Female
2016activateanesthesiaaneurysmaortaballoonbifurcatedcannulatecommoncontaineddeployFistulagraftgraftsguyshypertensiveiliacinfectedMedtronicmycoticocclusionocclusivepatientpatientspertinentrapturerenalsrupturerupturedrupturessheathSIRstentsurgeonsurgerysurgicalthrombusvascularwaste
Routine Use Of Ultrasound To Avoid Complications During Placement Of Tunneled Dialysis Catheters: Analysis Of 2805 Cases
Routine Use Of Ultrasound To Avoid Complications During Placement Of Tunneled Dialysis Catheters: Analysis Of 2805 Cases
angioplastyarteryballoonBalloon angioplastycannulationcathetercentralchronicallycomplicationsDialysisguidancejugularlesionliteraturemechanicaloccludedpatientsperformedplacementportionroutineroutinelystenoticsubsequenttunneledultrasoundunderwentveinwire
Algorithms For Managing Steal Syndrome: When Is Banding Appropriate
Algorithms For Managing Steal Syndrome: When Is Banding Appropriate
accessaccommodateanastomosisarterialarterybandingbasicallybrachialchoiceclipsdigitaldistalFistulaflowgangrenegraftinflowligationlowmorbidneuropathypatencypatientspredictablepreservepressuresprostheticpulserestrictionstealunderwentveinvolume
When To Refer Patients For Hemodialysis Access And Who Should Monitor The Maturation Process
When To Refer Patients For Hemodialysis Access And Who Should Monitor The Maturation Process
accessappropriatelyAV AccessAV Vascular AccessbilateralcatheterchronicCKD-Stage 4creatinineDialysisdisadvantagesegfrFistulapatientpatientspermanentpredictingproteinproteinuriareferralrenalrisksurgeontrajectoryvalidatedvascularveinswrist
With Large Iliac Arteries, When Are Flared Limbs Acceptable And When Are IBDs Needed For Good Results
With Large Iliac Arteries, When Are Flared Limbs Acceptable And When Are IBDs Needed For Good Results
Anaconda / Cook / Gore / Medtronicanatomicalaneurysmarterycommoncommon iliaccomplicationcomplicationscontrastdevicesembolizationendograftendovascularevarFL DeviceflaredIBD (Gore-IBE) / IBD (Cook-ZBIS)iliaciliac arteryimplantedinterventionallatelimbsliteratureobservationaloutcomeperioperativesuboptimaltechnicallytherapeuticurokinase
Thrombo-Embolic Complications Of Inflammatory Bowel Disease: Nature, Etiology And Significance
Thrombo-Embolic Complications Of Inflammatory Bowel Disease: Nature, Etiology And Significance
abdominalangiogramarterialatrialbowelcolectomycoloniccomplicationsdiseasedyslipidemiaetiologyextremityfibrinolyticheparinincidenceincreaseinflammatoryinpatientinpatientsischemicIV HeparinmedicalocclusionoccurringpatientsprophylaxispulmonaryresectionrevascularizationriskRt PE / Rt Pulm Vein thrombosis / Lt Atrial thrombosissidedSMA thrombectomysubtotalsystemicthrombectomythrombosisthrombotictransverseulcerativeunderwentveinvenousvisceral
Technical Tips For Maintaining Carotid Flow During Branch Revascularization When Performing Zone 1 TEVARs
Technical Tips For Maintaining Carotid Flow During Branch Revascularization When Performing Zone 1 TEVARs
anastomosisanterioraorticarteriotomyarterybordercarotidcarotid arterycommoncreateddissectiondistalendograftflowhemostasisincisioninnominateleftlooploopsLt Subclavian RetrosmiddlepreferredprostheticproximalproximallyrestoredsecuredshuntstentsubclavianSubclavian stentsuturesystemicallyTAVRtechniquetherapeutictransversetunnelingvesselwish
Surgical Creation Of A Moncusp Valve
Surgical Creation Of A Moncusp Valve
applycompetingcontralateraldeependovascularfibroticflapflowhemodynamicmalfunctioningmobilemodelingMono-cuspid neovalveMono-cuspid Stent PrototypeparietalreconstructionrefluxstentthrombosisvalveValvuloplastyveinvenouswall
Update On The Advantages, Limitations And Midterm Results With The Terumo Aortic 3 Branch Arch Device: What Lesions Can It Treat
Update On The Advantages, Limitations And Midterm Results With The Terumo Aortic 3 Branch Arch Device: What Lesions Can It Treat
4 branch CMD TAAA deviceacuteAscending Graft Replacementcardiac arrestRelayBranchRepair segment with CMD Cuffruptured type A dissection w/ tamponadestent graft systemTerumo Aortictherapeutic
Technical Tips For Open Conversion After Failed EVAR
Technical Tips For Open Conversion After Failed EVAR
AAAacuteantibioticaortaaorticAorto-Venous ECMOballooncirculatoryclampCoil Embolization of IMAcoilingconverteddeviceendarterectomyendograftendoleakendovascularentiregraftgraftsiliacinfectedinjection of gluepatientproximalRelining of EndograftremoveremovedrenalresectedRifampicin soaked dacron graftsupersutureTEVARtherapeutictranslumbartype
Elevation Or Retunneling For Second Stage Basilic Vein Transposition
Elevation Or Retunneling For Second Stage Basilic Vein Transposition
anastomosisarterialbasiliccomparablecomparedcumulativedatafavoredFistulafistulasgraftsjournalmaturationOne & Two Stage procedurespatenciespatencyprimaryrangeratesstagestagedstratifiedSuperficializationsuperiorTrans-positiontransectiontransposedtranspositiontunnelingvascularveinveinsversus
New Developments In The Management Of Blunt Aortic Injuries Using A Practical Grading System: Why It Matters
New Developments In The Management Of Blunt Aortic Injuries Using A Practical Grading System: Why It Matters
aorticcontourdripevarflapfollowuphemorrhagesheparinhoursinjuryintimalintracranialminimalmoderatepatientpatientspercentperformedpseudoaneurysmremodelingrestartedrevascularizescanseveresubclavianTEVARthrombusworsening
What Morphological Changes On CT After EVAR Predict The Need For Re-Interventions: From The DREAM Trial
What Morphological Changes On CT After EVAR Predict The Need For Re-Interventions: From The DREAM Trial
analysisaneurysmangulationaorticdiameterendograftendoleakendoleaksendovascularevariliaclengthlimbmaximalneckpatientspredictpredictivepredictspreoperativeproximalreinterventionsscanssecondaryshrinkagestenosisstenttherapeuticthrombus
Below-The-Elbow Angioplasty For CLTI Of The Hand: Indications, Techniques Results
Below-The-Elbow Angioplasty For CLTI Of The Hand: Indications, Techniques Results
accessangiogramangioplastyantegradearteryballoonbrachialchronicclinicaldigitdistalendovascularextremityfavorablyfingerflowhandhealinghemodialysisintractableischemiamalformationmraoccludedpalmarpatencypatientpatientsproximalradialratesreentryrefractoryretrogradesegmenttherapytreattypicallyulcerulcerationulnarvenous
Current Management Of Bleeding Hemodialysis Fistulas: Can The Fistula Be Salvaged
Current Management Of Bleeding Hemodialysis Fistulas: Can The Fistula Be Salvaged
accessaneurysmalapproachArtegraftavoidbleedingbovineBovine Carotid Artery Graft (BCA)carotidcentersDialysisemergencyexperiencefatalFistulafistulasflapgraftgraftshemodialysishemorrhageinfectioninterpositionlesionLimberg skin flapnecrosispatencypatientpatientsptfeskinStent graftsubsequentsuturetourniquetulceratedulcerationsvascular
Selective SMA Stenting With F/EVAR: When Indicated, Value, Best Bridging Stent, Technical Tips
Selective SMA Stenting With F/EVAR: When Indicated, Value, Best Bridging Stent, Technical Tips
aneurysmcookdeviceselevatedendograftfenestratedfenestrationsFEVARgraftI-CAST(ZFEN)intensifiermidtermmortalityorthogonalpatientsrenalselectivestenosisstentstentedstentingtherapeutictreatedVBX (ZFEN)VeithvelocitiesvisceralwideZenith Fenestrated graft
Italian National Registry Results With Inner Branch Devices For Aortic Arch Disease
Italian National Registry Results With Inner Branch Devices For Aortic Arch Disease
aortaaorticarcharteriesarteryascendingavailabilitybarbsbranchcarotidcatheterizedcommondecreasedevicesdissectiondoublr branch stent graftendoleakendovascularevarexcludinggraftguptalimbmajormidtermmorphologicalmortalityoperativepatientpatientsperioperativeproximalregistryrepairretrogradestentStent graftstentingstrokesupraterumotherapeutictibialvascular
Do Re-Interventions Cause EVAR Infections
Do Re-Interventions Cause EVAR Infections
52 mm AAAAAA EndoprothesisanterioraortoentericbacteremiacatheterembolizationendograftendoleakendovascularevarexcluderexplantfluidglutealgoreGore Excluder cuffgraftiliacinfectioninfectionsinguinalInterventionsmedicaremortalityonsetperioperativeprophylacticpurulentreadmissionsriskscansecondaryseedingsteriletherapeuticunderwent
Long-Term Results Of AV Fistulas And Grafts
Long-Term Results Of AV Fistulas And Grafts
AF GraftarterAVFDialysisduplexendovascularFistulafistulasfistulogramgraftgraftshemodialysisinfectionmaturationoccludedocclusionpatencypatientspreoperativeprimaryprominentproximalpseudoaneurysmpseudoaneurysmsreinterventionscanningtrendunderwentveinVeithvenousversus
Risk Assessment For Thrombosis Prophylaxis In Vascular Surgery - Necessary Or A Nuisance
Risk Assessment For Thrombosis Prophylaxis In Vascular Surgery - Necessary Or A Nuisance
anticoagulantsantiphospholipidantiplateletDVTendovascularfactorsfamilyhistoryincidenceinfrainguinalinpatientintraoperativepatientsperioperativepreoperativeriskscreeningsurgicalthoracicthrombosisvascularvenous
Indications And Advantages Of Antegrade In Situ Fenestration For F/EVAR: How To Do It
Indications And Advantages Of Antegrade In Situ Fenestration For F/EVAR: How To Do It
aneurysmantegradeaorticaxillarybailoutbrachialbridgingceliacCutting BalloonendoleakendovascularevarfenestratedfenestrationgraftischemiclaserLaser Atherectomy CatheterLaser ProbelfEVARmidtermprobeproximalrenalretrogradesitusteerablestentingsubclaviantechniquethoracicthoracoabdominalTurbo-Eliteunfitvisceral
Utility Of Duplex Ultrasound For Hemodialysis Access Volume Flow And Velocity Measurements
Utility Of Duplex Ultrasound For Hemodialysis Access Volume Flow And Velocity Measurements
accessaneurysmalbypassclinicalDialysisdiameterduplexdynamicflowflowsgraftluminalmeasurepatientsrenalsensitivityultrasoundveinvelocityversusvolume
Developing Efficient And Effective Regulatory Pathways For Patient Centered Device Innovation
Developing Efficient And Effective Regulatory Pathways For Patient Centered Device Innovation
centeredclinicaldeviceDialysisdiseasefuturehemodialysisinnovationkidneynephrologistoutcomespatientpatientsregulatorytherapiestreatmentsvascularVascular access
Successes And Limitations Of Endograft Treatment Of Aortic Infections: When Can It Be Effective Definitive Treatment And When It Can Only Be A Bridge To Definitive Open Treatment
Successes And Limitations Of Endograft Treatment Of Aortic Infections: When Can It Be Effective Definitive Treatment And When It Can Only Be A Bridge To Definitive Open Treatment
aneurysmaneurysmsantimicrobialaortaaortobifemoralaortoentericdefinitiveeffectiveemergencyendocarditisendograftendovascularesophagealexcisionexcisionalFistulagastricgraftgraftsinfectedinfectionmediastinummycoticniduspatientsprimaryresistantsecondarysepsisseriesstentsystematictherapytreatmentvenous
Challenges And Solutions In Complex Dialysis Access Cases
Challenges And Solutions In Complex Dialysis Access Cases
accessangiogramarteryaxillarybrachialcannulationcathetercentralchallengeschallengingconnecteddissectedextremityFistulaflowfunctioninggoregrafthybridischemiaMorbid Obese/Sub-optimal anatomy / need immediate accessoutflowpatientRt Upper Arm loop AVGsegmentstealStent graftsuboptimaltransplanttunneleduppervascularveinvenous
Surgical vs. Endovascular Management Of Cephalic Arch Syndrome
Surgical vs. Endovascular Management Of Cephalic Arch Syndrome
adjunctsanatomicangioplastyarchballoonballoonsbrachiocephaliccephalicdeploymentfistulasfunctionalgoregraftgraftingInterventionspatencypredictorsprimaryradiocephalicrecurrentstenosesstenosisstentStent graftstentingsuperiorsurgicaltranspositionviabahn
Minimizing Risks From Long-Term Central Venous Catheter Use In Dialysis Patients
Minimizing Risks From Long-Term Central Venous Catheter Use In Dialysis Patients
accesscathetercatheterscliniccomplicationsCV CatheterDialysisfacilitatefasterfewerFistulafistulasgoregraftgraftsHeROmedianpatientsreadyremovalschedulestandardusable
Right Axillary Access For Complex EVARs And TEVARs: Advantages, Technical Tips And Preventing Strokes
Right Axillary Access For Complex EVARs And TEVARs: Advantages, Technical Tips And Preventing Strokes
accessaorticarcharteryaxillaryCHEVARchimneydevicesendovascularextremityfenestratedFEVARFEVARChminimizemortalitypatientRt Axillary Artery ConduitsheathsheathsstrokesutureTEVARvisceralzone
Transcript

The first case is and 81-year-old lady, COPD I believe she was an

homo too/g Hypertensive significant peripheral arterial disease, apparently she had a left leg angioplasty prior to presenting it to an outside hospital emergency room with a four day history of abdominal pain, peri umbilical pain and

nausea and vomiting she had hematemesis about four episodes, you can see where this case is going, aortic session. And this is the CT. Try to slow this down here.

[BLANK_AUDIO] So she was actually getting a little hypertensive, initially allergen oriented. Really fascinating case, of course this is a contained rapture.

On second glance, you can see these little bubbles here. So at our institution, this is another image in chrono, showing this area here, and again you can see another set of pictures here showing this area that's contained. Again these patients are generally pre-selected.

They make it to the ER and they're sitting there talking to you complaining of belly pain. They generally have a shot. One thing that I kinda blew through is she had a left common iliac artery occlusion. Again pertinent things to look at when you plan out these cases.

She had a right common iliac occlusion, but a patent left external access. So in these situations, maybe when I was younger, I would have been heroic and try to recanalize the right external and done a complete

bifurcative graft but of course we do this in conjunction with surgery so our plan was to do an AUI with fem fem. So initially in a lot of institutions, a lot other docs, especially the ER, they tend to freak out. But we try to think about it.

Now keys to rEVAR, now even though this is a contained rupture, I think it's pertinent to our discussion about ruptured EVAR. You should observe that the principles of hypertensive hemostasis. Do you guys know what that is? Sure.

And one of the things that really shocks me still is we don't have a lot of ruptures going through our ER, but one of the things that ER docs, and they're concerned by the patient but they love putting a central lines, hydrating the patients, considering suppressors

they call anesthesia they like intubating. Again I like to sit and talk to the patient and the family and explain to them the grave situation here. I tell them we're gonna put all the lines we can upstairs. So I don't waste a lot of time in the ER again, we are lucky that we have some product on the shelf.

That's not always been the issue. Sometimes we have to call in reps emergently. We have a coordinated response plan generally. Sometimes it depends on which IR is on call ,and which vascular surgeon is on call.

But in general, we have a coordinated plan, especially from eight to five in the daytime. In Europe I think a lot of the EVARS, selected EVARS are done awake. And these patients do great.

I strongly consider doing these cases awake. And then of course basics. Things like having occlusion balloon ready. I've only once gone to the ER, put in a sheath and put in an occlusion balloon in bedside, generally we have enough time to put this in

the IR suite. So we bring this patient to angiography, and as you'd expect, you can see this contained rupture off to the right here. And we chosen a Medtronic Endurant AUI device, again the patient had a occluded right common iliac artery so we

do wish not to waste a lot of time. And this is always an area of concern or debate when you talk about ruptured EVARs when do you heparinize? . What do you guys do? >> Do you heparinize first? >> Yeah.

Good point. Point. I don't heparinize until I have control or the team has control. But every rupture I've done I've ran into thrombus issues. >> Yeah, we've had cases where there was a rupture and didn't heparinize and end up with a bloated iliac.

So now we do a one reason we do the baby dose is it makes us feel better so you give 5,000 heparine not the full dose. I assume as we have the, we get we have the sheets and go back and forth on that one. This is what we do now.

What do you guys do? >> What we do is we ran heparinizing saline through the sheaths. It depends if the sheaths are occlusive or not. You gotta be kind of let's say, you gotta be more careful because it just makes it difficult.

But and then do you use a balloon? >> I generally don't >> Occlusion >> [CROSSTALK] Did you use aortal then, you can actually see activate the trough/g. Who uses a balloon immediately or just do you. >> In this case, he's only got one iliac to work with.

>> Yeah. Yeah .>> No it's, you can still. It depends again, if you don't see an active leak I agree you just get your device, deploy etc. But if you're just shooting at initial angiogram you see something

and your device is ready in five minutes or three minutes, two minutes you can lose a lot of blood. And it's much easier to get the balloon up there and then kind of occlude the aorta temporarily until you're ready with your device. You guys, all IRs you do trauma etc.

Depending on the extent of the bleed, 30 seconds of that sort of bleed may make the difference if the patient is gonna live or not. So we select the cases to balloon. We don't do it on everybody but its kind of a-

>> I think it's very reasonable. Normally in these cases, I have things ready to go. And the graft is going in almost instantaneously after we get access. I don't waste time doing pre-closing.

That's another area of saving time. >> One other comment. It's like this is interesting because it's occlusive on one side, but if it's bilaterally patent, you can get the balloon off from the other side, control it.

That's easier to use the balloon at that time. So you can get the main body from the other side. Deflate your balloon and deploy the graft immediately. Do you use AUI in patients with bilateral patency just to speed up things? >> I don't.

I generally go for bifurcated system. >> Bifurcated system. Okay. >> Rapture, now is everyone has been talking about it. It's been and most centers are getting more comfortable with doing ruptures and there's data about it now.

The main movement now is to use balloons more liberally, unless there's a bow/g which can be placed in the emergency room. I think more and more studies are showing people using balloon for temporary. You have be selective.

Somebody who's stable, whose pressure is in the 90s without any pressers, we'll let them be and let's just not put a balloons. But in a Frank/g extrav lower pressure may need to use the balloon, and then do under local.

That's been a huge deal. We've lost two patients over the last few years. On induction, they just basically pass because you disrupt their pressure more, and they're already hypertensive and it's just hard for them to catch up and they slam them with fluid. You go through this.

I think, leave them be, just local anesthesia and once you're, once you secure once you put that device in, now if they wanna intubate them afterwards you can and you can finish your case afterwards. I think using the needle/g more liberally,

it's gonna allow you to actually use the bifurcated graph which is better for the patient than doing fem fem. I think that's been our approach and getting a team and getting a plan together, have devices ready, is key for dealing with

these raptured cases >> [INAUDIBLE] >> So basically put it above the celiac inflate it immediately go with your main body. And once you have the main body in place you can just go of the balloon and that part.

Even if their is active extrap/g you are talking about few minutes of deploying main body cannulating the gate/g and going from there. And even if you have trouble cannulating the gate/g you can from the input with the balloon back up while you cannulate the gate. You can go with that or you can have an AUI ready and if it's two minutes and you haven't cannulated the gate/g just put an AUI in.

It becomes an extra cost, but if you think it's a reasonable aneurysm, not very torturous, most of us kinda cannulate the gate/g pretty quickly so I think it makes a lot of sense. >> [INAUDIBLE] make sure you wanna pool back the sheath [INAUDIBLE] >> I agree.

Yes that's definitely the case. And things can get rushed here and you can cause a lot of issues cuz you're in trouble. But having the balloon up, and you see the difference immediately

on the patient. And anesthesiologist, whoever is in the room, the ICU, they're just so happy cuz the patient now is very stable. And he's like, what did you guys do? And he's like, well I haven't started yet,

but the patient is doing better. So I think that gives you a time to just breath and get your stuff ready instead of just rushing through it. And we've seen these lacerations of the iliac, cuz you're rushing

through it if you don't have a balloon. So just get the sheath and get the balloon up and that'll give you some time to think. >> You guys- >> [INAUDIBLE] the rapture >> Yeah >>

not all raptures are the same, there is some impending rapture, I said they call it a rapture versus activate strip. I think in the worst case scenario patients presses, massive transfusion going.

I usually don't like to waste time, my approach would be just go, put the balloon up immediately, [INAUDIBLE] get to the wise/g on the other side immediately and just a unit, and then when I take the balloon I have the sheath I would put on an plaster on the iliac and let the surgeon

do the fem fem. I can do that under 10, 15 minutes for the whole thing. >> Oh, yeah. And some people advocate use of the Endologix graft for ruptures because you can relatively quickly get the bifurcated graft in and

maybe plug the hole. So some people think it may be better for ruptures. Do you guys cover renals? >> If we have to. >> We got a case we just recently, somebody with a small renals and rupture

and we can just try to do it [INAUDIBLE] >> We cover renals and then we're becoming a little more bold once the patient is stable sometimes we'll try snockle/g from the arm if they become stable. During the case.

In this case we kept her awake, I've actually gotten into arguments with anesthesiologists people that I respect and actually have done complex critical old patients, but they are shocked when we wanna do this awake.

I was talking to her during this case. I wanted to make sure she was still with us. I'm not sure I even used lidocaine. I'm kidding. >> [LAUGH] >> Actually in this case,

I don't think we had time to do it. We deployed the AUI, and here you can see the AUI actually landed here in the common iliac. I'm glad it landed here because if it landed up here,

I might be tempted to do something up here. But we had a very experienced vascular surgeon with us. We ballooned it. This is gentle. I'm not really trying to look for the hole or trying to push the

graft up against the hole. And this is our completion at this point. Really not a lot of good flow here. But we were hoping that things will improve. Maybe this was occlusive. She didn't have a lot of good runoff.

It's weird to see a good portogram on an aortogram. >> So you weren't aspirating the sheath? >> I was probably too. >> And it was of [CROSSTALK] >> [LAUGH] >> Yeah, it was occlusive. So, at this point we intubated the patient.

This is another picture just showing reconstitution of this common femoral just to show the surgeon that there was a target a fem fem. It wasn't well seen on the CT. So, he did the fem fem but he noticed there wasn't lot of back-bleeding so, we went back in and again as I mentioned,

most of our ruptured case I've run into, this is a bit more than I have seen usually, but this is all thrombus kind of sitting in that AUI. So what would you guys do here? >> Thrombectomy, progressive thrombectomy.

>> Like a surgical, he's already got the granule open. >> Yeah >> Some people don't like to do it through fresh stents. I don't think it's unreasonable on a graft,

but >> Could you just re-line? >> I kind of relined it. >> Yeah, so, I just went with what was simple and quick. I took a 14 by 120 stent and we went from the renals down and then ballooned it open.

Again, we were in a situation where she was critically ill we just wanted to get flow back to her fem fem and we ballooned this. This was just a simple self expandable bare metal stent and there we go just to get flow back. >> One thing to pay attention to actually, you guys got but to make sure

that it doesn't tooth paste. You cover the- >>Right. Right. >> The valve above and the valve below those thrombus areas. >> Yeah.

> If you're near, it's just gonna go down the leg then you'll have another issue to deal with. >>Yeah. And she's a lady that would have those kind kinda issues. But hopefully her [INAUDIBLE] were occluded.

So she had distal protection. [COUGH] So this is our completion pictures. Obviously her fem fem and this is months later and you can see that I thought there would be this huge size mismatch. We put it on a 14 mm self-expanding stent inside of a 23 mm AUI. There's a size mismatch in parts but it wasn't horrible and she's

widely patent. Again that area of that aortoduodenal fistula is less impressive certainly now. We talked to the family. We explained to her what we did and she was not so impressed. It wasn't a gratifying response from the patient.

>> Do you consider bridging that electively? >> Bridging? >> Meaning putting in a another reverse bell-bottom or something or other shorter AUI. Because now - >> Oh that area.

>> Yeah. >> Well that's a good point. You're talking about this area here? >> Yeah, right there. >> Where there's fabric here and there's a lot of flow. I wasn't gonna mess with her too much.

I figured she made it through a lot and I didn't get the best read on her. So post procedure course, she stayed five days after a ruptured EVAR. Again this patient self selected. She was relatively stable but she made it through it. We got GI general surgery consults for repair and I was shocked.

No one knew when they wanted the time this repair. They were just happy the aorta was fixed. This is months later. I think this is nine months later when GI was scoping her they said your graft must have migrated. You guys have to scan her and do something right away,

and I was like, I'm pretty sure that's where we want it to be. Let's get general surgery and everybody together and figure how to fix her. But she's actually done very well,

and she's recovered. I'm not even sure she knew what she had but she did very well. >> I think these fistulas go along the lines of mycotic aneurysm or infected aneurysm or infected [INAUDIBLE]. Now there is more push to use stent grafts with these and there's always talk about the stent graft as a temporizing measure.

But actually it's not the cases and I have studied showing that if you have a true mycotic aneurysm. You don't have fevers, you negative blood cultures and if you give them enough antibiotics, then this stent graft may be a final solution

without need for surgeries. The only ones that seem to need surgical intervention are the ones with neurofibril intervention, positive left cultures or an ongoing fistula or discarded. Something that is continuously so this would fall under that category that eventually should need

where her case, when she's older and all that stuff we managed to leave her alone. But we've done several cases of doing this initially and then later getting the surgical repair. But that's something that now there's more push to use stent grafts

primarily for mycotics as a final solution if there's no fistula present.

- Thank you for the opportunity to present this arch device. This is a two module arch device. The main model comes from the innominated to the descending thoracic aorta and has a large fenestration for the ascending model that is fixed with hooks and three centimeters overlapping with the main one.

The beginning fenestration for the left carotid artery was projected but was abandoned for technical issue. The delivery system is precurved, preshaped and this allows an easy positioning of the graft that runs on a through-and-through wire from the

brachial to the femoral axis and you see here how the graft, the main model is deployed with the blood that supported the supraortic vessels. The ascending model is deployed after under rapid pacing.

And this is the compilation angiogram. This is a case from our experience is 6.6 centimeters arch and descending aneurysm. This is the planning we had with the Gore Tag. at the bottom of the implantation and these are the measures.

The plan was a two-stage procedure. First the hemiarch the branching, and then the endovascular procedure. Here the main measure for the graph, the BCT origin, 21 millimeters, the BCT bifurcation, 20 millimeters,

length, 30 millimeters, and the distal landing zone was 35 millimeters. And these are the measures that we choose, because this is supposed to be an off-the-shelf device. Then the measure for the ascending, distal ascending, 35 millimeters,

proximal ascending, 36, length of the outer curve of 9 centimeters, on the inner curve of 5 centimeters, and the ascending model is precurved and we choose a length between the two I cited before. This is the implantation of the graft you see,

the graft in the BCT. Here, the angiography to visualize the bifurcation of the BCT, and the release of the first part of the graft in the BCT. Then the angiography to check the position. And the release of the graft by pushing the graft

to well open the fenestration for the ascending and the ascending model that is released under cardiac pacing. After the orientation of the beat marker. And finally, a kissing angioplasty and this is the completion and geography.

Generally we perform a percutaneous access at auxiliary level and we close it with a progolide checking the closure with sheet that comes from the groin to verify the good occlusion of the auxiliary artery. And this is the completion, the CT post-operative.

Okay. Seven arch aneurysm patients. These are the co-morbidities. We had only one minor stroke in the only patient we treated with the fenestration for the left carotid and symptomology regressed completely.

In the global study, we had 46 implantations, 37 single branch device in the BCT, 18 in the first in men, 19 compassionate. These are the co-morbidities and indications for treatment. All the procedures were successful.

All the patients survived the procedure. 10 patients had a periscope performed to perfuse the left auxiliary artery after a carotid to subclavian bypass instead of a hemiarch, the branching. The mean follow up for 25 patients is now 12 months.

Good technical success and patency. We had two cases of aneurysmal growth and nine re-interventions, mainly for type II and the leak for the LSA and from gutters. The capilomiar shows a survival of 88% at three years.

There were three non-disabling stroke and one major stroke during follow up, and three patients died for unrelated reasons. The re-intervention were mainly due to endo leak, so the first experience was quite good in our experience and thanks a lot.

- I want to thank the organizers for putting together such an excellent symposium. This is quite unique in our field. So the number of dialysis patients in the US is on the order of 700 thousand as of 2015, which is the last USRDS that's available. The reality is that adrenal disease is increasing worldwide

and the need for access is increasing. Of course fistula first is an important portion of what we do for these patients. But the reality is 80 to 90% of these patients end up starting with a tunneled dialysis catheter. While placement of a tunneled dialysis catheter

is considered fairly routine, it's also clearly associated with a small chance of mechanical complications on the order of 1% at least with bleeding or hema pneumothorax. And when we've looked through the literature, we can notice that these issues

that have been looked at have been, the literature is somewhat old. It seemed to be at variance of what our clinical practice was. So we decided, let's go look back at our data. Inpatients who underwent placement

of a tunneled dialysis catheter between 1998 and 2017 reviewed all their catheters. These are all inpatients. We have a 2,220 Tesio catheter places, in 1,400 different patients. 93% of them placed on the right side

and all the catheters were placed with ultrasound guidance for the puncture. Now the puncture in general was performed with an 18 gauge needle. However, if we notice that the vein was somewhat collapsing with respiratory variation,

then we would use a routinely use a micropuncture set. All of the patients after the procedures had chest x-ray performed at the end of the procedure. Just to document that everything was okay. The patients had the classic risk factors that you'd expect. They're old, diabetes, hypertension,

coronary artery disease, et cetera. In this consecutive series, we had no case of post operative hemo or pneumothorax. We had two cut downs, however, for arterial bleeding from branches of the external carotid artery that we couldn't see very well,

and when we took out the dilator, patient started to bleed. We had three patients in the series that had to have a subsequent revision of the catheter due to mal positioning of the catheter. We suggest that using modern day techniques

with ultrasound guidance that you can minimize your incidents of mechanical complications for tunnel dialysis catheter placement. We also suggest that other centers need to confirm this data using ultrasound guidance as a routine portion of the cannulation

of the internal jugular veins. The KDOQI guidelines actually do suggest the routine use of duplex ultrasonography for placement of tunnel dialysis catheters, but this really hasn't been incorporated in much of the literature outside of KDOQI.

We would suggest that it may actually be something that may be worth putting into the surgical critical care literature also. Now having said that, not everything was all roses. We did have some cases where things didn't go

so straight forward. We want to drill down a little bit into this also. We had 35 patients when we put, after we cannulated the vein, we can see that it was patent. If it wasn't we'd go to the other side

or do something else. But in 35%, 35 patients, we can put the needle into the vein and get good flashback but the wire won't go down into the central circulation.

Those patients, we would routinely do a venogram, we would try to cross the lesion if we saw a lesion. If it was a chronically occluded vein, and we weren't able to cross it, we would just go to another site. Those venograms, however, gave us some information.

On occasion, the vein which is torturous for some reason or another, we did a venogram, it was torturous. We rolled across the vein and completed the procedure. In six of the patients, the veins were chronically occluded

and we had to go someplace else. In 20 patients, however, they had prior cannulation in the central vein at some time, remote. There was a severe stenosis of the intrathoracic veins. In 19 of those cases, we were able to cross the lesion in the central veins.

Do a balloon angioplasty with an 8 millimeter balloon and then place the catheter. One additional case, however, do the balloon angioplasty but we were still not able to place the catheter and we had to go to another site.

Seven of these lesions underwent balloon angioplasty of the innominate vein. 11 of them were in the proximal internal jugular vein, and two of them were in the superior vena cava. We had no subsequent severe swelling of the neck, arm, or face,

despite having a stenotic vein that we just put a catheter into, and no subsequent DVT on duplexes that were obtained after these procedures. Based on these data, we suggest that venous balloon angioplasty can be used in these patients

to maintain the site of an access, even with the stenotic vein that if your wire doesn't go down on the first pass, don't abandon the vein, shoot a little dye, see what the problem is,

and you may be able to use that vein still and maintain the other arm for AV access or fistular graft or whatever they need. Based upon these data, we feel that using ultrasound guidance should be a routine portion of these procedures,

and venoplasty should be performed when the wire is not passing for a central vein problem. Thank you.

- So my charge is to talk about using band for steal. I have no relevant disclosures. We're all familiar with steal. The upper extremity particularly is able to accommodate for the short circuit that a access is with up to a 20 fold increase in flow. The problem is that the distal bed

is not necessarily as able to accommodate for that and that's where steal comes in. 10 to 20% of patients have some degree of steal if you ask them carefully. About 4% have it bad enough to require an intervention. Dialysis associated steal syndrome

is more prevalent in diabetics, connective tissue disease patients, patients with PVD, small vessels particularly, and females seem to be predisposed to this. The distal brachial artery as the inflow source seems to be the highest risk location. You see steal more commonly early with graft placement

and later with fistulas, and finally if you get it on one side you're very likely to get it on the other side. The symptoms that we are looking for are coldness, numbness, pain, at the hand, the digital level particularly, weakness in hand claudication, digital ulceration, and then finally gangrene in advanced cases.

So when you have this kind of a picture it's not too subtle. You know what's going on. However, it is difficult sometimes to differentiate steal from neuropathy and there is some interaction between the two.

We look for a relationship to blood pressure. If people get symptomatic when their blood pressure's low or when they're on the access circuit, that is more with steal. If it's following a dermatomal pattern that may be a median neuropathy

which we find to be pretty common in these patients. Diagnostic tests, digital pressures and pulse volume recordings are probably the best we have to assess this. Unfortunately the digital pressures are not, they're very sensitive but not very specific. There are a lot of patients with low digital pressures

that have no symptoms, and we think that a pressure less than 60 is probably consistent, or a digital brachial index of somewhere between .45 and .6. But again, specificity is poor. We think the digital pulse volume recordings is probably the most useful.

As you can see in this patient there's quite a difference in digital waveforms from one side to the other, and more importantly we like to see augmentation of that waveform with fistula compression not only diagnostically but also that is predictive of the benefit you'll get with treatment.

So what are our treatment options? Well, we have ligation. We have banding. We have the distal revascularization interval ligation, or DRIL, procedure. We have RUDI, revision using distal inflow,

and we have proximalization of arterial inflow as the approaches that have been used. Ligation is a, basically it restores baseline anatomy. It's a very simple procedure, but of course it abandons the access and many of these patients don't have a lot of good alternatives.

So it's not a great choice, but sometimes a necessary choice. This picture shows banding as we perform it, usually narrowing the anastomosis near the artery. It restricts flow so you preserve the fistula but with lower flows.

It's also simple and not very morbid to do. It's got a less predictable effect. This is a dynamic process, and so knowing exactly how tightly to band this and whether that's going to be enough is not always clear. This is not a good choice for low flow fistula,

'cause again, you are restricting flow. For the same reason, it's probably not a great choice for prosthetic fistulas which require more flow. So, the DRIL procedure most people are familiar with. It involves a proximalization of your inflow to five to 10 centimeters above the fistula

and then ligation of the artery just below and this has grown in popularity certainly over the last 10 or 15 years as the go to procedure. Because there is no flow restriction with this you don't sacrifice patency of the access for it. It does add additional distal flow to the extremity.

It's definitely a more morbid procedure. It involves generally harvesting the saphenous vein from patients that may not be the best risk surgical patients, but again, it's a good choice for low flow fistula. RUDI, revision using distal inflow, is basically

a flow restrictive procedure just like banding. You're simply, it's a little bit more complicated 'cause you're usually doing a vein graft from the radial artery to the fistula. But it's less complicated than DRIL. Similar limitations to banding.

Very limited clinical data. There's really just a few series of fewer than a dozen patients each to go by. Finally, a proximalization of arterial inflow, in this case rather than ligating the brachial artery you're ligating the fistula and going to a more proximal

vessel that often will accommodate higher flow. In our hands, we were often talking about going to the infraclavicular axillary artery. So, it's definitely more morbid than a banding would be. This is a better choice though for prosthetic grafts that, where you want to preserve flow.

Again, data on this is very limited as well. The (mumbles) a couple years ago they asked the audience what they like and clearly DRIL has become the most popular choice at 60%, but about 20% of people were still going to banding, and so my charge was to say when is banding

the right way to go. Again, it's effect is less predictable than DRIL. You definitely are going to slow the flows down, but remember with DRIL you are making the limb dependent on the patency of that graft which is always something of concern in somebody

who you have caused an ischemic hand in the first place, and again, the morbidity with the DRIL certainly more so than with the band. We looked at our results a few years back and we identified 31 patients who had steal. Most of these, they all had a physiologic test

confirming the diagnosis. All had some degree of pain or numbness. Only three of these patients had gangrene or ulcers. So, a relatively small cohort of limb, of advanced steal. Most of our patients were autogenous access,

so ciminos and brachycephalic fistula, but there was a little bit of everything mixed in there. The mean age was 66. 80% were diabetic. Patients had their access in for about four and a half months on average at the time of treatment,

although about almost 40% were treated within three weeks of access placement. This is how we do the banding. We basically expose the arterial anastomosis and apply wet clips trying to get a diameter that is less than the brachial artery.

It's got to be smaller than the brachial artery to do anything, and we monitor either pulse volume recordings of the digits or doppler flow at the palm or arch and basically apply these clips along the length and restricting more and more until we get

a satisfactory signal or waveform. Once we've accomplished that, we then are satisfied with the degree of narrowing, we then put some mattress sutures in because these clips will fall off, and fix it in place.

And basically this is the result you get. You go from a fistula that has no flow restriction to one that has restriction as seen there. What were our results? Well, at follow up that was about almost 16 months we found 29 of the 31 patients had improvement,

immediate improvement. The two failures, one was ligated about 12 days later and another one underwent a DRIL a few months later. We had four occlusions in these patients over one to 18 months. Two of these were salvaged with other procedures.

We only had two late recurrences of steal in these patients and one of these was, recurred when he was sent to a radiologist and underwent a balloon angioplasty of the banding. And we had no other morbidity. So this is really a very simple procedure.

So, this is how it compares with DRIL. Most of the pooled data shows that DRIL is effective in 90 plus percent of the patients. Patency also in the 80 to 90% range. The DRIL is better for late, or more often used in late patients,

and banding used more in earlier patients. There's a bigger blood pressure change with DRIL than with banding. So you definitely get more bang for the buck with that. Just quickly going through the literature again. Ellen Dillava's group has published on this.

DRIL definitely is more accepted. These patients have very high mortality. At two years 50% are going to be dead. So you have to keep in mind that when you're deciding what to do. So, I choose banding when there's no gangrene,

when there's moderate not severe pain, and in patients with high morbidity. As promised here's an algorithm that's a little complicated looking, but that's what we go by. Again, thanks very much.

- Thank you, Larry, thank you, Tony. Nice to be known as a fixture. I have no relevant disclosures, except that I have a trophy. And that's important, but also that Prabir Roy-Chaudhury, who's in this picture, was the genesis of some of the thoughts that I'm going to deliver here about predicting renal failure,

so I do want to credit him with bringing that to the vascular access space. You know, following on Soren's talk about access guidelines, we're dealing with pretty old guidelines, but if you look at the 2006 version, you know, just the height--

The things that a surgeon might read in his office. CKD four, patients there, you want a timely referral, you want them evaluated for placement of permanent access. The term "if necessary" is included in those guidelines, that's sometimes forgotten about.

And, of course, veins should be protected. We already heard a little bit about that, and so out our hospital, with our new dialysis patients, we usually try to butcher both antecubital veins at the same time. And then, before we send them to surgery

after they've been vein-marked, we use that vein to put in their preoperative IV, so that's our vascular access management program at Christiana Care. - [Male Speaker] That's why we mark it for you, Teddy. (laughing)

- So, you know, the other guideline is patients should have a functional permanent access at the initiation of dialysis therapy, and that means we need a crystal ball. How do we know this? A fistula should be placed at least six months

before anticipated start of dialysis, or a graft three to six weeks. Anybody who tells you they actually know that is lying, you can't tell, there's no validated means of predicting this. You hear clinical judgment, you can look at

all sorts of things. You cannot really make that projection. Now there is one interesting study by Tangri, and this is what Premier brought to our attention last year at CIDA, where this Canadian researcher and his team developed a model for predicting

progression of chronic kidney disease, not specifically for access purposes, but for others. They looked at a large number of patients in Canada, followed them through chronic kidney disease to ESRD, and they came up with a model. If you look at a simple model that uses age, sex,

estimated GFR from MDRD equation and albuminuria to predict when that patient might develop end stage renal disease, and there's now nice calculators. This is a wonderful thing, I keep it on my phone, this Qx Calculate, I would recommend you do the same,

and you can put those answers to the questions, in this app, and it'll give you the answer you're looking for. So for instance, here's a case, a 75-year-old woman, CKD stage four, her creatinine's 2.7, not very impressive,

eGFR's 18. Her urine protein is 1200 milligrams per gram, that's important, this is kind of one of the major variables that impacts on this. So she's referred appropriately at that stage to a surgeon for arteriovenous access,

and he finds that she really has no veins that he feels are suitable for a fistula, so an appropriate referral was made. Now at that time, if you'd put her into this equation with those variables, 1200, female, 75-year-old, 18 GFR, at two years, her risk of ESRD is about 30%,

and at five years about 66%, 67%. So, you know, how do you use those numbers in deciding if she needs an access? Well, you might say... A rational person might say perhaps that patient should get a fistula,

or at least be put in line for it. Well, this well-intentioned surgeon providing customer service put in a graft, which then ended up with some steal requiring a DRIL, which then still had steal, required banding, and then a few months, a year later

was thrombosed and abandoned because she didn't need it. And I saw her for the first time in October 2018, at which time her creatinine is up to 3.6, her eGFR's down to 12, her protein is a little higher, 2600, so now she has a two-year risk of 62%, and a five-year risk of 95%,

considerably more than when this ill-advised craft was created. So what do you do with this patient now? I don't have the answer to that, but you can use this information at least to help flavor your thought process,

and what if you could bend the curve? What if you treated this patient appropriately with ACE inhibitors and other methods to get the protein down? Well, you can almost half her two-year risk of renal failure with medical management.

So these considerations I think are important to the team, surgeon, nurses, nephrologists, etc., who are planning that vascular access with the patient. When to do and what to do. And then, you know, it's kind of old-fashioned to look at the trajectory.

We used to look at one over creatinine, we can look at eGFR now, and she's on a trajectory that looks suspicious for progression, so you can factor that into your thought process as well. And then I think this is the other very important concept, I think I've spoken about this here before,

is that there's no absolute need for dialysis unless you do bilateral nephrectomies. Patients can be managed medically for quite a while, and the manifestations of uremia dealt with quite safely and effectively, and you can see that over the years, the number of patients

in this top brown pattern that have been started on dialysis with a GFR of greater than 15 has fallen, or at least, stopped rising because we've recognized that there's no advantage, and there may be disadvantages to starting patients too early.

So if your nephrologist is telling I've got to start this patient now because he or she needs dialysis, unless they had bilateral nephrectomies that may or may not be true. Another case,

64-year-old male, CKD stage four, creatinine about four, eGFR 15, 800 milligrams of proteinuria, referred to a vascular access surgeon for AV access. Interesting note, previous central lines, or AICD, healthy guy otherwise.

So in April 2017 he had a left wrist fistula done, I think that was a very appropriate referral and a very appropriate operation by this surgeon. At that time his two-year risk was 49, 50%, his five-year risk 88%. It's a pretty good idea, I think, to get a wrist fistula

in that patient. Once again, this is not validated for that purpose. I can't point you to a study that says by using this you can make well-informed predictions about when to do vascular access, but I do think it helps to flavor the judgment on this.

Also, I saw him for the first time last month, and his left arm is like this. Amazing, that has never had a catheter or anything, so I did his central venogram, and this is his anatomy. I could find absolutely no evidence of a connection between the left subclavian and the superior vena cava,

I couldn't cross it. Incidentally, this was done with less than 20 CCs of dye of trying to open this occlusion or find a way through, which was unsuccessful. You can see all the edema in his arm. So what do you do with this guy now?

Well, up, go back. Here's his trajectory of CKD four from the time his fistula is done to the time I'm seeing him now, he's been pretty flat. And his proteinuria's actually dropped

with medical management. He's only got 103 milligrams per gram of proteinuria now, and his two-year risk is now 23%, his five-year risk is 56%, so I said back to the surgeon we ligate this damn thing, because we can't really do much to fix it,

and we're going to wait and see when it's closer to time to needing dialysis. I'm not going to subject this guy to a right-arm fistula with that trajectory of renal disease over the past two years. So combining that trajectory with these predictive numbers,

and improved medical care for proteinuria I think is a good strategy. So what do you do, you're weighing factors for timing too early, you've got a burden of fistula failure, interventions you need to use to maintain costs, morbidity, complications,

steal, neuropathy that you could avoid versus too late and disadvantages of initiating hemodialysis without a permanent access. And lastly, I'm going to just finish with some blasphemy. I think the risk of starting dialysis with a catheter is vastly overstated.

If you look at old data and patient selection issues, and catheter maintenance issues, I think... It's not such an unreasonable thing to start a patient with a catheter. We do it all the time and they usually live.

And even CMS gives us a 90-day grace period on our QIP penalties, so... If you establish a surgeon and access plan, I think you're good to go. So who monitors access maturation? I don't know, somebody who knows what they're doing.

If you look at all the people involved, I know some of these individuals who are absolute crackerjack experts, and some are clueless. It has nothing to do with their age, their gender, their training, their field. It's just a matter of whether they understand

what makes a good fistula. You don't have to be a genius, you just can't be clueless. This is not a mature usable fistula, I know that when I see it. Thank you.

- Mr Chairman, dear colleagues. I've nothing to disclose. We know that aneurysm or dilation of the common iliac artery is present in almost 20% of cases submitted to endovascular repair and we have a variety of endovascular solution available. The first one is the internal iliac artery

embolization and coverage which is very technically easy but it's a suboptimal choice due to the higher risk of thrombosis and internal iliac problems. So the flared limbs landing in the common iliac artery is technically easy,

however, the results in the literature are conflicting. Iliac branch devices is a more demanding procedure but has to abide to a specific anatomical conditions and is warranted by good results in the literature such as this work from the group in Perugia who showed a technical success of almost 100%

as you can see, and also good results in other registries. So there are unresolved question about this problem which is the best choice in this matter, flared limbs or iliac branch devices. In order to solve this problem, we have looked at our data,

published them in Journal Vascular Interventional Neurology and this is our retrospective observational study involving treatment with either flared limbs or IBD and these are the flared limbs devices we used in this study. Anaconda, Medtronic, Cook and Gore.

And these are the IFU of the two IBD which were used in this study which were Gore-IBE and Cook-ZBS. So we looked at the 602 EVAR with 105 flared limbs which were also fit for IBD. And on the other side, we looked at EVAR-IBD

implanted in the same period excluding those implanted outside the IFU. So we ended up with 57 cases of IBD inside the IFU. These are the characteristics of the two groups of patients. The main important finding was the year age which was a little younger in the IBD group

and the common iliac artery diameter which was greater, again in the IBD group. So this is the distribution of the four types of flared limbs devices and IBD in the two groups. And as you can see, the procedural time and volume of contrast medium was significantly

higher in the IBD group. Complications did not differ significantly however, overall there were four iliac complication and all occurred in the flared limbs group. When we went to late complications, putting together all the iliac complication, they were significantly

greater in the flared limbs group compared with the IBD with zero percent complication rate. Late complications were always addressed by endovascular relining or relining and urokinase in case of infusion, in case of thrombosis. And as you can see here, the late outcome

did not differ significantly in the two groups. However, when we put together all the iliac complication, the iliac complication free survival was significantly worse in the flared limbs group. So in conclusion, flared limbs and IBD have similar perioperative outcomes.

IBD is more technically demanding, needs more contrast medium and time obviously. The complications in flared limbs are all resolvable by endovascular means and IBD has a better outcome in the long term period. So the take-home message of my presentation

is that we prefer IBD in young patients with high life expectancy and in the presence of anatomical risk factors of flared limbs late complications. Thank you for your attention.

- Good morning, I would like to thank Dr. Veith, and the co-chairs for inviting me to talk. I have nothing to disclose. Some background on this information, patients with Inflammatory Bowel Disease are at least three times more likely to suffer a thrombo-embolic event, when compared to the general population.

The incidence is 0.1 - 0.5% per year. Overall mortality associated with these events can be as high as 25%, and postmortem exams reveal an incidence of 39-41% indicating that systemic thrombo-embolism is probably underdiagnosed. Thrombosis mainly occurs during disease exacerbation,

however proctocolectomy has not been shown to be preventative. Etiology behind this is not well known, but it's thought to be multifactorial. Including decrease in fibrinolytic activity, increase in platelet activation,

defects in the protein C pathway. Dyslipidemia and long term inflammation also puts patients at risk for an increase in atherosclerosis. In addition, these patients lack vitamins, are often dehydrated, anemic, and at times immobilized. Traditionally, the venous thrombosis is thought

to be more common, however recent retrospective review of the Health Care Utilization Project nationwide inpatient sample database, reported not only an increase in the incidence but that arterial complications may happen more frequently than venous.

I was going to present four patients over the course of one year, that were treated at my institution. The first patient is 25 year old female with Crohn's disease, who had a transverse colectomy one year prior to presentation. Presented with right flank pain, she was found to have

right sided PE, a right sided pulmonary vein thrombosis and a left atrial thrombosis. She was admitted for IV heparin, four days later she had developed abdominal pains, underwent an abdominal CTA significant for SMA occlusion prompting an SMA thrombectomy.

This is a picture of her CAT scan showing the right PE, the right pulmonary vein thrombosis extending into the left atrium. The SMA defect. She returned to the OR for second and third looks, underwent a subtotal colectomy,

small bowel resection with end ileostomy during the third operation. She had her heparin held post-operatively due to significant post-op bleeding, and over the next three to five days she got significantly worse, developed progressive fevers increase found to have

SMA re-thrombosis, which you can see here on her CAT scan. She ended up going back to the operating room and having the majority of her small bowel removed, and went on to be transferred to an outside facility for bowel transplant. Our second patient is a 59 year old female who presented

five days a recent flare of ulcerative colitis. She presented with right lower extremity pain and numbness times one day. She was found to have acute limb ischemia, category three. An attempt was made at open revascularization with thrombectomy, however the pedal vessels were occluded.

The leg was significantly ischemic and flow could not be re-established despite multiple attempts at cut-downs at different levels. You can see her angiogram here at the end of the case. She subsequently went on to have a below knee amputation, and her hospital course was complicated by

a colonic perforation due to the colitis not responding to conservative measures. She underwent a subtotal colectomy and end ileostomy. Just in the interest of time we'll skip past the second, third, and fourth patients here. These patients represent catastrophic complications of

atypical thrombo-embolic events occurring in IBD flares. Patients with inflammatory disease are at an increased risk for both arterial and venous thrombotic complications. So the questions to be answered: are the current recommendations adequate? Currently heparin prophylaxis is recommended for

inpatients hospitalized for severe disease. And, if this is not adequate, what treatments should we recommend, the medication choice, and the duration of treatment? These arterial and venous complications occurring in the visceral and peripheral arteries

are likely underappreciated clinically as a risk for patients with IBD flares and they demonstrate a need to look at further indications for thrombo-prophylaxis. Thank you.

- Thank you. Here are my disclosures. Our preferred method for zone one TAVR has evolved to a carotid/carotid transposition and left subclavian retro-sandwich. The technique begins with a low transverse collar incision. The incision is deepened through the platysma

and subplatysmal flaps are then elevated. The dissection is continued along the anterior border of the sternocleidomastoid entering the carotid sheath anteromedial to the jugular vein. The common carotid artery is exposed

and controlled with a vessel loop. (mumbling) The exposure's repeated for the left common carotid artery and extended as far proximal to the omohyoid muscle as possible. A retropharyngeal plane is created using blunt dissection

along the anterior border of the cervical vertebra. A tunneling clamp is then utilized to preserve the plane with umbilical tape. Additional vessel loops are placed in the distal and mid right common carotid artery and the patient is systemically anticoagulated.

The proximal and distal vessel loops are tightened and a transverse arteriotomy is created between the middle and distal vessel loops. A flexible shunt is inserted and initially secured with the proximal and middle vessel loops. (whistling)

It is then advanced beyond the proximal vessel loop and secured into that position. The left common carotid artery is then clamped proximally and distally, suture ligated, clipped and then transected. (mumbling)

The proximal end is then brought through the retropharyngeal tunnel. - [Surgeon] It's found to have (mumbles). - An end-to-side carotid anastomosis is then created between the proximal and middle vessel loops. If preferred the right carotid arteriotomy

can be made ovoid with scissors or a punch to provide a better shape match with the recipient vessel. The complete anastomosis is back-bled and carefully flushed out the distal right carotid arteriotomy.

Flow is then restored to the left carotid artery, I mean to the right carotid artery or to the left carotid artery by tightening the middle vessel loop and loosening the proximal vessel loop. The shunt can then be removed

and the right common carotid artery safely clamped distal to the transposition. The distal arteriotomy is then closed in standard fashion and flow is restored to the right common carotid artery. This technique avoids a prosthetic graft

and the retropharyngeal space while maintaining flow in at least one carotid system at all times. Once, and here's a view of the vessels, once hemostasis is assured the platysma is reapproximated with a running suture followed by a subcuticular stitch

for an excellent cosmetic result. Our preferred method for left subclavian preservation is the retro-sandwich technique which involves deploying an initial endograft just distal to the left subclavian followed by both proximal aortic extension

and a left subclavian covered stent in parallel fashion. We prefer this configuration because it provides a second source of cerebral blood flow independent of the innominate artery

and maintains ready access to the renovisceral vessels if further aortic intervention is required in the future. Thank you.

- Thank you (mumbles). The purpose of deep venous valve repair is to correct the reflux. And we have different type of reflux. We know we have primary, secondary, the much more frequent and the rear valve agenesia. In primary deep venous incompetence,

valves are usually present but they are malfunctioning and the internal valvuloplasty is undoubtedly the best option. If we have a valve we can repair it and the results are undoubtedly the better of all deep vein surgery reconstruction

but when we are in the congenital absence of valve which is probably the worst situation or we are in post-thrombotic syndrome where cusps are fully destroyed, the situation is totally different. In this situation, we need alternative technique

to provide a reflux correction that may be transposition, new valve or valve transplants. The mono cuspid valve is an option between those and we can obtain it by parietal dissection. We use the fibrotic tissue determined by the

sickening of the PTS event obtaining a kind of flap that we call valve but as you can realize is absolutely something different from a native valve. The morphology may change depending on the wall feature and the wall thickness

but we have to manage the failure of the mono cuspid valve which is mainly due to the readhesion of the flap which is caused by the fact that if we have only a mono cuspid valve, we need a deeper pocket to reach the contralateral wall so bicuspid valve we have

smaller cusps in mono cuspid we have a larger one. And how can we prevent readhesion? In our first moment we can apply a technical element which is to stabilize the valve in the semi-open position in order not to have the collapse of the valve with itself and then we had decide to apply an hemodynamic element.

Whenever possible, the valve is created in front of a vein confluence. In this way we can obtain a kind of competing flow, a better washout and a more mobile flap. This is undoubtedly a situation that is not present in nature but helps in providing non-collapse

and non-thrombotic events in the cusp itself. In fact, if we look at the mathematical modeling in the flow on valve you can see how it does work in a bicuspid but when we are in a mono cuspid, you see that in the bottom of the flap

we have no flow and here there is the risk of thrombosis and here there is the risk of collapse. If we go to a competing flow pattern, the flap is washed out alternatively from one side to the other side and this suggest us the idea to go through a mono cuspid

valve which is not just opens forward during but is endovascular and in fact that's what we are working on. Undoubtedly open surgery at the present is the only available solution but we realized that obviously to have the possibility

to have an endovascular approach may be totally different. As you can understand we move out from the concept to mimic nature. We are not able to provide the same anatomy, the same structure of a valve and we have to put

in the field the possibility to have no thrombosis and much more mobile flap. This is the lesson we learn from many years of surgery. The problem is the mobile flap and the thrombosis inside the flap itself. The final result of a valve reconstruction

disregarding the type of method we apply is to obtain an anti-reflux mechanism. It is not a valve, it is just an anti-reflux mechanism but it can be a great opportunity for patient presenting a deep vein reflux that strongly affected their quality of life.

Thank you.

- Thank you. Thank you again for the invitation, and also my talk concerns the use of new Terumo Aortic stent graft for the arch. And it's the experience of three different countries in Europe. There's no disclosure for this topic.

Just to remind what we have seen, that there is some complication after surgery, with mortality and the stroke rate relatively high. So we try to find some solution. We have seen that we have different options, it could be debranching, but also

we know that there are some complications with this technique, with the type A aortic dissection by retrograde way. And also there's a way popular now, frozen elephant trunk. And you can see on the slide the principle.

But all the patients are not fit for this type of surgery. So different techniques have been developed for endovascular options. And we have seen before the principle of Terumo arch branch endograft.

One of the main advantages is a large window to put the branches in the different carotid and brachiocephalic trunk. And one of the benefit is small, so off-the-shelf technique, with one size for the branch and different size

for the different carotids. This is a more recent experience, it's concerning 15 patients. And you can see the right column that it is. All the patients was considered unfit for conventional surgery.

If we look about more into these for indication, we can see four cases was for zone one, seven cases for zone two, and also four cases for zone three. You can see that the diameter of the ascending aorta, the min is 38,

and for the innominate artery was 15, and then for left carotid was eight. This is one example of what we can obtain with this type of handling of the arch with a complete exclusion of the lesion, and we exclude the left sonography by plyf.

This is another, more complex lesion. It's actually a dissection and the placement of a stent graft in this area. So what are the outcomes of patients? We don't have mortality, one case of hospital mortality.

We don't have any, sorry, we have one stroke, and we can see the different deaths during the follow-up. If we look about the endoleaks, we have one case of type three endoleak started by endovascular technique,

and we have late endoleaks with type one endoleaks. In this situation, it could be very difficult to treat the patient. This is the example of what we can observe at six months with no endoleak and with complete exclusion of the lesion.

But we have seen at one year with some proximal type one endoleak. In this situation, it could be very difficult to exclude this lesion. We cannot propose this for this patient for conventional surgery, so we tried

to find some option. First of all, we tried to fix the other prosthesis to the aortic wall by adjusted technique with a screw, and we can see the fixation of the graft. And later, we go through the,

an arrangement inside the sac, and we put a lot of colors inside so we can see the final results with complete exclusion. So to conclude, I think that this technique is very useful and we can have good success with this option, and there's a very low

rate of disabling stroke and endoleaks. But, of course, we need more information, more data. Thank you very much for your attention.

- The only disclosure is the device I'm about to talk to you about this morning, is investigation in the United States. What we can say about Arch Branch Technology is it is not novel or particularly new. Hundreds of these procedures have been performed worldwide, most of the experiences have been dominated by a cook device

and the Terumo-Aortic formerly known as Bolton Medical devices. There is mattering of other experience through Medtronic and Gore devices. As of July of 2018 over 340 device implants have been performed,

and this series has been dominated by the dual branch device but actually three branch constructions have been performed in 25 cases. For the Terumo-Aortic Arch Branch device the experience is slightly less but still significant over 160 device implants have been performed as of November of this year.

A small number of single branch and large majority of 150 cases of the double branch repairs and only two cases of the three branch repairs both of them, I will discuss today and I performed. The Aortic 3-branch Arch Devices is based on the relay MBS platform with two antegrade branches and

a third retrograde branch which is not illustrated here, pointing downwards towards descending thoracic Aorta. The first case is a 59 year old intensivist who presented to me in 2009 with uncomplicated type B aortic dissection. This was being medically managed until 2014 when he sustained a second dissection at this time.

An acute ruptured type A dissection and sustaining emergent repair with an ascending graft. Serial imaging shortly thereafter demonstrated a very rapid growth of the Distal arch to 5.7 cm. This is side by side comparison of the pre type A dissection and the post type A repair dissection.

What you can see is the enlargement of the distal arch and especially the complex septal anatomy that has transformed as initial type B dissection after the type A repair. So, under FDA Compassion Use provision, as well as other other regulatory conditions

that had to be met. A Terumo or formerly Bolton, Aortic 3-branch Arch Branch device was constructed and in December 2014 this was performed. As you can see in this illustration, the two antegrade branches and a third branch

pointing this way for the for the left subclavian artery. And this is the images, the pre-deployment, post-deployment, and the three branches being inserted. At the one month follow up you can see the three arch branches widely patent and complete thrombosis of the

proximal dissection. Approximately a year later he presented with some symptoms of mild claudication and significant left and right arm gradient. What we noted on the CT Angiogram was there was a kink in the participially

supported segment of the mid portion of this 3-branch graft. There was also progressive enlargement of the distal thoracoabdominal segment. Our plan was to perform the, to repair the proximal segment with a custom made cuff as well as repair the thoracoabdominal segment

with this cook CMD thoracoabdominal device. As a 4 year follow up he's working full time. He's arm pressures are symmetric. Serum creatinine is normal. Complete false lumen thrombosis. All arch branches patent.

The second case I'll go over really quickly. 68 year old man, again with acute type A dissection. 6.1 cm aortic arch. Initial plan was a left carotid-subclavian bypass with a TEVAR using a chimney technique. We changed that plan to employ a 3-branch branch repair.

Can you advance this? And you can see this photo. In this particular case because the pre-operative left carotid-subclavian bypass and the extension of the dissection in to the innominate artery we elected to...

utilize the two antegrade branches for the bi-lateral carotid branches and actually utilize the downgoing branch through the- for the right subclavian artery for later access to the thoracoabdominal aorta. On post op day one once again he presented with

an affective co arctation secondary to a kink within the previous surgical graft, sustaining a secondary intervention and a placement of a balloon expandable stent. Current status. On Unfortunately the result is not as fortunate

as the first case. In 15 months he presented with recurrent fevers, multi-focal CVAs from septic emboli. Essentially bacteria endocarditis and he was deemed inoperable and he died. So in conclusion.

Repair of complex arch pathologies is feasible with the 3-branch Relay arch branch device. Experience obviously is very limited. Proper patient selection important. And the third antegrade branch is useful for later thoracoabdominal access.

Thank you.

- Thank you Dr. Albaramum, it's a real pleasure to be here and I thank you for being here this early. I have no disclosures. So when everything else fails, we need to convert to open surgery, most of the times this leads to partial endograft removal,

complete removal clearly for infection, and then proximal control and distal control, which is typical in vascular surgery. Here's a 73 year old patient who two years after EVAR had an aneurism growth with what was thought

to be a type II endoleak, had coiling of the infermius mesenteric artery, but the aneurism continued to grow. So he was converted and what we find here is a type III endoleak from sutures in the endograft.

So, this patient had explantations, so it is my preference to have the nordic control with an endovascular technique through the graft where the graft gets punctured and then we put a 16 French Sheath, then we can put a aortic balloon.

And this avoids having to dissect the suprarenal aorta, particularly in devices that have super renal fixation. You can use a fogarty balloon or you can use the pruitt ballon, the advantage of the pruitt balloon is that it's over the wire.

So here's where we removed the device and in spite of the fact that we tried to collapse the super renal stent, you end up with an aortic endarterectomy and a renal endarterectomy which is not a desirable situation.

So, in this instance, it's not what we intend to do is we cut the super renal stent with wire cutters and then removed the struts individually. Here's the completion and preservation of iliac limbs, it's pretty much the norm in all of these cases,

unless they have, they're not well incorporated, it's a lot easier. It's not easy to control these iliac arteries from the inflammatory process that follows the placement of the endograft.

So here's another case where we think we're dealing with a type II endoleak, we do whatever it does for a type II endoleak and you can see here this is a pretty significant endoleak with enlargement of the aneurism.

So this patient gets converted and what's interesting is again, you see a suture hole, and in this case what we did is we just closed the suture hole, 'cause in my mind,

it would be simple to try and realign that graft if the endoleak persisted or recurred, as opposed to trying to remove the entire device. Here's the follow up on that patient, and this patient has remained without an endoleak, and the aneurism we resected

part of the sack, and the aneurism has remained collapsed. So here's another patient who's four years status post EVAR, two years after IMA coiling and what's interesting is when you do delayed,

because the aneurism sacks started to increase, we did delayed use and you see this blush here, and in this cases we know before converting the patient we would reline the graft thinking, that if it's a type III endoleak we can resolve it that way

otherwise then the patient would need conversion. So, how do we avoid the proximal aortic endarterectomy? We'll leave part of the proximal portion of the graft, you can transect the graft. A lot of these grafts can be clamped together with the aorta

and then you do a single anastomosis incorporating the graft and the aorta for the proximal anastomosis. Now here's a patient, 87 years old, had an EVAR,

the aneurism grew from 6 cm to 8.8 cm, he had coil embolization, translumbar injection of glue, we re-lined the endograft and the aneurism kept enlarging. So basically what we find here is a very large type II endoleak,

we actually just clip the vessel and then resected the sack and closed it, did not remove the device. So sometimes you can just preserve the entire device and just take care of the endoleak. Now when we have infection,

then we have to remove the entire device, and one alternative is to use extra-anatomic revascularization. Our preference however is to use cryo-preserved homograft with wide debridement of the infected area. These grafts are relatively easy to remove,

'cause they're not incorporated. On the proximal side you can see that there's a aortic clamp ready to go here, and then we're going to slide it out while we clamp the graft immediately, clamp the aorta immediately after removal.

And here's the reconstruction. Excuse me. For an endograft-duodenal fistula here's a patient that has typical findings, then on endoscopy you can see a little bit of the endograft, and then on an opergy I series

you actually see extravasation from the duodenal. In this case we have the aorta ready to be clamped, you can see the umbilical tape here, and then take down the fistula, and then once the fistula's down

you got to repair the duodenal with an omental patch, and then a cryopreserved reconstruction. Here's a TEVAR conversion, a patient with a contained ruptured mycotic aneurysm, we put an endovascular graft initially, Now in this patient we do the soraconomy

and the other thing we do is, we do circulatory support. I prefer to use ECMO, in this instances we put a very long canula into the right atrium, which you're anesthesiologist can confirm

with transassof forgeoligico. And then we use ECMO for circulatory support. The other thing we're doing now is we're putting antibiotic beads, with specific antibiotic's for the organism that has been cultured.

Here's another case where a very long endograft was removed and in this case, we put the device offline, away from the infected field and then we filled the field with antibiotic beads. So we've done 47 conversions,

12 of them were acute, 35 were chronic, and what's important is the mortality for acute conversion is significant. And at this point the, we avoid acute conversions,

most of those were in the early experience. Thank you.

- Thank you so much. We have no disclosures. So I think everybody would agree that the transposed basilic vein fistula is one of the most important fistulas that we currently operate with. There are many technical considerations

related to the fistula. One is whether to do one or two stage. Your local criteria may define how you do this, but, and some may do it arbitrarily. But some people would suggest that anything less than 4 mm would be a two stage,

and any one greater than 4 mm may be a one stage. The option of harvesting can be open or endovascular. The option of gaining a suitable access site can be transposition or superficialization. And the final arterial anastomosis, if you're not superficializing can either be

a new arterial anastomosis or a venovenous anastomosis. For the purposes of this talk, transposition is the dissection, transection and re tunneling of the basilic vein to the superior aspect of the arm, either as a primary or staged procedure. Superficialization is the dissection and elevation

of the basilic vein to the superior aspect of the upper arm, which may be done primarily, but most commonly is done as a staged procedure. The natural history of basilic veins with regard to nontransposed veins is very successful. And this more recent article would suggest

as you can see from the upper bands in both grafts that either transposed or non-transposed is superior to grafts in current environment. When one looks at two-stage basilic veins, they appear to be more durable and cost-effective than one-stage procedures with significantly higher

patency rates and lower rates of failure along comparable risk stratified groups from an article from the Journal of Vascular Surgery. Meta-ana, there are several meta-analysis and this one shows that between one and two stages there is really no difference in the failure and the patency rates.

The second one would suggest there is no overall difference in maturation rate, or in postoperative complication rates. With the patency rates primary assisted or secondary comparable in the majority of the papers published. And the very last one, again based on the data from the first two, also suggests there is evidence

that two stage basilic vein fistulas have higher maturation rates compared to the single stage. But I think that's probably true if one really realizes that the first stage may eliminate a lot of the poor biology that may have interfered with the one stage. But what we're really talking about is superficialization

versus transposition, which is the most favorite method. Or is there a favorite method? The early data has always suggested that transposition was superior, both in primary and in secondary patency, compared to superficialization. However, the data is contrary, as one can see,

in this paper, which showed the reverse, which is that superficialization is much superior to transposition, and in the primary patency range quite significantly. This paper reverses that theme again. So for each year that you go to the Journal of Vascular Surgery,

one gets a different data set that comes out. The final paper that was published recently at the Eastern Vascular suggested strongly that the second stage does consume more resources, when one does transposition versus superficialization. But more interestingly also found that these patients

who had the transposition had a greater high-grade re-stenosis problem at the venovenous or the veno-arterial anastomosis. Another point that they did make was that superficialization appeared to lead to faster maturation, compared to the transposition and thus they favored

superficialization over transposition. If one was to do a very rough meta-analysis and take the range of primary patencies and accumulative patencies from those papers that compare the two techniques that I've just described. Superficialization at about 12 months

for its primary patency will run about 57% range, 50-60 and transposition 53%, with a range of 49-80. So in the range of transposition area, there is a lot of people that may not be a well matched population, which may make meta-analysis in this area somewhat questionable.

But, if you get good results, you get good results. The cumulative patency, however, comes out to be closer in both groups at 78% for superficialization and 80% for transposition. So basilic vein transposition is a successful configuration. One or two stage procedures appear

to carry equally successful outcomes when appropriate selection criteria are used and the one the surgeon is most favored to use and is comfortable with. Primary patency of superficialization despite some papers, if one looks across the entire literature is equivalent to transposition.

Cumulative patency of superficialization is equivalent to transposition. And there is, appears to be no apparent difference in complications, maturation, or access duration. Thank you so much.

- Thank you so much for the opportunity to present our experience. You are all familiar in this place with the SVS classification for blunt aortic injury, and you all know that it doesn't tell you what to do with each patient,

it doesn't guide treatment. A few years ago we presented a simple, practical grading system based on CAT scan findings for the management of these patients. When a patient has a minimal aortic injury, it's a patient with no aortic contour abnormality,

they have either an intimal flap or a small thrombus less than 10 mm. These patients we don't do any interventions. Patient's that present with an aortic contour abnormality or a large intimal flap or large thrombus have a moderate injury.

These patients get repair in a semi-elective manner once they have stabilized further injuries. One the other hand, persons that present with a severe injury, persons with active extravasation, this patient need to go to the OR because he's dying

and this takes precedence above any other injuries. So, since we implemented this system we took a three years look from 2014 to 2017 to see how are our results. We have 87 patients, 63 percent were moderate, 28 percent minimal, and nine percent severe.

None of the patients underwent open repair, and none of the patients with a minimal got fix. All but three of the patients with a moderate, and all but one of the patients with a severe have TEVAR as a repair method. These are very sick patients, high in the severity scores,

with high rates of intracranial hemorrhages and associated injuries. When we look at the anatomy, the patient with a severe injury are more likely to have a bovine arch anatomy. These are young patients with small aortas,

with a median aortic diameter of 23. The operative timing is the time since the patient hit the door of the emergency room to the patient getting to the OR, was 53 hours for a patient with a moderate injury, and three hours for a patient with a severe.

These are short procedures that can be done in less than 90 minutes with minimal contrast used, and around five minutes of fluoro time. We used intravascular ultrasound very widely. We have covered the subclavian artery

in around 40 percent of the patients. We do all this percutaneously. We are successful in around 86 percent of the cases. We have not had to revascularize any subclavian artery. We had one patient that required a plaque during the index case of the subclavian,

one patient that had a femoral pseudoaneurysm that we treated with thrombin, one patient that was already on a heparin drip for a PE. We took her to the OR more than 24 hours after the heparin drip was started, fixed the TEVAR.

After that the patient had a complete normal CAT scan. More than 12 hours after the heparin drip being restarted for the PE she had a worsening intracranial bleed. We don't know that was related to our procedure. We have no patient with new stroke

or worsening spinal cord injury for the procedure. 30-day followup CT scan had excellent remodeling in every single patient. We have not performed any delay interventions. Our 30-day mortality is very low. There is only one patient with an aortic-related mortality.

This is a patient that presented with a severe injury. She was more than 90 years old and the family elected to don't proceed with any treatment. So in conclusions, we consider the patients with minimal aortic injury do not require surgical treatment or followup imaging.

Patient with a moderate can be safely undergo TEVAR in a semi-elective manner once they are stable from other injuries, but the patient with a severe aortic injury require emergent repair. These procedures are very fast

and can be successfully performed percutaneously. Complications are rare, and the followup reveal excellent remodeling of the aorta that will likely result in longer interval surveillance requirements. Thank you.

- Thank you Mr. Chairman, good morning ladies and gentlemen. So that was a great setting of the stage for understanding that we need to prevent reinterventions of course. So we looked at the data from the DREAM trial. We're all aware that we can try

to predict secondary interventions using preoperative CT parameters of EVAR patients. This is from the EVAR one trial, from Thomas Wyss. We can look at the aortic neck, greater angulation and more calcification.

And the common iliac artery, thrombus or tortuosity, are all features that are associated with the likelihood of reinterventions. We also know that we can use postoperative CT scans to predict reinterventions. But, as a matter of fact, of course,

secondary sac growth is a reason for reintervention, so that is really too late to predict it. There are a lot of reinterventions. This is from our long term analysis from DREAM, and as you can see the freedom, survival freedom of reinterventions in the endovascular repair group

is around 62% at 12 years. So one in three patients do get confronted with some sort of reintervention. Now what can be predicted? We thought that the proximal neck reinterventions would possibly be predicted

by type 1a Endoleaks and migration and iliac thrombosis by configurational changes, stenosis and kinks. So the hypothesis was: The increase of the neck diameter predicts proximal type 1 Endoleak and migration, not farfetched.

And aneurysm shrinkage maybe predicts iliac limb occlusion. Now in the DREAM trial, we had a pretty solid follow-up and all patients had CT scans for the first 24 months, so the idea was really to use

those case record forms to try to predict the longer term reinterventions after four, five, six years. These are all the measurements that we had. For this little study, and it is preliminary analysis now,

but I will be presenting the maximal neck diameter at the proximal anastomosis. The aneurysm diameter, the sac diameter, and the length of the remaining sac after EVAR. Baseline characteristics. And these are the re-interventions.

For any indications, we had 143 secondary interventions. 99 of those were following EVAR in 54 patients. By further breaking it down, we found 18 reinterventions for proximal neck complications, and 19 reinterventions

for thrombo-occlusive limb complications. So those are the complications we are trying to predict. So when you put everything in a graph, like the graphs from the EVAR 1 trial, you get these curves,

and this is the neck diameter in patients without neck reintervention, zero, one month, six months, 12, 18, and 24 months. There's a general increase of the diameter that we know.

But notice it, there are a lot of patients that have an increase here, and never had any reintervention. We had a couple of reinterventions in the long run, and all of these spaces seem to be staying relatively stable,

so that's not helping much. This is the same information for the aortic length reinterventions. So statistical analysis of these amounts of data and longitudinal measures is not that easy. So here we are looking at

the neck diameters compared for all patients with 12 month full follow-up, 18 and 24. You see there's really nothing happening. The only thing is that we found the sac diameter after EVAR seems to be decreasing more for patients who have had reinterventions

at their iliac limbs for thrombo-occlusive disease. That is something we recognize from the literature, and especially from these stent grafts in the early 2000s. So conclusion, Mr. Chairman, ladies and gentlemen, CT changes in the first two months after EVAR

predict not a lot. Neck diameter was not predictive for neck-reinterventions. Sac diameter seems to be associated with iliac limb reinterventions, and aneurysm length was not predictive

of iliac limb reinterventions. Thank you very much.

- Thank you, Dr. Ascher. Great to be part of this session this morning. These are my disclosures. The risk factors for chronic ischemia of the hand are similar to those for chronic ischemia of the lower extremity with the added risk factors of vasculitides, scleroderma,

other connective tissue disorders, Buerger's disease, and prior trauma. Also, hemodialysis access accounts for a exacerbating factor in approximately 80% of patients that we treat in our center with chronic hand ischemia. On the right is a algorithm from a recent meta-analysis

from the plastic surgery literature, and what's interesting to note is that, although sympathectomy, open surgical bypass, and venous arterialization were all recommended for patients who were refractory to best medical therapy, endovascular therapy is conspicuously absent

from this algorithm, so I just want to take you through this morning and submit that endovascular therapy does have a role in these patients with digit loss, intractable pain or delayed healing after digit resection. Physical examination is similar to that of lower extremity, with the added brachial finger pressures,

and then of course MRA and CTA can be particularly helpful. The goal of endovascular therapy is similar with the angiosome concept to establish in-line flow to the superficial and deep palmar arches. You can use an existing hemodialysis access to gain access transvenously to get into the artery for therapy,

or an antegrade brachial, distal brachial puncture, enabling you treat all three vessels. Additionally, you can use a retrograde radial approach, which allows you to treat both the radial artery, which is typically the main player in these patients, or go up the radial and then back over

and down the ulnar artery. These patients have to be very well heparinized. You're also giving antispasmodic agents with calcium channel blockers and nitroglycerin. A four French sheath is preferable. You're using typically 014, occasionally 018 wires

with balloon diameters 2.3 to three millimeters most common and long balloon lengths as these patients harbor long and tandem stenoses. Here's an example of a patient with intractable hand pain. Initial angiogram both radial and ulnar artery occlusions. We've gone down and wired the radial artery,

performed a long segment angioplasty, done the same to the ulnar artery, and then in doing so reestablished in-line flow with relief of this patient's hand pain. Here's a patient with a non-healing index finger ulcer that's already had

the distal phalanx resected and is going to lose the rest of the finger, so we've gone in via a brachial approach here and with long segment angioplasty to the radial ulnar arteries, we've obtained this flow to the hand

and preserved the digit. Another patient, a diabetic, middle finger ulcer. I think you're getting the theme here. Wiring the vessels distally, long segment radial and ulnar artery angioplasty, and reestablishing an in-line flow to the hand.

Just by way of an extreme example, here's a patient with a vascular malformation with a chronically occluded radial artery at its origin, but a distal, just proximal to the palmar arch distal radial artery reconstitution, so that served as a target for us to come in

as we could not engage the proximal radial artery, so in this patient we're able to come in from a retrograde direction and use the dedicated reentry device to gain reentry and reestablish in-line flow to this patient with intractable hand pain and digit ulcer from the loss of in-line flow to the hand.

And this patient now, two years out, remains patent. Our outcomes at the University of Pennsylvania, typically these have been steal symptoms and/or ulceration and high rates of technical success. Clinical success, 70% with long rates of primary patency comparing very favorably

to the relatively sparse literature in this area. In summary, endovascular therapy can achieve high rates of technical, more importantly, clinical success with low rates of major complications, durable primary patency, and wound healing achieved in the majority of these patients.

Thank you.

- We are talking about the current management of bleeding hemodialysis fistulas. I have no relevant disclosures. And as we can see there with bleeding fistulas, they can occur, you can imagine that the patient is getting access three times a week so ulcerations can't develop

and if they are not checked, the scab falls out and you get subsequent bleeding that can be fatal and lead to some significant morbidity. So fatal vascular access hemorrhage. What are the causes? So number one is thinking about

the excessive anticoagulation during dialysis, specifically Heparin during the dialysis circuit as well as with cumin and Xarelto. Intentional patient manipulati we always think of that when they move,

the needles can come out and then you get subsequent bleeding. But more specifically for us, we look at more the compromising integrity of the vascular access. Looking at stenosis, thrombosis, ulceration and infection. Ellingson and others in 2012 looked at the experience

in the US specifically in Maryland. Between the years of 2000/2006, they had a total of sixteen hundred roughly dialysis death, due to fatal vascular access hemorrhage, which only accounted for about .4% of all HD or hemodialysis death but the majority did come

from AV grafts less so from central venous catheters. But interestingly that around 78% really had this hemorrhage at home so it wasn't really done or they had experienced this at the dialysis centers. At the New Zealand experience and Australia, they had over a 14 year period which

they reviewed their fatal vascular access hemorrhage and what was interesting to see that around four weeks there was an inciting infection preceding the actual event. That was more than half the patients there. There was some other patients who had decoags and revisional surgery prior to the inciting event.

So can the access be salvaged. Well, the first thing obviously is direct pressure. Try to avoid tourniquet specifically for the patients at home. If they are in the emergency department, there is obviously something that can be done.

Just to decrease the morbidity that might be associated with potential limb loss. Suture repairs is kind of the main stay when you have a patient in the emergency department. And then depending on that, you decide to go to the operating room.

Perera and others 2013 and this is an emergency department review and emergency medicine, they use cyanoacrylate to control the bleeding for very small ulcerations. They had around 10 patients and they said that they had pretty good results.

But they did not look at the long term patency of these fistulas or recurrence. An interesting way to kind of manage an ulcerated bleeding fistula is the Limberg skin flap by Pirozzi and others in 2013 where they used an adjacent skin flap, a rhomboid skin flap

and they would get that approximal distal vascular control, rotate the flap over the ulcerated lesion after excising and repairing the venotomy and doing the closure. This was limited to only ulcerations that were less than 20mm.

When you look at the results, they have around 25 AV fistulas, around 15 AV grafts. The majority of the patients were treated with percutaneous angioplasty at least within a week of surgery. Within a month, their primary patency was running 96% for those fistulas and around 80% for AV grafts.

If you look at the six months patency, 76% were still opened and the fistula group and around 40% in the AV grafts. But interesting, you would think that rotating an adjacent skin flap may lead to necrosis but they had very little necrosis

of those flaps. Inui and others at the UC San Diego looked at their experience at dialysis access hemorrhage, they had a total 26 patients, interesting the majority of those patients were AV grafts patients that had either bovine graft

or PTFE and then aneurysmal fistulas being the rest. 18 were actually seen in the ED with active bleeding and were suture control. A minor amount of patients that did require tourniquet for a shock. This is kind of the algorithm when they look at

how they approach it, you know, obviously secure your proximal di they would do a Duplex ultrasound in the OR to assess hat type of procedure

they were going to do. You know, there were inciting events were always infection so they were very concerned by that. And they would obviously excise out the skin lesion and if they needed interposition graft replacement they would use a Rifampin soak PTFE

as well as Acuseal for immediate cannulation. Irrigation of the infected site were also done and using an impregnated antibiotic Vitagel was also done for the PTFE grafts. They were really successful in salvaging these fistulas and grafts at 85% success rate with 19 interposition

a patency was around 14 months for these patients. At UCS, my kind of approach to dealing with these ulcerated fistulas. Specifically if they bleed is to use

the bovine carotid artery graft. There's a paper that'll be coming out next month in JVS, but we looked at just in general our experience with aneurysmal and primary fistula creation with an AV with the carotid graft and we tried to approach these with early access so imagine with

a bleeding patient, you try to avoid using catheter if possible and placing the Artegraft gives us an opportunity to do that and with our data, there was no significant difference in the patency between early access and the standardized view of ten days on the Artegraft.

Prevention of the Fatal Vascular Access Hemorrhages. Important physical exam on a routine basis by the dialysis centers is imperative. If there is any scabbing or frank infection they should notify the surgeon immediately. Button Hole technique should be abandoned

even though it might be easier for the patient and decreased pain, it does increase infection because of that tract The rope ladder technique is more preferred way to avoid this. In the KDOQI guidelines of how else can we prevent this,

well, we know that aneurysmal fistulas can ulcerate so we look for any skin that might be compromised, we look for any risk of rupture of these aneurysms which rarely occur but it still needs to taken care of. Pseudoaneurysms we look at the diameter if it's twice the area of the graft.

If there is any difficulty in achieving hemostasis and then any obviously spontaneous bleeding from the sites. And the endovascular approach would be to put a stent graft across the pseudoaneurysms. Shah and others in 2012 had 100% immediate technical success They were able to have immediate access to the fistula

but they did have around 18.5% failure rate due to infection and thrombosis. So in conclusion, bleeding to hemodialysis access is rarely fatal but there are various ways to salvage this and we tried to keep the access viable for these patients.

Prevention is vital and educating our patients and dialysis centers is key. Thank you.

- These are my disclosures, as it pertains to this talk. FEVAR has become increasingly common treatment for juxtarenal aneurysm in the United States since it's commercial release in 2012. Controversy remains, however, with regard to stenting the SMA when it is treated with a single-wide, 10 mm scallop in the device.

You see here, things can look very similar. You see SMA treated with an unstented scallop on the left and one treated with the stented SMA on the right. It has been previously reported by Jason Lee that shuttering can happen with single-wide scallops of the SMA and in their experience

the SMA shuttering happens to different degree in patients, but is there in approximately 50% of the patients. But in his experience, the learning curve suggests that it decreases over time. At UNC, we use a selective criteria for stenting in the SMA. We will do a balloon test in the SMA,

as you see in the indication, and if the graft is not moved, then our SMA scallop is appropriate in line. If we have one scallop and one renal stent, its a high likelihood that SMA scallop will shift and change over time. So all those patients get stented.

If there is presence of pre-existing visceral stenosis we will stent the SMA through that scallop and in all of our plans, we generally place a 2 mm buffer, between the bottom edge of the scallop and the SMA. We looked over our results and 61 Zenith fenestrated devices performed over a short period of time.

We looked at the follow-up out up to 240 days and 40 patients in this group had at least one single wide scallop, which represented 2/3 of the group. Our most common configuration as in most practices is too small renal fenestrations and one SMA scallop.

Technically, devices were implanted in all patients. There were 27 patients that had scallops that were unstented. And 13 of the patients received stented scallops. Hospital mortality was one out of 40, from a ruptured hepatic artery aneurysm post-op.

No patients had aneurysm-related mortality to the intended treated aneurysm. If you look at this group, complications happen in one of the patients with stented SMA from a dissection which was treated with a bare metal stent extension at the time

of the initial procedure. And in the unstented patients, we had one patient with post-op nausea, elevated velocities, found to have shuttering of the graft and underwent subsequent stenting. The second patient had elevated velocities

and 20-pound weight loss at a year after his treatment, but was otherwise asymptomatic. There is no significant difference between these two groups with respect to complication risk. Dr. Veith in the group asked me to talk about stenting choice

In general, we use the atrium stent and a self-expanding stent for extension when needed and a fenestrated component. But, we have no data on how we treat the scallops. Most of those in our group are treated with atrium. We do not use VBX in our fenestrated cases

due to some concern about the seal around the supported fenestration. So Tips, we generally calculate the distance to the first branch of the SMA if we're going to stent it. We need to know the SMA diameter, generally its origin where its the largest.

We need to position the imaging intensifier orthogonal position. And we placed the stent 5-6 mm into the aortic lumen. And subsequently flare it to a 10-12 mm balloon. Many times if its a longer stent than 22, we will extend that SMA stent with a self-expanding stent.

So in conclusion, selective stenting of visceral vessels in single wide scallops is safe in fenestrated cases during this short and midterm follow-up if patients are carefully monitored. Stenting all single wide scallops is not without risk and further validation is needed

with multi-institution trial and longer follow-up

- Thank you Mr Chairman, ladies and gentlemen. These are my disclosure. Open repair is the gold standard for patient with arch disease, and the gupta perioperative risk called the mortality and major morbidity remain not negligible.

Hybrid approach has only slightly improved these outcomes, while other off-the-shelf solution need to be tested on larger samples and over the long run. In this scenario, the vascular repair would double in the branch devices as emerging, as a tentative option with promising results,

despite addressing a more complex patient population. The aim of this multi-center retrospective registry is to assess early and midterm results after endovascular aortic arch repair. using the single model of doubling the branch stent graft in patient to fit for open surgery.

All patient are treated in Italy, with this technique. We're included in this registry for a total of 24 male patient, fit for open surgery. And meeting morphological criteria for double branch devices.

This was the indication for treatment and break-down by center, and these were the main end points. You can see here some operative details. Actually, this was theo only patient that did not require the LSA

re-revascularization before the endovascular procedure, because the left tibial artery rising directly from the aortic arch was reattached on the left common carotid artery. You can see here the large window in the superior aspect of the stent graft

accepting the two 13 millimeter in the branches, that are catheterized from right common carotid artery and left common carotid artery respectively. Other important feature of this kind of stent graft is the lock stent system, as you can see, with rounded barbs inside

the tunnels to prevent limb disconnection. All but one patient achieved technical success. And two of the three major strokes, and two retrograde dissection were the cause of the four early death.

No patient had any type one or three endoleak. One patient required transient dialysis and four early secondary procedure were needed for ascending aorta replacement and cervical bleeding. At the mean follow-up of 18 months,

one patient died from non-aortic cause and one patient had non-arch related major stroke. No new onset type one or three endoleak was detected, and those on standard vessel remained patent. No patient had the renal function iteration or secondary procedure,

while the majority of patients reported significant sac shrinkage. Excluding from the analysis the first six patients as part of a learning curve, in-hospital mortality, major stroke and retrograde dissection rate significant decrease to 11%, 11% and 5.67%.

Operative techniques significantly evolve during study period, as confirmed by the higher use of custom-made limb for super-aortic stenting and the higher use of common carotid arteries

as the access vessels for this extension. In addition, fluoroscopy time, and contrast median's significantly decrease during study period. We learned that stroke and retrograde dissection are the main causes of operative mortality.

Of course, we can reduce stroke rate by patient selection excluding from this technique all those patient with the Shaggy Aorta Supra or diseased aortic vessel, and also by the introduction and more recent experience of some technical points like sequentIal clamping of common carotid arteries

or the gas flushing with the CO2. We can also prevent the retrograde dissection, again with patient selection, according to the availability of a healthy sealing zone, but in our series, 6 of the 24 patients

presented an ascending aorta larger than 40 millimeter. And on of this required 48-millimeter proximal size custom-made stent graft. This resulted in two retrograde dissection, but on the other hand, the availability on this platform of a so large proximal-sized,

customized stent graft able to seal often so large ascending aorta may decrease the incidence of type I endoleak up to zero, and this may make sense in order to give a chance of repair to patients that we otherwise rejected for clinical or morphological reasons.

So in conclusion, endovascular arch repair with double branch devices is a feasible approach that enrich the armamentarium for vascular research. And there are many aspects that may limit or preclude the widespread use of this technology

with subsequent difficulty in drawing strong conclusion. Operative mortality and major complication rates suffer the effect of a learning curve, while mid-term results of survival are more than promising. I thank you for your attention.

- Good morning. I'd like to thank everybody who's in attendance for the 7 A.M. session. So let's talk about a case. 63 year old male, standard risk factors for aneurismal disease. November 2008, he had a 52 mm aneurism,

underwent Gore Excluder, endovascular pair. Follow up over the next five, relatively unremarkable. Sac regression 47 mm no leak. June 2017, he was lost for follow up, but came back to see us. Duplex imaging CTA was done to show the sac had increased

from 47 to 62 in a type 2 endoleak was present. In August of that year, he underwent right common iliac cuff placement for what appeared to be a type 1b endoleak. September, CT scan showed the sac was stable at 66 and no leak was present. In March, six months after that, scan once again

showed the sac was there but a little bit larger, and a type two endoleak was once again present. He underwent intervention. This side access on the left embolization of the internal iliac, and a left iliac limb extension. Shortly thereafter,

contacted his PCP at three weeks of weakness, fatigue, some lethargy. September, he had some gluteal inguinal pain, chills, weakness, and fatigue. And then October, came back to see us. Similar symptoms, white count of 12, and a CT scan

was done and here where you can appreciate is, clearly there's air within the sac and a large anterior cell with fluid collections, blood cultures are negative at that time. He shortly thereafter went a 2 stage procedure, Extra-anatomic bypass, explant of the EVAR,

there purulent fluid within the sac, not surprising. Gram positive rods, and the culture came out Cutibacterium Acnes. So what is it we know about this case? Well, EVAR clearly is preferred treatment for aneurism repair, indications for use h

however, mid-term reports still show a significant need for secondary interventions for leaks, migrations, and rupture. Giles looked at a Medicare beneficiaries and clearly noted, or at least evaluated the effect of re-interventions

and readmissions after EVAR and open and noted that survival was negatively impacted by readmissions and re-interventions, and I think this was one of those situations that we're dealing with today. EVAR infections and secondary interventions.

Fortunately infections relatively infrequent. Isolated case reports have been pooled into multi-institutional cohorts. We know about a third of these infections are related to aortoenteric fistula, Bacteremia and direct seeding are more often not the underlying source.

And what we can roughly appreciate is that at somewhere between 14 and 38% of these may be related to secondary catheter based interventions. There's some data out there, Matt Smeed's published 2016, 180 EVARs, multi-center study, the timing of the infection presumably or symptomatic onset

was 22 months and 14% or greater had secondary endointerventions with a relatively high mortality. Similarly, the study coming out of Italy, 26 cases, meantime of diagnosis of the infection is 20 months, and that 34.6% of these cases underwent secondary endovascular intervention.

Once again, a relatively high mortality at 38.4%. Study out of France, 11 institutions, 33 infective endographs, time of onset of symptoms 414 days, 30% of these individuals had undergone secondary interventions. In our own clinical experience of Pittsburgh,

we looked at our explants. There were 13 down for infection, and of those nine had multiple secondary interventions which was 69%, a little bit of an outlier compared to the other studies. Once again, a relatively high mortality at one year. There's now a plethora of information in the literature

stating that secondary interventions may be a source for Bacteremia in seeding of your endovascular graft. And I think beyond just a secondary interventions, we know there's a wide range of risk factors. Perioperative contamination, break down in your sterile technique,

working in the radiology suite as opposed to the operating room. Wound complications to the access site. Hematogenous seeding, whether it's from UTIs, catheter related, or secondary interventions are possible.

Graft erosion, and then impaired immunity as well. So what I can tell you today, I think there is an association without question from secondary interventions and aortic endograft infection. Certainly the case I presented appears to show causation but there's not enough evidence to fully correlate the two.

So in summary, endograft infections are rare fortunately. However, the incidence does appear to be subtly rising. Secondary interventions following EVAR appear to be a risk factor for graft infection. Graft infections are associated without question

a high morbidity and mortality. I think it's of the utmost importance to maintain sterile technique, administer prophylactic antibiotics for all secondary endovascular catheter based interventions. Thank you.

- Ladies and gentlemen, I thank Frank Veith and the organizing committee for the invitation. I have no disclosures for this presentation. Dialysis is the life line of patients with end-stage renal failure. Hemodialysis can be done by constructing an A-V fistula, utilizing a graft or through a central venous catheter.

Controversy as to the location of A-V fistula, size of adequate vein and priority of A-V fistula versus A-V graft exists among different societies. Our aims were to present our single center experience with A-V fistulas and grafts. Compare their patency rates,

compare different surgical sites, and come up with preferences to allow better and longer utilization. We collected all patients who underwent A-V fistula or A-V graft between the years 2008 through 2014. We included all patients who had preoperative

duplex scanning or those deemed to have good vessels on clinical examination. Arteries larger than two point five millimeter and veins larger than three millimeter were considered fit. Dialysis was performed three times per week. Follow up included check for a thrill,

distal pulse in the arter non-increased venous pressure or visible effective dialysis and no prolonged bleeding. Any change of one of the above would led to obtaining

fistulogram resulting in either endovascular or open repair of the fistula. We started with 503 patients, 32 of which were excluded due to primary failure within 24 hours. We considered this, of course, the surgeon's blame. So we left with 471 patients with a mean age of 58 years,

51 were older than 60, there was a male predominance of 63%, and over half were diabetics. The type of fistula was 41% brachio-cephalic fistula, 30% radio-cephalic fistula, 16% A-V Graft, and 13% brachio-basilic fistula.

Overall, we had 84% fistulas and 16% grafts. The time to first dialysis and maturation of fistula was approximately six weeks. First use of grafts was after two weeks. 11 patients with A-V fistula needed early intervention prior to or after the first dialysis session.

In sharp contrast, none of the A-V grafts needed early intervention. 68 patients were operated for their first ever fistula without duplex scanning due to clinically good vessels. Their patency was comparable to those who underwent a preoperative scanning.

Looking at complications, A-V grafts needed more reintervention than fistulas. All of them were late. Infection was more prominent in the graft group and pseudoaneurysms were more prominent in the A-V fistula group, some of them occluded

or invaded the skin and resulted in bleeding. Here's a central vein occlusion and you can see this lady is after a brachio-basilic A-V shunt. You can see the swollen arm, the collaterals. Here are multiple venous aneurysms. Here's an ulcer.

When we looked at primary patency of A-V fistulas versus graft, A-V fistulas fared better than grafts for as long as five years. When you looked at 50% patency in grafts, it was approximately 18 months, in Fistula, 13. Here's an assisted primary patency by endovascular technique

and when we looked at the secondary patency for the first 24, two years, months, there was no difference between A-V fistulas and A-V grafts, but there's a large difference afterwards. Comparing radio-cephalic fistula to brachio-cephalic fistula there was really no big difference in maturation.

The time was approximately six weeks. As for primary patency there is a trend towards better patency with brachio-cephalic fistula after six months, one year, and two years, but it didn't reach statistical significance. For patients with diabetes,

differences were statistically significant. Brachio-cephalic fistula showed a trend toward shorter maturation time, needed less reintervention, and had a longer patency rate. In conclusions then, ladies and gentlemen, A-V fistula require a longer maturation time

and have higher pseudoaneurysm formation rate, but better patency rates compared to A-V grafts. A-V grafts have a faster maturation time, but more late interventions are required and infection is more common. Finally, diabetic patients have a better result

with proximal A-V fistulas. Thank you for the opportunity to present our data.

- Thank you Dr. Melissano for the kind interaction. TEVAR is the first option, or first line therapy for many pathologies of the thoracic aorta. But, it is not free from complications and two possible complications of the arch are the droop effect and the bird-beak. I was very interested as Gore came up with the new

Active Control System of the graft. The main features of this graft, of this deployment system are that the deployment is staged and controlled in putting in the graft at the intermediate diameter and then to the full diameter. The second important feature is that we can

optionally modify the angulation of the graft once the graft is in place. Was very, very interesting. This short video shows how it works. You see the graft at the intermediate diameter, we can modify the angulation also during this stage

but it's not really used, and then the expansion of the graft at the full diameter and the modification of the angulation, if we wished. This was one of the first cases done at our institution. A patient with an aneurysm after Type B dissection. You see the graft in place and you see the graft after

partial deployment and full deployment. Perhaps you can appreciate, also, a gap between the graft and the lesser curvature of the arch, which could be corrected with the angulation. As you can see here, at the completion angiography we have an ideal positioning of the graft inside the arch.

Our experience consisted only on 43 cases done during the last months. Mostly thoracic aneurysm, torn abdominal aneurysm, and patients with Type B aortic dissection. The results were impressive. No mortality, technical success, 100%,

but we had four cases with problems at the access probably due to the large bore delivery system as you can see here. No conversion, so far and no neurological injury in this patient group. We have some patients who came up for the six months follow-up and you see here we detected one Type 1b endoleak,

corrected immediately with a new graft. Type II endoleak which should be observed. This was our experience, but Gore has organized all the registry, the Surpass Registry, which is a prospective, single-arm, post market registry including 125 patients and all these patients

have been already included in these 20 centers in seven different countries in Europe. This was the pathology included, very thorough and generous, and also the landing zone was very different, including zone two down to zone five. The mean device used per patient were 1.3.

In conclusion, ladies and gentlemen, the Active Control System of the well known CTAG is a really unique system to achieve an ideal positioning of the graft. We don't need to reduce the blood pressure aggressively during the deployment because of the intermediate diameter

reached and the graft angulation can be adjusted in the arch. But, it's not reversible. Thank you very much for your attention.

- Thank you very much. Well this is a series that was actually published five years ago. And it outlined 45,000 patients after carotid endarterectomy, as well as open and closed thoracic abdominal procedures and infrainguinal bypasses.

And you can see here, that the VTE rate, and this is emblematic of a lot of studies. If you take everything together in a ball, you get an average result. And as you can see, the peripheral bypasses had a low incidence.

Carotids, very low incidence. But open procedures had a higher incidence than endovascular procedures. But here is the nub. Here is what's really important and why you need to do risk assessment.

Look at what happened to these percentages if the patients had any morbidity during hospitalization, as high as 7.8%. And here's the list after they went home. Again, it's not the .5 tenths of a percent or 1%, and this is what it's all about.

It's about the extra risk factors that the patient has. So now, anybody that's starting to do work with the Caprini Score, you've got to go to the patient-friendly form. Because we don't just do it,

if the patient comes in for surgery, and somebody does a preoperative evaluation in the holding area, stop it! It's ridiculous! Have you ever been in the holding area? What are you worried about?

You're worried about having the operation. Are they going to find cancer? Will the surgeon have a bad day? How much pain am I going to be in? How long am I going to be out of work? They're not going to talk to you

about their family history or their obstetrical misadventures. So you have them fill a form out ahead of time with their family, and then when they come in, you just double-check it. And we've studied this, it's in five languages,

and it's got perfect correlation with trained observers doing the same thing. And remember, if you fail to carefully interrogate your patients regarding the history or family history of venous thromboembolism, vascular surgery or not, sooner or later you may

be faced with a fatal PE. And the idea that you're giving anticoagulants during your procedure that's going to protect them is not valid. The relative risk of thrombosis increases with the number of risk factors identified.

A combination of genetic and acquired risk factors in a person without a history of a thrombosis personally, but with a family history, has a 60-fold higher chance than those that have a negative family history. And a positive family history increased

the risk of venous thrombosis more than 2-fold, regardless of the other risk factors. Don't forget the history of thrombosis. You won't need to look this article up. It's 183,000 patients over 25 years and it shows that both in first, second,

and third-degree relatives, as well as cohabitants in the household, there's an increased risk of venous thromboembolism. Lowering down, getting lower for each degree of a relative.

But a DVT in a cousin, there may also be a thrombopathic condition in that patient. So you better pay attention to that. National Surgical Quality Improvement Program, wonderful program. The database has no information on history

or family history of VTE, use of perioperative VTE prophylaxis, intraoperative anticoagulation, or perioperative use of antiplatelet agents. How are you supposed to make any sense out of DVT-related studies?

Finally, due to the lack of routine screening for VTE, the incidence of VTE may be underestimated in this NSQIP database, which only makes the need for further study more pressing. This is an important consideration because

more recent data indicates that two-thirds of the patients are found to have DVT during screening and after vascular operations, have no signs or symptoms of the problem. And I'd like to remind you, so this is based on the Boston data, which is the best data.

Patients with a low score pneumatic compression during hospitalization. Moderate score, of 7-10 days of anticoagulation. Don't make any difference if they're inpatient or outpatient. And 28 days if their score is over nine.

They lowered their incidence on the surgical services from 2.2% to a tenth of a percent at 30 days. And finally, and I think this is really, really important. Take a look at all these risk assessment scores.

To my knowledge, there's only two scores. It's not the Padua, it's not the IMPROVE that have a history of obstetrical misadventures which can reflect antiphospholipid antibody syndrome, as well as family history

in various degrees of relatives. So with that, thank you very much.

- So, my topic today is: Antegrade In Situ Fenestration for Fenestrated EVAR: How To Do It. Here are my disclosures. So, Jean Panneton has shown already the validity of retrograde laser fenestration. That is a feasible technique,

an effective option for acute thoracic pathology, with an excellent midterm patency, which it is very easy to do retrograde laser fenestration compared to an anterograde technique. We have done a lot of bench tests to perform all like this (mumbles).

So, the in situ laser fenestration technique is an off-label procedure. It is a bailout solution, and dedicated to emergent cases, patient unfit to open repair, or unfit to CMD device.

And we use this technique for left subclavian arch, and the anterograde technique for visceral arteries, and in a few cases of TEVAR. This is a technique. I use a Heli-FX 16 French. And I use

a 0.9 laser probe. We don't need to use another laser probe for this technique to avoid any larger hole. This is the steps for the technique. I do a primary stenting of the arteries using your effusion.

And then I do the endovascular exclusion. I position the steerable sheath at the level of the targeted artery and then do laser fenestration. This is a pre-stenting. And then the graft deployment

at the level of the seating zone. This was a type 1A endoleak after EVAR. The next step is to do the laser fenestration. You can see the tip of the laser probe. (Mumbles)

You could see the tip of the laser probe coming in the lumen of the SMA. And, we'll then, after this laser fenestration, quite easy, we'll then do

an enlargement of the ULL, using first a small cutting balloon and then do a progressive dilation using a bigger balloon, four millimeter, and then a six millimeter balloon.

The next step is to do, like, what we do for fenestrated cases, we do the bridging covered stent. Yeah, at the level of the SMA, and then the flairing, to have a good sealer

of the proximal part of the bridging stent. After the SMA, we then do the renal fenestration. And we used to stop with the celiac trunk. Our main indications are juxta para renal aneurysm, or type 1A Endoleak when there is a straight aorta. And in a few cases, thoracoabdominal aortic aneurysms.

This is an example of a type 1A endoleak, as I have presented. This is our first trial with 16 patients, treated on between three years. And we have now 29 patients with laser fenestration EVAR,

66 fenestrations, 5% of aortic aneurysm treated in our center. The median ischemic time is 12 minutes for the SMA, one hour for the renal arteries, and around two hours for the celiac trunk. The fenestration success rate is 95%.

Here are the outcomes. There was no mortality, even for very old patients. 16% of transitory dialysis. No spinal cord ischemia, one case of pneumonia, and the short follow-up of 22 months with 24 re-operations

in seven patients. Here are my conclusion. The laser fenestration EVAR must not be used for elective cases. In our strategy, the best options for urgent thoracoabdominal is to use

an off-the-shelf graft, like the T-branch. If a custom-made device graft is not available, the laser fenestration will be our reference treatment, and you don't need any brachial or axillary approach for this technique. Thank you very much.

- So this was born out of the idea that there were some patients who come to us with a positive physical exam or problems on dialysis, bleeding after dialysis, high pressures, low flows, that still have normal fistulograms. And as our nephrology colleagues teach us, each time you give a patient some contrast,

you lose some renal function that they maintain, even those patients who are on dialysis have some renal function. And constantly giving them contrasts is generally not a good thing. So we all know that intimal hyperplasia

is the Achilles Heel of dialysis access. We try to do surveillance. Debbie talked about the one minute check and how effective dialysis is. Has good sensitivity on good specificity, but poor sensitivity in determining

dialysis access problems. There are other measured parameters that we can use which have good specificity and a little better sensitivity. But what about ultrasound? What about using ultrasound as a surveillance tool and how do you use it?

Well the DOQI guidelines, the first ones, not the ones that are coming out, I guess, talked about different ways to assess dialysis access. And one of the ways, obviously, was using duplex ultrasound. Access flows that are less than 600

or if they're high flows with greater than 20% decrease, those are things that should stimulate a further look for clinical stenosis. Even the IACAVAL recommendations do, indeed, talk about volume flow and looking at volume flow. So is it volume flow?

Or is it velocity that we want to look at? And in our hands, it's been a very, very challenging subject and those of you who are involved with Vasculef probably have the same thing. Medicare has determined that dialysis shouldn't, dialysis access should not be surveilled with ultrasound.

It's not medically necessary unless you have a specific reason for looking at the dialysis access, you can't simply surveil as much as you do a bypass graft despite the work that's been done with bypass graft showing how intervening on a failing graft

is better than a failed graft. There was a good meta-analysis done a few years ago looking at all these different studies that have come out, looking at velocity versus volume. And in that study, their conclusion, unfortunately, is that it's really difficult to tell you

what you should use as volume versus velocity. The problem with it is this. And it becomes, and I'll show you towards the end, is a simple math problem that calculating volume flows is simply a product of area and velocity. In terms of area, you have to measure the luminal diameter,

and then you take the luminal diameter, and you calculate the area. Well area, we all remember, is pi r squared. So you now divide the diameter in half and then you square it. So I don't know about you,

but whenever I measure something on the ultrasound machine, you know, I could be off by half a millimeter, or even a millimeter. Well when you're talking about a four, five millimeter vessel, that's 10, 20% difference.

Now you square that and you've got a big difference. So it's important to use the longitudinal view when you're measuring diameter. Always measure it if you can. It peaks distally, and obviously try to measure it in an non-aneurysmal area.

Well, you know, I'm sure your patients are the same as mine. This is what some of our patients look like. Not many, but this is kind of an exaggerated point to make the point. There's tortuosity, there's aneurysms,

and the vein diameter varies along the length of the access that presents challenges. Well what about velocity? Well, I think most of us realize that a velocity between 100 to 300 is probably normal. A velocity that's over 500, in this case is about 600,

is probably abnormal, and probably represents a stenosis, right? Well, wait a minute, not necessarily. You have to look at the fluid dynamic model of this, and look at what we're actually looking at. This flow is very different.

This is not like any, not like a bypass graft. You've got flow taking a 180 degree turn at the anastomosis. Isn't that going to give you increased turbulence? Isn't that going to change your velocity? Some of the flow dynamic principles that are important

to understand when looking at this is that the difference between plug and laminar flow. Plug flow is where every bit is moving at the same velocity, the same point from top to bottom. But we know that's not true. We know that within vessels, for the most part,

we have laminar flow. So flow along the walls tends to be a little bit less than flow in the middle. That presents a problem for us. And then when you get into the aneurysmal section, and you've got turbulent flow,

then all bets are off there. So it's important, when you take your sample volume, you take it across the whole vessel. And then you get into something called the Time-Averaged mean velocity which is a term that's used in the ultrasound literature.

But it basically talks about making sure that your sample volume is as wide as it can be. You have to make sure that your angle is as normal in 60 degrees because once you get above 60 degrees, you start to throw it off.

So again, you've now got angulation of the anastomosis and then the compliance of a vein and a graft differs from the artery. So we use the two, we multiply it, and we come up with the volume flow. Well, people have said you should use a straight segment

of the graft to measure that. Five centimeters away from the anastomosis, or any major branches. Some people have actually suggested just using a brachial artery to assess that. Well the problems in dialysis access

is there are branches and bifurcations, pseudoaneurysms, occlusions, et cetera. I don't know about you, but if I have a AV graft, I can measure the volume flow at different points in the graft to get different numbers. How is that possible?

Absolutely not possible. You've got a tube with no branches that should be the same at the beginning and the end of the graft. But again, it becomes a simple math problem. The area that you're calculating is half the diameter squared.

So there's definitely measurement area with the electronic calipers. The velocity, you've got sampling error, you've got the anatomy, which distorts velocity, and then you've got the angle with which it is taken. So when you start multiplying all this,

you've got a big reason for variations in flow. We looked at 82 patients in our study. We double blinded it. We used a fistulagram as the gold standard. The duplex flow was calculated at three different spots. Duplex velocity at five different spots.

And then the diameters and aneurysmal areas were noted. This is the data. And basically, what it showed, was something totally non-significant. We really couldn't say anything about it. It was a trend toward lower flows,

how the gradients (mumbles) anastomosis, but nothing we could say. So as you all know, you can't really prove the null hypothesis. I'm not here to tell you to use one or use the other, I don't think that volume flow is something that

we can use as a predictor of success or failure, really. So in conclusion, what we found, is that Debbie Brow is right. Clinical examinations probably still the best technique. Look for abnormalities on dialysis. What's the use of duplex ultrasound in dialysis or patients?

And I think we're going to hear that in the next speaker. But probably good for vein mapping. Definitely good for vein mapping, arterial inflow, and maybe predicting maturation. Thank you very much.

- First of all I'd like to thank the organizers for inviting me to give this presentation. These are my disclosures. I'm going to divide this presentation into three main parts. I will initially make the case that at the present time we are providing relatively poor value in ESRD and Vascular Access Care.

I'll then submit to you that one way to address this issue is through Patient Centered Device Innovation and then I'll tell you a little bit about some regulatory initiatives in this area. If you define value as being outcomes over cost

then I would argue that in vascular access we actually provide very poor value in that we have pretty bad outcomes and in order to achieve these bad outcomes we actually spend a huge amount of money at about 1.5 billion dollars per year and these is no talk at all

in the construct before you about quality of life. How can we break this cycle of a lack of innovation resulting in poor quality and outcomes and a high cost burden? I would submit to you that one way that we may be able to break the cycle

is through patient centered innovations. Patient centered innovation, whether it's discovery or process of care innovation, is basically innovation that targets the issues that are important to patients, not necessarily the issues that are important to physicians,

or payors, or regulators, or to industry. The reason that this is important is that the things that are relevant and critical to patients are often very different from the things that are important to the other stakeholder groups that I mention. If you look at hemodialysis for example

the things that are important to a patient on hemodialysis are ability to travel, and dialysis free time, and not feeling washed out post dialysis. On the other hand, if you're an nephrologist as I am, the things that are important to me are survival, and hospitalization, and being a nephrologist

I completely obsess about blood pressure which is really not something that patients are that worried or bother about. The next question is, of course, how do we develop therapies that address the issues that are important to patients? I got this slide from Frank Hurst at the FDA.

It basically makes the point that we need to have patient input at every point in the product development process, from initial ideation, to clinical trial design, to patient preferences, to patient centered outcomes. The FDA actually has a number of programs

in this area, one example is their Patient Focused Drug Development Initiative which allows the FDA to speak with patients and patient groups in different therapeutic areas. Closer to home, the Medical Device Innovation Consortium is extremely interested in Patient Preferences

and in a Risk-Benefit analysis. Within the kidney health initiative, which is a public-private partnership between the American Society of Nephrology and the FDA, we are also very interested in patient preferences for renal devices, and the background for this is

that an individual patient's tolerance for risk actually varies tremendously. Patients on home hemodialysis, for example, may be happy to sacrifice some degree of safety with regard to, say, vascular access, in order for an improved

or a more independent quality of life. But if you're a regulator there needs to be a way that you can get insight in to how patients perceive the risk/benefit ratio so that it can be incorporated into the regulatory pathway, and at least at the present time

the tools for this do not exist. The Kidney Health Initiative hosted an extremely successful patient preference workshop in the Baltimore area a couple of years ago. We asked three main questions: how can patients assist in the development

of a new medical device? How can they ensure the success of future clinical trials? And how can they help with the decision to make a new device available? The proceedings of this workshop have been published, and I'm really not going to go into details there.

I'm going to share with you a video that was made to try and attract patients to this webinar, and I think it really epitomizes the importance of patient centered innovation. - Hello, I'm CeCe, a fellow kidney disease patient. For 33 years I've done dialysis, both hemo and PD.

I had a transplant for 10 years and as you can imagine too many pills, shots, and accesses to mention. As kidney patients you and I both know that a few things in life are not optional. Strength, courage,

persistence, and determination. No matter what life throws at us, we try to stay balanced, maintain our routine, and remain positive. But let's face it, we are often in a holding pattern. Kidney disease treatments have not

changed much over the years. The options for patients like us have largely remained the same for many years. You want to help change that? We need you. Each day we're asked to share our lives with our treatment. But now, let's share our voice, ideas, opinions.

From patients like us, they matter. Key people are realizing our voices matter too. Here's what I found out. The Food and Drug Administration, often known as the FDA, is looking for patients living with kidney disease like you and me, to provide input

on how potential treatments of the future could look. Picture a big table. Around it are dialysis caregivers, researchers, doctors, nurses, and companies providing new products and treatments. They want us and our families to sit beside them

and have a seat at this table. We'll work together to bring potential new treatment options, safe and effective ones, and ones that patients like you and me want and need. Imagine the future of your treatment. What does it look like?

How does it improve your day-to-day life? This future doesn't have to remain just a dream. Join me and other patients to contribute our thoughts and make our ideas a possible reality. - The driving force and also the voice behind that video was the lady on the right, Celeste Lee.

She was a dialysis patient for over 30 years, she was a member of the KHI board of directors, and Celeste died a year and a half ago, she basically withdrew from dialysis because of bone disease from the 30 years of dialysis. I really think that her death

should be a charge for all of us really to try and develop therapies that target the things that are important to patients. Thank you very much for your attention.

- Thank you very much. These are my disclosures. So, infected aorta, in terms of the primary infected aorta and secondary infected stent grafts is a difficult problem, and its instance is probably increasing the more we treat. These patients present late, they're often very malnourished,

and they have significant comorbidity. One place where endovascular therapy is definitely effective is in the emergency situation, both the primary infected aortas, like this case on the right hand side, and also for primary aorto-enteric fistula in an emergency.

This is a young man who had obesity surgery and leaked from his gastric anastomosis. He had an esophageal stent, which then caused a significant infection in the mediastinum and eroded through his aorta. He came in in extremis bleeding

and a short stent to cover that saves his life and gives you an opportunity for later on. It's also effective in secondary infections. This is a young lady who had an aortobifemoral bypass, who is bleeding in the retroperitoneum, and you can cover that with a stent graft

and think about further treatment later. Certainly in the short term, endovascular results from treating primary mycotic aneurysms are good. Our series on the left hand side, we had only one death in our endovascular group. In further case series and in systematic reviews,

the 30 day mortality is consistently somewhere between 10% and 15% in the early stage. Long term results from primary mycotic aneurysm treatment are not that bad. This is the biggest paper, I think, in circulation, showing the three, four, five year results

which are acceptable, but you have to remember that success was gained in this group. In those without persistent sepsis, in those without aortoenteric fistula, and probably in some bacterial types, particularly salmonella, which can be treated

well before the endograft is implanted. The secondary graft infection we have to remember, though, has a significant early mortality. This is our series from Imperial, our open graft excision surgery, for urgent and emergency cases included, is 25%,

but for that you swap an excellent five year mortality. Only a few patients die in that long period. If you're putting an endograft in for secondary graft infection and aortoenteric fistula, we can look to this systematic review which I was good to join in with Steve Kakkos.

The results for endovascular treatment are poor. The rate of current sepsis at two years is 42% in the endovascular group, far worse than that for excisional surgery, so they don't do well. I've got significant concerns for endovascular treatment, and we need to worry about these if we're going to put

endovascular grafts in and leave them in. The first is of antimicrobial resistance, there are more and more resistant bugs occurring in our practice, and it's certainly been our practice in our series. Over the last three years, the number of patients with resistant bugs is up to about 50%.

This is a young man who had infective endocarditis with a fungal disease, a multi-resistant fungus. This is the state of his aorta in the top left hand panel. Of course he needs a deep venous reconstruction, which we then cover with Omentum, and he did well after that.

For aortoenteric fistula, if you're going to put an endograft in, in our experience, these get reinfected and rupture, and they probably do need definitive treatment. In secondary graft infection, aortoenteric fistula, remember, is present in 1/3 of patients,

and you need to consider this. You're only going to find that at surgery if you're placing a stent graft in. Again, we discussed earlier in this session, further interventions: graft infection

is more commonly associated with multiple interventions, and it provides a further nidus for infection. So, when is endovascular therapy effective? Well, endovascular treatments in the emergency cases are life-saving and I think they are effective. For primary aortic infection, it's effective

when there is clearance of sepsis, a low -virulence microorganism, and no fistula. Then, the results are acceptable. For secondary cases treated with Endo techniques, the long term recurrence of sepsis is significant, and they really need definitive graft excision,

or you need to accept they have antibiotics and accept palliation. Thank you very much.

- I think by definition this whole session today has been about challenging vascular access cases. Here's my disclosures. I went into vascular surgery, I think I made the decision when I was either a fourth year medical student or early on in internship because

what intrigued me the most was that it seemed like vascular surgeons were only limited by their imagination in what we could do to help our patients and I think these access challenges are perfect examples of this. There's going to be a couple talks coming up

about central vein occlusion so I won't be really touching on that. I just have a couple of examples of what I consider challenging cases. So where do the challenges exist? Well, first, in creating an access,

we may have a challenge in trying to figure out what's going to be the best new access for a patient who's not ever had one. Then we are frequently faced with challenges of re-establishing an AV fistula or an AV graft for a patient.

This may be for someone who's had a complication requiring removal of their access, or the patient who was fortunate to get a transplant but then ended up with a transplant rejection and now you need to re-establish access. There's definitely a lot of clinical challenges

maintaining access: Treating anastomotic lesions, cannulation zone lesions, and venous outflow pathology. And we just heard a nice presentation about some of the complications of bleeding, infection, and ischemia. So I'll just start with a case of a patient

who needed to establish access. So this is a 37-year-old African-American female. She's got oxygen-dependent COPD and she's still smoking. Her BMI is 37, she's left handed, she has diabetes, and she has lupus. Her access to date - now she's been on hemodialysis

for six months, all through multiple tunneled catheters that have been repeatedly having to be removed for infection and she was actually transferred from one of our more rural hospitals into town because she had a infected tunneled dialysis catheter in her femoral region.

She had been deemed a very poor candidate for an AV fistula or AV graft because of small veins. So the challenges - she is morbidly obese, she needs immediate access, and she has suboptimal anatomy. So our plan, again, she's left handed. We decided to do a right upper extremity graft

but the plan was to first explore her axillary vein and do a venogram. So in doing that, we explored her axillary vein, did a venogram, and you can see she's got fairly extensive central vein disease already. Now, she had had multiple catheters.

So this is a venogram through a 5-French sheath in the brachial vein in the axilla, showing a diffusely diseased central vein. So at this point, the decision was made to go ahead and angioplasty the vein with a 9-millimeter balloon through a 9-French sheath.

And we got a pretty reasonable result to create venous outflow for our planned graft. You can see in the image there, for my venous outflow I've placed a Gore Hybrid graft and extended that with a Viabahn to help support the central vein disease. And now to try and get rid of her catheters,

we went ahead and did a tapered 4-7 Acuseal graft connected to the brachial artery in the axilla. And we chose the taper mostly because, as you can see, she has a pretty small high brachial artery in her axilla. And then we connected the Acuseal graft to the other end of the Gore Hybrid graft,

so at least in the cannulation zone we have an immediate cannualation graft. And this is the venous limb of the graft connected into the Gore hybrid graft, which then communicates directly into the axillary vein and brachiocephalic vein.

So we were able to establish a graft for this patient that could be used immediately, get rid of her tunneled catheter. Again, the challenges were she's morbidly obese, she needs immediate access, and she has suboptimal anatomy, and the solution was a right upper arm loop AV graft

with an early cannulation segment to immediately get rid of her tunneled catheter. Then we used the Gore Hybrid graft with the 9-millimeter nitinol-reinforced segment to help deal with the preexisting venous outflow disease that she had, and we were able to keep this patient

free of a catheter with a functioning access for about 13 months. So here's another case. This is in a steal patient, so I think it's incredibly important that every patient that presents with access-induced ischemia to have a complete angiogram

of the extremity to make sure they don't have occult inflow disease, which we occasionally see. So this patient had a functioning upper arm graft and developed pretty severe ischemic pain in her hand. So you can see, here's the graft, venous outflow, and she actually has,

for the steal patients we see, she actually had pretty decent flow down her brachial artery and radial and ulnar artery even into the hand, even with the graft patent, which is usually not the case. In fact, we really challenged the diagnosis of ischemia for quite some time, but the pressures that she had,

her digital-brachial index was less than 0.5. So we went ahead and did a drill. We've tried to eliminate the morbidity of the drill bit - so we now do 100% of our drills when we're going to use saphenous vein with endoscopic vein harvest, which it's basically an outpatient procedure now,

and we've had very good success. And here you can see the completion angiogram and just the difference in her hand perfusion. And then the final case, this is a patient that got an AV graft created at the access center by an interventional nephrologist,

and in the ensuing seven months was treated seven different times for problems, showed up at my office with a cold blue hand. When we duplexed her, we couldn't see any flow beyond the AV graft anastomosis. So I chose to do a transfemoral arteriogram

and what you can see here, she's got a completely dissected subclavian axillary artery, and this goes all the way into her arterial anastomosis. So this is all completely dissected from one of her interventions at the access center. And this is the kind of case that reminded me

of one of my mentors, Roger Gregory. He used to say, "I don't wan "I just want out of the trap." So what we ended up doing was, I actually couldn't get into the true lumen from antegrade, so I retrograde accessed

her brachial artery and was able to just re-establish flow all the way down. I ended up intentionally covering the entry into her AV graft to get that out of the circuit and just recover her hand, and she's actually been catheter-dependent ever since

because she really didn't want to take any more chances. Thank you very much.

- So I'd like to thank Dr. Ascher, Dr. Sidawy, Dr. Veith, and the organizers for allowing us to present some data. We have no disclosures. The cephalic arch is defined as two centimeters from the confluence of the cephalic vein to either the auxiliary/subclavian vein. Stenosis in this area occurs about 39%

in brachiocephalic fistulas and about 2% in radiocephalic fistulas. Several pre-existing diseases can lead to the stenosis. High flows have been documented to lead to the stenosis. Acute angles. And also there is a valve within the area.

They're generally short, focal in nature, and they're associated with a high rate of thrombosis after intervention. They have been associated with turbulent flow. Associated with pre-existing thickening.

If you do anatomic analysis, about 20% of all the cephalic veins will have that. This tight anatomical angle linked to the muscle that surrounds it associated with this one particular peculiar valve, about three millimeters from the confluence.

And it's interesting, it's common in non-diabetics. Predictors if you are looking for it, other than ultrasound which may not find it, is calcium-phosphate product, platelet count that's high, and access flow.

If one looks at interventions that have commonly been reported, one will find that both angioplasty and stenting of this area has a relatively low primary patency with no really discrimination between using just the balloon or stent.

The cumulative patency is higher, but really again, deployment of an angioplasty balloon or deployment of a stent makes really no significant difference. This has been associated with residual stenosis

greater than 30% as one reason it fails, and also the presence of diabetes. And so there is this sort of conundrum where it's present in more non-diabetics, but yet diabetics have more of a problem. This has led to people looking to other alternatives,

including stent grafts. And in this particular paper, they did not look at primary stent grafting for a cephalic arch stenosis, but mainly treating the recurrent stenosis. And you can see clearly that the top line in the graph,

the stent graft has a superior outcome. And this is from their paper, showing as all good paper figures should show, a perfect outcome for the intervention. Another paper looked at a randomized trial in this area and also found that stent grafts,

at least in the short period of time, just given the numbers at risk in this study, which was out after months, also had a significant change in the patency. And in their own words, they changed their practice and now stent graft

rather than use either angioplasty or bare-metal stents. I will tell you that cutting balloons have been used. And I will tell you that drug-eluting balloons have been used. The data is too small and inconclusive to make a difference. We chose a different view.

We asked a simple question. Whether or not these stenoses could be best treated with angioplasty, bare-metal stenting, or two other adjuncts that are certainly related, which is either a transposition or a bypass.

And what we found is that the surgical results definitely give greater long-term patency and greater functional results. And you can see that whether you choose either a transposition or a bypass, you will get superior primary results.

And you will also get superior secondary results. And this is gladly also associated with less recurrent interventions in the ongoing period. So in conclusion, cephalic arch remains a significant cause of brachiocephalic AV malfunction.

Angioplasty, across the literature, has poor outcomes. Stent grafting offers the best outcomes rather than bare-metal stenting. We have insufficient data with other modalities, drug-eluting stents, drug-eluting balloons,

cutting balloons. In the correct patient, surgical options will offer superior long-term results and functional results. And thus, in the good, well-selected patient, surgical interventions should be considered

earlier in this treatment rather than moving ahead with angioplasty stent and then stent graft. Thank you so much.

- I'd like to thank Dr. Veith and the organizers for the invitation. I'm a speaker for Gore medical, and I receive grant support and speaking fees from Acelity. I'd also like to thank my former partners at UPMC for their help with this study.

So are catheters really that bad? Of course we all know the answer's yes. The risk of bacteremia is 10-fold higher than with an AV fistula, and approximately 5 1/2 septic episodes per 1,000 catheter days are seen

in dialysis patients. This is not only a costly but can be a deadly problem. This is a shot of a 23 year old patient of mine who had been maintained on catheters for a long while,

and I was treating for SBC syndrome. So why can't we place fistulas earlier and avoid catheters altogether? 80% of patients start dialysis with a catheter. This is a multifactorial problem including late referrals to nephrology,

a difficulty of nephrologist to find available surgeons. Perhaps percutaneous fistula creation which is on the cutting edge of dialysis technology might help with this problem. But right now nationwide there's a backlog

of dialysis patients needing surgeons. Compounding this problem is that many patients don't have coverage for surgery until three months of dialysis care. And the proportion of patients getting dialysis fistulas pre-dialysis may be declining

according to a recent Canadian survey. In this survey they found that even in patients who had fistulas created, 11% of those fistulas weren't usable at the time of dialysis initiation. And in patients who had had

two or more surgeries, 35% of those fistulas were not able to be used. AV grafts are associated with a faster catheter removal, but more interventions over the first year of placement than AV fistulas.

TDC removal is faster with AV grafts, but it still takes longer than we all expect. We think an AV fistula should be ready to use at six weeks when indeed the median time to use is closer to 18 weeks. AV grafts we think are ready to use at two weeks,

when the median is actually closer to 9 weeks and this data is also from UPMC. Our aim in this recent study was to compare the real world performance of standard AV grafts and immediate use AV grafts in a dialysis population looking at catheter time.

Taking results from Duke and UPMC combined, we made three groups of patients: the standard AV graft patients, immediate use AV graft patients in a conventional configuration, and immediate use grafts combined

with a HeRO catheter. The demographics across these groups were similar with the exception of HeRo patients having more central venous occlusions, and immediate use AV grafts having a lower percentage of prevalent TDCs.

This was due to a small number of patients getting immediate use AV grafts on initiation of dialysis in place of a catheter. When we looked at complications across these groups, we found that there was no significant difference

in perioperative deaths, steal or AV graft infection. However we found that AV grafts were able to be used in the immediate access group significantly more often than in the standard group.

We found no results, no significant differences in our patency results either primary or secondary between the groups. However, immediate use AV grafts matured at a significantly faster rate, they had significantly fewer catheter days,

and most importantly had fewer catheter-related complications and fewer reinterventions for prolonged patency. We also looked at other authors who had studied this problem, and found that the majority

of immediate use grafts are able to be used within 24 to 72 hours. Other facilities to or other measures to facilitate early catheter removal are to have an organized approach to dialysis access.

In my office we have a schedule and we stick to it. We schedule all appointments at the patient's original visit, and I found that this is especially important for two-stage basilic vein transpositions.

Where we schedule their pre-op, their first and second surgery, all of their post-op visits and even their catheter removal visit at the initial time. Of course these can change,

but it gives us a structure to work in. We get patients back early to clinic sort of like Dr. Shenoy was just talking about. We see patients at four weeks with a fistula, and at two weeks with a graft. And if the access is not usable at that time,

we go immediately to fistulagram. We make an appointment to return to the clinic one month after we clear fistulas for use, with the plan to remove the catheter in clinic. If the catheter is not ready to come out for any reason,

then we troubleshoot the problem to make sure we stay on track. Our goal is to get those catheters out. So in conclusion, reducing catheter days can be accomplished through several means.

I believe we can do better through early fistula placement, and insurance that the fistula is ready to use at the time that the patient is ready to start dialysis. I think we can benefit our patients by

having more practitioners place fistulas. We should consider the judicious use of immediate access grafts, and perhaps use immediate access rather than standard grafts whenever possible. And we should have protocols to facilitate

early follow-up and troubleshooting of accesses as well as being proactive in catheter removal. Thank you.

- Good morning everybody. Here are my disclosures. So, upper extremity access is an important adjunct for some of the complex endovascular work that we do. It's necessary for chimney approaches, it's necessary for fenestrated at times. Intermittently for TEVAR, and for

what I like to call FEVARCh which is when you combine fenestrated repair with a chimney apporach for thoracoabdominals here in the U.S. Where we're more limited with the devices that we have available in our institutions for most of us. This shows you for a TEVAR with a patient

with an aortic occlusion through a right infracrevicular approach, we're able to place a conduit and then a 22-french dryseal sheath in order to place a TEVAR in a patient with a penetrating ulcer that had ruptured, and had an occluded aorta.

In addition, you can use this for complex techniques in the ascending aorta. Here you see a patient who had a prior heart transplant, developed a pseudoaneurysm in his suture line. We come in through a left axillary approach with our stiff wire.

We have a diagnostic catheter through the femoral. We're able to place a couple cuffs in an off-label fashion to treat this with a technically good result. For FEVARCh, as I mentioned, it's a good combination for a fenestrated repair.

Here you have a type IV thoraco fenestrated in place with a chimney in the left renal, we get additional seal zone up above the celiac this way. Here you see the vessels cannulated. And then with a nice type IV repaired in endovascular fashion, using a combination of techniques.

But the questions always arise. Which side? Which vessel? What's the stroke risk? How can we try to be as conscientious as possible to minimize those risks? Excuse me. So, anecdotally the right side has been less safe,

or concerned that it causes more troubles, but we feel like it's easier to work from the right side. Sorry. When you look at the image intensifier as it's coming in from the patient's left, we can all be together on the patient's right. We don't have to work underneath the image intensifier,

and felt like right was a better approach. So, can we minimize stroke risk for either side, but can we minimize stroke risk in general? So, what we typically do is tuck both arms, makes lateral imaging a lot easier to do rather than having an arm out.

Our anesthesiologist, although we try not to help them too much, but it actually makes it easier for them to have both arms available. When we look at which vessel is the best to use to try to do these techniques, we felt that the subclavian artery is a big challenge,

just the way it is above the clavicle, to be able to get multiple devices through there. We usually feel that the brachial artery's too small. Especially if you're going to place more than one sheath. So we like to call, at our institution, the Goldilocks phenomenon for those of you

who know that story, and the axillary artery is just right. And that's the one that we use. When we use only one or two sheaths we just do a direct puncture. Usually through a previously placed pledgeted stitch. It's a fairly easy exposure just through the pec major.

Split that muscle then divide the pec minor, and can get there relatively easily. This is what that looks like. You can see after a sheath's been removed, a pledgeted suture has been tied down and we get good hemostasis this way.

If we're going to use more than two sheaths, we prefer an axillary conduit, and here you see that approach. We use the self-sealing graft. Whenever I have more than two sheaths in, I always label the sheaths because

I can't remember what's in what vessel. So, you can see yes, I made there, I have another one labeled right renal, just so I can remember which sheath is in which vessel. We always navigate the arch first now. So we get all of our sheaths across the arch

before we selective catheterize the visceral vessels. We think this partly helps minimize that risk. Obviously, any arch manipulation is a concern, but if we can get everything done at once and then we can focus on the visceral segment. We feel like that's a better approach and seems

to be better for what we've done in our experience. So here's our results over the past five-ish years or so. Almost 400 aortic interventions total, with 72 of them requiring some sort of upper extremity access for different procedures. One for placement of zone zero device, which I showed you,

sac embolization, and two for imaging. We have these number of patients, and then all these chimney grafts that have been placed in different vessels. Here's the patients with different number of branches. Our access you can see here, with the majority

being done through right axillary approach. The technical success was high, mortality rate was reasonable in this group of patients. With the strokes being listed there. One rupture, which is treated with a covered stent. The strokes, two were ischemic,

one hemorrhagic, and one mixed. When you compare the group to our initial group, more women, longer hospital stay, more of the patients had prior aortic interventions, and the mortality rate was higher. So in conclusion, we think that

this is technically feasible to do. That right side is just as safe as left side, and that potentially the right side is better for type III arches. Thank you very much.

Disclaimer: Content and materials on Medlantis are provided for educational purposes only, and are intended for use by medical professionals, not to be used self-diagnosis or self-treatment. It is not intended as, nor should it be, a substitute for independent professional medical care. Medical practitioners must make their own independent assessment before suggesting a diagnosis or recommending or instituting a course of treatment. The content and materials on Medlantis should not in any way be seen as a replacement for consultation with colleagues or other sources, or as a substitute for conventional training and study.