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Juxtarenal AAA, Calcification|EVAR|71|Male
Juxtarenal AAA, Calcification|EVAR|71|Male
2016accessapparentarteriesballooncalcifiedcompliantdeployfailureflowfrenchiliacproglidesheathSIRslowlywire
The Procedure - Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
The Procedure - Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
anastomosisarteryAvenu MedicalballoonbrachialcephalicchaptercreationdeviceEllipsysFistulaflowflowinglinesneedleperforatingperforatorpiccproximalpuncturepuncturedradialsurgicalultrasoundvein
UFE and Adenomyosis | Uterine Artery Embolization The Good, The Bad, The Ugly
UFE and Adenomyosis | Uterine Artery Embolization The Good, The Bad, The Ugly
accessadenomyosisarteryaxisbifurcationcardiaccathetercatheterschaptercharacteristiccomplicationsdiameterdimeembolizationfemoralfibroidfibroidshematomahydrophiliclabsNonepatientspracticeradialsheathulnaruterine
Case 1 - Non-healing heel wound, Rutherford Cat. 5, previous stroke | Recanalization, Atherectomy | Complex Above Knee Cases with Re-entry Devices and Techniques
Case 1 - Non-healing heel wound, Rutherford Cat. 5, previous stroke | Recanalization, Atherectomy | Complex Above Knee Cases with Re-entry Devices and Techniques
abnormalangioangioplastyarteryAsahiaspectBARDBoston Scientificcatheterchaptercommoncommon femoralcontralateralcritical limb ischemiacrossCROSSER CTO recanalization catheterCSICTO wiresdevicediseasedoppleressentiallyfemoralflowglidewiregramhawk oneHawkoneheeliliacimagingkneelateralleftluminalMedtronicmicromonophasicmultimultiphasicocclusionocclusionsoriginpatientsplaqueposteriorproximalpulserecanalizationrestoredtandemtibialtypicallyViance crossing catheterVictory™ Guidewirewaveformswirewireswoundwounds
Indirect Angiography | Interventional Oncology
Indirect Angiography | Interventional Oncology
ablateablationablativeaneurysmangioangiographybeamBrachytherapycandidateschapterdefinitivelyembolizationentirehccindirectintentinterdisciplinaryischemiclesionographypatientportalresectionsbrtsurgicaltherapyvein
MR Angiography | Determining the Endpoints of CLI Interventions
MR Angiography | Determining the Endpoints of CLI Interventions
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IR in Egypt and Ethiopia | AVIR International-IR Sessions at SIR2019 MiddleEast & Africa Focus
IR in Egypt and Ethiopia | AVIR International-IR Sessions at SIR2019 MiddleEast & Africa Focus
ablationsaccessafricaangiographybillarybulkcardiothoracicchaptercheaperconduitscountriescryocryoablationDialysiseconomyegyptelectroporationembolizationendovascularfibroidfibroidsFistulainterventioninterventionalnanonephrologyneurononvascularoncologyportalpracticeradiologyspecialtysurgeonssurgerysurgicallythrombectomytpavascularvisceralworldwide
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
activeaneurysmangiogramanteriorarterycatheterchaptercoilcontrastcoronalctasembolizationembolizeembolizedflowgastroduodenalhematomaimageimagingmesentericmicrocatheterNonepathologypatientperitonealPeritoneal hematomapseudoaneurysmvesselvesselsvisceral
TEVAR Case | TEVAR w/ Laser Fenestration of Intimal Dissection Flap
TEVAR Case | TEVAR w/ Laser Fenestration of Intimal Dissection Flap
20 Fr Dryseal7 Fr Aptus TourGuide sheath8 Fr IVUSaccessangioplastyaortaarrowarteryballoonbasicallybrachialceliacchapterdeploydissectionfenestratedflapgraftgroinimagelaserleftlooplumenoriginpatientreentrysagittalsheathSignificant Growth of Descending Thoracic AortasnarestentsubclaviantearTEVARwire
TIPS: Techniques- Stent Grafts | TIPS & DIPS: State of the Art
TIPS: Techniques- Stent Grafts | TIPS & DIPS: State of the Art
advantagesarteryaspirateballoonbarebasicallybilecentimeterchaptercontrastcovereddilatedisadvantagedisadvantagesdistalexpandingflowgaugegorehepaticinjectinjectingkitsleaksmultipleneedlepasspassesphysiciansportalportionposteriorproximalpullpushradiologistssalinesheathstentssystemveinvenous
Results of the US FDA Trial | Pecutaneous Creation of Hemodialysis Fistulas
Results of the US FDA Trial | Pecutaneous Creation of Hemodialysis Fistulas
anastomosisangiogramangioplastyarteryBARDBD EverlinQ (4Fr & 6Fr)brachialcalcifiedcatheterschaptercreatedevicedevicesDialysiselectrodeembolizationembolizeendpointsenergyFistulafistulasflowfrenchmagnetsmaturationofficialpercutaneousperforatorpositionpseudoaneurysmradialradiofrequencysaddlesitssurgeonsurgicallyulnarveinvena
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
arterycatheterizecausingchapterclassiccliniccommoncommon iliaccompressioncongestionendovascularevidenceextremitygonadalhugeiliaciliac veinimagingincompetenceincompetentMay Thurner Syndromeobstructionoccludedpelvicpressuresecondarystentsymptomstreatmentsvalvularvaricositiesvaricosityveinveinsvenavenous
Algorithm for Treatment | Pelvic Congestion Syndrome
Algorithm for Treatment | Pelvic Congestion Syndrome
balloonbloodcatheterizechaptercoilscontrastgonadalnesterocclusionpelvicrecurrencerefluxsclerosissymptomstreatttlevaricosevaricositiesveinveinsvenavenogramvenous
Treatment Options- CAS- Embolic Protection Device (EPD)- Proximal Protection | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- CAS- Embolic Protection Device (EPD)- Proximal Protection | Carotid Interventions: CAE, CAS, & TCAR
angioplastyantegradearteryaspirateballoonballoonsbloodcarotidcarotid arterychaptercirclecirculationclampclampingcolumncommoncontralateralcrossdebrisdeflatedevicedevicesdilateddistaldistallyexternalexternal carotidfilterflowincompleteinflateinflatedinternalinternal carotidlesionmarkerspatientpressureproximalretrogradesheathstentstepwisesyringesyringestoleratevesselwilliswire
Stent Graft Deployment | TIPS & DIPS: State of the Art
Stent Graft Deployment | TIPS & DIPS: State of the Art
balloonballooningbarebasicallybifurcationcapturedchaptercirculationcorddeepdeployentryidealplasticportalportionpullsheathstentstentstipsveinveinsvenous
CT Angiography | Determining the Endpoints of CLI Interventions
CT Angiography | Determining the Endpoints of CLI Interventions
aneurysmsangiogramangiographycalcificationcalcifiedcenterschaptercontrastemoryequivalentinterventionkneemraoccludedpatientvessels
Venous Insufficiency- Imaging | Pelvic Congestion Syndrome
Venous Insufficiency- Imaging | Pelvic Congestion Syndrome
chaptercompressibleevidenceflowgonadalgrayiliacincompetentinsufficiencypelvicpelvissecondarysequelaeultrasoundvalsalvavalvevalvesvaricosevaricose veinsvaricositiesveinveinsvenous
Case 11: Bleeding Tracheostomy Site | Emoblization: Bleeding and Trauma
Case 11: Bleeding Tracheostomy Site | Emoblization: Bleeding and Trauma
aneurysmsangiogramarterybleedingBleeding from the tracheostomy siteblowoutcancercarotidcarotid arterychaptercontrastCoverage StentembolizationimageNonepatientposteriorpseudoaneurysmsagittalscreenstent
Aspiration Thrombectomy | Management of Patients with Acute & Chronic PE
Aspiration Thrombectomy | Management of Patients with Acute & Chronic PE
angioAngiodynamicsAngiovac CannulaAspirex CathetercatheterschapterclotdevicedevicesfrenchIndigo ThrombectomyNonepatientPenumbraPenumbra Inc.sheathStraub Medicalthrombectomythrombustpa
Endoleak Case |
Endoleak Case | "Extreme"-ly Obvious IR
accessaheadalgorithmaneurysmangiogramanteriorapproacharterialarterybringcablechaptercontrastendoendoleakfeedingfeeding vessel not identifiedFollow up angiogram shows a type 1b edoleakguysidentifyiliacimagingleaklimbpatientplaypuncturesheathslidestherefore planned an extension of the left aortic limbtrackingtransTranscaval approach to repair a likely type 2 endoleaktypevesselvideo
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
angiographyangioplastyarterybleedbloodcalcifiedcarotidchapterclaviclecommondebrisdevicedistalembolicembolizationexposurefemoralflowimageincisioninstitutionlabeledpatientprocedureprofileproximalreversalreversesheathstenosisstentstentingstepwisesurgicalsuturedsystemultimatelyveinvenousvessel
Hemobilia | Biliary Intervention
Hemobilia | Biliary Intervention
accessangioangiogramarchitecturearteriesarteryaureusbiliarybleedingceliacchaptercollateralizationdefectsdislodgementductembolizefistulasfrequentlygramhepatichilumintercostalinterventionistsliverparenchymalperipheralportalpreppseudoaneurysmremovethrombosestubetubesupsizeveinveinsvessels
Who is a Candidate for AVF | Pecutaneous Creation of Hemodialysis Fistulas
Who is a Candidate for AVF | Pecutaneous Creation of Hemodialysis Fistulas
accessarterybrachialcalibercephalicchapterchemocompressconduitcondylecreationembolizationfibroidsFistulaflowhematomaheparinizednitroglycerinperforatorplavixradialstenoticulnarvein
Pathophysiology | Pulmonary Emoblism Interactive Lecture
Pathophysiology | Pulmonary Emoblism Interactive Lecture
arteriesballoonbloodblowchaptercircuitcoronaryfibershypokinetichypotensionintramuralischemicleftmassivePathophysiologypressurepulmonaryresistancesystemicvasculatureventricleventricular
PV Access | TIPS & DIPS: State of the Art
PV Access | TIPS & DIPS: State of the Art
accessaccessedangulationanterioranteriorlyballoonchaptercirrhosisglidehepatichepatic veinliverneedlepasspintoportalposteriorprolapsesagittalsheathshrinkagestenttractveinvenouswire
Treatment Options- CAS- Embolic Protection Device (EPD)- Distal Protection | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- CAS- Embolic Protection Device (EPD)- Distal Protection | Carotid Interventions: CAE, CAS, & TCAR
arteriesarteryaspirateballoonbasketbloodbraincapturecarotidcarotid arterycerebralchapterclinicaldebrisdevicedistaldistallyembolicfilterfiltersflowincompleteinternalinternal carotidlesionlesionsoversizeparticlespatientperfectphenomenonplaqueprotectedprotectionproximalsheathstenosisstentstentingstrokestrokesthrombustinyultimatelyvesselwire
Successes of EndoAVF Creation | Pecutaneous Creation of Hemodialysis Fistulas
Successes of EndoAVF Creation | Pecutaneous Creation of Hemodialysis Fistulas
accessangioplastycathetercatheterschaptercharlestonDialysiselevationsFistulamonthspatientspercutaneousphysiciansproceduresurgeonsvascularveinweeks
Cone Beam CT | Interventional Oncology
Cone Beam CT | Interventional Oncology
ablationanatomicangioarteriesarteryartifactbeamchaptercombconecontrastdoseembolicenhancementenhancesesophagealesophagusgastricgastric arteryglucagonhcchepatectomyinfusinglesionliverlysisoncologypatientsegmentstomach
Complications & Pitfalls | TIPS & DIPS: State of the Art
Complications & Pitfalls | TIPS & DIPS: State of the Art
accessarteryballoonbranchchapterclinicallydeepdefectgramhepaticimagesliverneedleocclusiveperfusionportaportalsegmentalsegmentsstentthrombosestipstracttypicalveinvenous
Case 2 - 4-month delayed heal wound, Rutherford Cat. 4 | Subintimal Recanalization | Complex Above Knee Cases with Re-entry Devices and Techniques
Case 2 - 4-month delayed heal wound, Rutherford Cat. 4 | Subintimal Recanalization | Complex Above Knee Cases with Re-entry Devices and Techniques
anteriorballooncatheterchapterCordiscritical limb ischemiadeterminedeviceEnteer Re-Entry DevicehealediliacintimalischemialumenMedtronicmonophasicocclusionOUTBACK® ELITE Re-Entry Catheterpainportsre-entry devicerecanalizationstentingwaveformswirewound
Case 8: Retroperitoneal Hematoma- Cover Stent | Emoblization: Bleeding and Trauma
Case 8: Retroperitoneal Hematoma- Cover Stent | Emoblization: Bleeding and Trauma
angiogramarteryaxialbleedcatheterizationchaptercontrastcoronalCoverage StentembolizationembolizehematomailiaciliacsimageinjuryNoneoptionpatientpseudoaneurysmRetroperitoneal hematomastentstents
Transcript

we're going to the cases. So this is a not so interesting case. Just kind of like- >> Every case is interesting. >> Grafting was straight forward, nice iliacs,

nice access vessels. We do all of our cases percutaneously. And I used to kind of chose cases for percutaneous. If it's calcified, if it's bad I said I would tell the surgeon let's do a cut down this on. I would say 10, 20% of the cases you probably should cut down.

My current surgeons, same thing happened where I used to work at UVA too. It's a paradigm. Initially they fight on and on, you can't do that, you can't do that. Once you start doing it,

and I do all of them in person. I tell them like, this is really not gonna work. We'll open them up aafterowrds if it doesn't work out And then I find out that a lot of things that I thought it wouldn't still works. Out of like several cases we had to open up and do a cut down

only three cases in the past three years. Percutaneous works in thess patients, you just have to make sure you're access is proper. I use flouroscopy for accessing calcified arteries and ultrasound sometimes. So you don't wanna go through

the calcium. If you go through the calcium it's not gonna work, but if you find the part of the artery that's not as calcified, the chances of ProGlides working is very high.

>> Over the years have you noticed a greater failure frequency of the ProGlides and are you just like, not make it twice, not three not four in the room, every case and have you gotten any explanation? I know I haven't from

manufacturers why there is an apparent difference. >> I would think people are using it more liberally. I haven't personally seen any. As I said, from a 100% success rate at UVA, almost about a 100 plus cases with zero failures,

I had three failures but with no preselection. So it's still pretty good success rate. In the publications, the reported publications, pretty much all of them over 95% success rate. So if there is a trend towards more failure I would think that we're using if in more crazy cases,

more not appropriate cases and those other ones- >> This wasn't apparent to me. I hope it's apparent to everybody in the audience, is that we always put two in

ahead of time, and then a couple of times we failed and then next you know the surgeons are cut down. So it occurred to me one day when someone passed this information to me that have that third ProGlide there. You still have a wire up. Put it in third device, and I guess that sometimes you can put in a fourth device. So how often do you have to resort to that third device?

>> I use a third device only for thoracics, 22 or higher French sheaths. I may have used it once for the abdominal just because it was bleeding a little too much. Because one you deploy the two what happens is they either work but due to calcification etc it's not sealing

yet. So the third one will actually, you will be able to deploy through the existing kind of narrowed hole. Or one of them didn't work, one of them worked.

Then the area that's left is kind of small enough for the ProGlide to capture and then work. So I've used it liberally. Before giving it up, I always need a wire and until I look at the groin letter hole.

If it's oozing a little bit that's fine. They're always gonna ooze a little bit. But if it's aggressive or squirting blood aout then I still have my wire in and I will kind of put the third one in, which is less than 5% of all cases and it's more common in larger than 22 grafts. >> I think someone mentioned Angio-Seal.

Barry's group just published an abstract with Angio-Seal closure primarily of up to 12 French holes I think, which is really surprising. >> Using it as a bailout is reasonable I've been thinking. You know you've been doing that too. Instead of putting a third Perclose you can put an eight French Angio-Seal and almost,

always works. The other issue is you loose wire access but if it's gushing blood then I'd not use it. But if it's still a trickle of blood of an eight French Angio-Seal is guaranteed that it's going to take care of it and it works pretty wel. But I grew with you. I think I'm seeing more and more of failure of the device.

>> [INAUDIBLE] >> It's capture, it's like the way they push, it's not not pushing as much. And again maybe we are going further now in more calcified cases but some of them that looks fine and I still dilate and dissect and all the stuff and it's not doing as well. You could be on to something.

There could be on some effect. I agree with you. We're doing more three Percloses more than it was two years ago. I agree there's something. >> When you come up empty and the sutures are- >> [CROSS-TALK]

>> Yes, we're coming up empty more frequent. >> That happens though in my experience again it used to happen 8 years ago. I started doing this in 2004 and it's kind of growing. It's gonna happen a lot.

One way to deal with that is don't yank it out. Just take it out very, very slowly because it's all about breaking that suture during that pull process. If you do it very slowly that kind of after puncturing at the hub, very slowly you will get away in case.

But if you just yank it, that string is gonna break. And that's one thing. And it happens in very calcific arteries and in very scarred groins. And in my experience if you have a really scarred groin, a couple

of surgeries, for 12 French I would just go to Angio-Seal eight French. It'll work much better than the ProGlide. Okay. Let's move on. We covered the access session. That was supposed to be somewhere else. >> [LAUGH] >> So this is like as straightforward as it gets. I wish

we see these cases. I just want to show this one. You lower your main graft, you keep it constrained and that's how I usually size. I'm sure pretty much

everyone is using it this way. But I usually size my contralateral. I usually bring several graft sizes according to CT. But it's not always going to be perfect match to the CT. So it's good to have a one shorter, one longer limb available.

And you can put your pigtail and just inject from the sheath, measure your internal iliac to kind of get the difference and then that way you're gonna be more accurate in terms of your sizing. So this is a quick injection and 5 cc contrast is usually enough.

If I have a large sheath I usually put a small five French sheath or something so that I don't have to fill everything with contrast, preserve some of the contrast. And after this. >> [INAUDIBLE] >> Yeah.

One thing we work with fellows and we also flush our sheath routinely. So it's like you have to kind of aspirate it back and put it back. We do that technique, but doesn't always work depending on who you work with.

So one little thing about it, we've had a couple of cases like two cases I think, when ballooning with a compliant balloon, paying attention to the bifurcation flow divider,

we have had two raptures of the flow divider creating a Type 3 leak because they centered the balloon right at the flow divider. That's a weak point so if you put too much pressure it may rupture. So your balloon should be either above or just below the flow divider. Just a little tip. I'm sure the experienced guys are all familiar with it but if somebody is just starting to do something to pay

attention. The other thing that I do is I don't balloon aggressively outside the graft. Even in the iliac I try to predict where the balloon is gonna expand to and that part is just at the edge of the graft. Because if you balloon even these are compliant balloons.

These are diseased arteries etc. If you balloon it you may create a dissection and it's kind of just hard to deal with. So this is kind of the technique that we do at the end of the iliac. And you deply. And our final aortogram.

This simple case, a case like this with no issues, you can usually get away with it like in 45 minutes nowadays percutaneously. And this is our follow up CT scan. Sorry about this. Instead of videos I had multiple still images but things are actually

looking good. Okay. Let's move on to the next case. [BLANK_AUDIO]

here a little bit okay the ellipsis device Avenue medical from California developed by Jeff Howe in Richmond ultrasound imaging only don't need

fluoroscopy everybody in the room like staff they'd off to where lid you advance the needle into the either the very distal cephalic vein or through the actual perforator under ultrasound and once you're there you

follow the tip of the needle keeping it in the center of the lumen of the vein under ultrasound guided down to the point where it's just adjacent to the radial artery and then once you're adjacent to the radial artery this may

take a little bit of torquing of the needle but you know even putting in PICC lines for what 15 years 20 years so it's nothing not more difficult than that which is you know why I tell the fellows do the PICC lines you're not doing the

PICC lines just to do pickle and you're doing them so you can do these kinds of procedures then you puncture the radial artery then you get arterial blood flow you put a wire down and you get a sheath down and you put the device down I'll

show you the device in just a second it's called tissue welding it's an electronic device that creates a anastomosis doesn't really succumb to any problems with vascular wall calcifications usually takes just 30 to

45 minutes I did the last one the other day in 15 minutes and angioplasty the anastomosis immediately following the creation of the fissure with a 5 millimeter 1/8 balloon of your choice here's the device you can see it opens

up there's like a little bit of a window there and so it goes down through the vein it crosses over into the artery you're able to see this under ultrasound you position that window as you see on the right with the artery and wall the

vein artery vein and artery walls between that space and then the debate the device closes down on them then the machine will give you a reading of what the distances you push to the button and you got a fistula and it's very pretty

straightforward then you go ahead and balloon that with a five millimeter balloon to make sure the anastomosis is open and running and that's it then you pull out and you can compress with one finger you know on the vein and here's a

look at the the anatomic and that's office Jilla that it does create you know you don't mobilize there's no surgical trauma patient goes home with a couple of band-aids here's a dissection with ultrasound of the area that you're

working in there on the right you can see the perforator coming down it's sitting over the PRA the right proximal radial artery and that's right where you're going to make your puncture from one vessel into the other and this is

what you're left with on the left of course you see a big surgical scar from a prior creation of probably in the brachiocephalic fistula and on the right you can see the very prominent cephalic vein after fish through the creation

which is getting ready to to be punctured here's the illustration of what you've just done again perforating vein going down towards the radial artery create the fish stool and now you have a brachial artery down radial

artery so you have a radial proximal radial perforating vein fistula I don't know whether it hopefully it goes up the cephalic vein if it goes up the basilic vein you may have to consider doing transpositions or elevation to get that

vein in a position of yeah so that it can't be punctured here's another ultrasound from one of our cases again showing a nice you know red to blue flow of the fistula here's another one you know I have to see these a while you say

wow it's really pretty amazing and what we do is we get velocity measurements at the time of the procedure one week later then at four weeks later and at four weeks if they're not flowing at least 500 to 600 cc's a minute then we'll go

in and do a secondary balloon or something to get things going there's that same patients actually this is our patients arm it's a different patient and you can see the flow map there and when you see that diastolic component

got halfway up the systolic that means you're flowing at about 600 500 to 600 cc's a minute it's a good indication that you've got a you've created a fistula with working potential if you have to re intervene it's a radial

puncture you go right up the the radial artery I'm sure your dad is familiar with doing that for the most part and that goes right across that and ask Tomo system so if you have to dilate the anastomosis to get a larger you're in

good position if you have to go up and redirect flow by embolization of small collaterals nor the brachial veins now you can do that all from the the radius it's nice highway right up into the fistula

and here's the results of the FDA trial

patients may be asking you is like what about adenomyosis and I've been hearing something about that which is not exactly fibroids right it's a different entity though the symptoms could be kind of the same and for the years and years

and years we wouldn't have any options for patients who had adenomyosis in fact the only option for patients with adenomyosis is surgery but adenomyosis can coexist with fibroids and sometimes patient presents with adenomyosis alone

so we've had some studies now that have looked at that and although the data is not as robust and not as awesome as for patients with fibroids we do provide a performing bolas Asian for those patients with particles that are little

smaller than what we would use for fibroids with results as you're seen there before now the only other new thing that's on the market and it's not so new to you guys that are probably doing radial in femorals anyway working

in cardiac labs and IR labs it's actually what we call the trophy if you go back one slide for me mr. a the person and press play then we will be able to see that radial access I do not work for Merritt they don't give me a

dime I just thought that this was a good video is there volume on that at all if not I can just talk about it and really what it says is that if you need to a radial UFE or have radial axis for a uterine embolization patients just love

it more they and especially like patients that are already just intimidated they don't want you going near their groins at all they actually could just lay on the table we don't have to put up we don't put a Foley in

they just get a radial access the same way that you would just be starting in a line except we have special types of radial catheters and and sheaves to do that and I don't offer a radial access to

patients who are too tall for our catheters or if they've had multiple prior radial access and don't have an intact ulnar artery to complete their hand but it's much like any of that femoral access that you would normally

see they make special hydrophilic sheaths now they're called from this particular company slender technology where the inner diameter of the sheath essentially the sheath is the same like five French on the outside but they have

cored out the inside so it's a bigger diameter so it's a five six so on the outside it's a five but it will take a six French in the inner inner lumen and you know my practice we do more than 80% of all our arterial punctures with a

radial access and everybody here comes dr. Sean Deroche Nia who is the leading author of that paper for SI R and one of my esteemed partners so most patients are able to get up and walk out if you are go from a radial access the access

is actually closed with just a radial band and the complications of having a hematoma or having the patient's bleed out those just all go away but radial axis have their own complications so I'm not here to say that it is not that but

in our practice we found it to be safe and effective our patients want it and it's become like a practice differentiator so if you're working in a practice that don't do radial you EFI's right now you should mention it because

if you're in a population where the other providers are only doing femoral then you will automatically get the patients that only want that so here's a patient that had a radial access you can see a catheter that is coming from the

aorta while you can't see that it's not up and over the bifurcation but maybe you do can see that and there's a catheter in the uterine artery with the characteristic

shape of the uterine artery and the characteristic curlicue vessels of of the fibroid and on the left you can see the Imogen for beforehand and the Imogen on the right of post embolization where there is stagnant flow in the main

uterine not main uterine artery in the horizontal portion of the uterine artery for greater than five cardiac beads and again there's there's no reason that you have to know that level of detail except that you're scrubbing in but if you're

in the audience you're looking at this you're like dr. Newsome I see an air bubble there as well then I'd say good because because I do see it too so you can see the preimage and you can see the post image for pre and post embolization

these these procedures can be quick these procedures are very very rewarding and and I love to do it

so just a compliment what we everybody's talked about I think a great introduction for diagnosing PID the imaging techniques to evaluate it some of the Loney I want to talk about some of the above knee interventions no disclosures when it sort of jumped into

a little bit there's a 58 year old male who has a focal non-healing where the right heel now interestingly we when he was referred to me he was referred to for me for a woman that they kept emphasizing at the anterior end going

down the medial aspect of the heel so when I literally looked at that that was really a venous stasis wound so he has a mixed wound and everybody was jumping on that wound but his hour till wound was this this right heel rudra category-five

his risk factors again we talked about diabetes being a large one that in tandem with smoking I think are the biggest risk factors that I see most patient patients with wounds having just as we talked about earlier we I started

with a non-invasive you can see on the left side this is the abnormal side the I'm sorry the right leg is the abnormal the left leg is the normal side so you can see the triphasic waveforms the multiphasic waveforms on the left the

monophasic waveforms immediately at the right I don't typically do a lot of cross-sectional imaging I think a lot of information can be obtained just from the non-invasive just from this the first thing going through my head is he

has some sort of inflow disease with it that's iliac or common I'll typically follow within our child duplex to really localize the disease and carry out my treatment I think a quick comment on a little bit of clinicals so these

waveforms will correlate with your your Honourable pencil Doppler so one thing I always emphasize with our staff is when they do do those audible physical exams don't tell me whether there's simply a Doppler waveform or a Doppler pulse I

don't really care if there's not that means their leg would fall off what I care about is if monophasic was at least multiphasic that actually tells me a lot it tells me a lot afterwards if we gain back that multiphase the city but again

looking at this a couple of things I can tell he has disease high on the right says points we can either go PITA we can go antegrade with no contralateral in this case I'll be since he has hide he's used to the right go contralateral to

the left comment come on over so here's the angio I know NGOs are difficult Aaron when there's no background so just for reference I provided some of the anatomy so this is the right you know groin area

right femur so the right common from artery and SFA you have a downward down to the knee so here's the pop so if we look at this he has Multi multi multiple areas of disease I would say that patients that have above knee disease

that have wounds either have to level disease meaning you have iliac and fem-pop or they at least have to have to heal disease typically one level disease will really be clot against again another emphasis a lot of these patients

since they're not very mobile they're not very ambulatory this these patients often come with first a wound or rest pain so is this is a patient was that example anyway so what we see again is the multifocal occlusions asta knows

he's common femoral origin a common femoral artery sfa origin proximal segment we have a occlusion at the distal sfa so about right here past the air-duct iratus plus another occlusion at the mid pop to talk about just again

the tandem disease baloney he also has a posterior tibial occlusion we talked about the fact that angio some concept so even if I treat all of this above I have to go after that posterior tibial to get to that heel wound and complement

the perineal so ways to reach analyze you know the the biggest obstacle here is on to the the occlusions i want to mention some of the devices out there I'm not trying to get in detail but just to make it reader where you know there's

the baiance catheter from atronics essentially like a little metal drill it wobbles and tries to find the path of least resistance to get through the occlusion the cross or device from bard is a device that is essentially or what

I call is a frakking device they're examples they'll take a little peppermint they'll sort of tap away don't roll the hole peppermint so it's like a fracking device essentially it's a water jet

that's pulse hammering and then but but to be honest I think the most effective method is traditional wire work sorry about that there are multiple you know you're probably aware of just CTO wires multi weighted different gramm wires 12

gram 20 gram 30 gram wires I tend to start low and go high so I'll start with the 12 gram uses supporting micro catheter like a cxi micro catheter a trailblazer and a B cross so to look at here the sheath I've placed a sheet that

goes into the SFA I'm attacking the two occlusions first the what I used is the micro catheter about an 1/8 micro catheter when the supporting my catheters started with a trailblazer down into the crossing the first

occlusion here the first NGO just shows up confirmed that I'm still luminal right I want to state luminal once I've crossed that first I've now gone and attacked the second occlusion across that occlusion so once I've cross that

up confirm that I'm luminal and then the second question is what do you want to do with that there's gonna be a lot of discussions on whether you want Stan's direct me that can be hold hold on debate but I think a couple of things we

can agree we're crossing their courageous we're at the pop if we can minimize standing that region that be beneficial so for after ectomy couple of flavors there's the hawk device which

essentially has a little cutter asymmetrical cutter that allows you to actually shave that plaque and collect that plaque out there's also a horrible out there device that from CSI the dime back it's used to sort of really sort of

like a plaque modifier and softened down that plaque art so in this case I've used this the hawk device the hawk has a little bit of a of a bend in the proximal aspect of the catheter that lets you bias the the device to shape

the plaque so here what I've done you there you can see the the the the the teeth itself so you can tell we're lateral muta Liz or right or left is but it's very hard to see did some what's AP and posterior so usually

what I do is I hop left and right I turned the I about 45 degrees and now to hawk AP posterior I'm again just talking left to right so I can always see where the the the the AP ended so I can always tell without the the teeth

are angioplasty and then here once I'm done Joan nice caliber restored flow restored then we attacked the the common for most enosis and sfa stenosis again having that device be able to to an to direct

that device allows me to avoid sensing at the common femoral the the plaque is resolved from the common femoral I then turn it and then attack the the plaque on the lateral aspect again angioplasty restore flow into the common firm on the

proximal SFA so that was the there's the plaque that you can actually obtain from that Hawk so you're physically removing that that plaque so so that's you know that's the the restoration that flow just just you know I did attack the

posterior tibial I can cross that area I use the diamond back for that balloon did open it up second case is a woman

to talk about is indirect angiography this is kind of a neat trick to suggest to your intervention list as a problem solver we were asked to ablate this lesion and it looked kind of funny this patient had a resection for HCC they

thought this was a recurrence so we bring the comb beam CT and we do an angio and it doesn't enhance so this is an image here of indirect port ography so what you can do is an SMA run and see at which point along the

run do you pacify the portal vein and you just set up your cone beam CT for that time so you just repeat your injection and now your pacifying the entire portal vein even though you haven't selected it and what to show

well this was a portal aneurysm after resection with a little bit of clot in it the patient went on some aspirin and it resolved in three months so back to our first patient what do you do for someone who has HCC that's invading the

heart this patient underwent 2y 90s bland embolization microwave ablation chemotherapy and SBRT and he's an eight-year survivor so it's one of those things where certainly with the correct patient selection you can find the right

things to do for someone I think that usually our best results come from our interdisciplinary consensus in terms of trying to use the unique advantages that individual therapies have and IO is just one of those but this is an important

lesson to our whole group that you know a lot of times you get your best results when you use things like a team approach so in summary there are applications to IO prior to surgery to make people surgical candidates there are definitive

treatments ie your cancer will be treated definitively with curative intent a lot of times we can save when people have tried cure intent and weren't able to and obviously to palliate folks to try to buy them time

and quality of life thermal ablation is safe and effective for small lesions but it's limited by the adjacent anatomy y9t is not an ischemic therapy it's an ablative therapy you're putting small ablative radioactive particles within

the lesion and just using the blood supply as a conduit for your brachytherapy and you can use this as a new admin application to make people safer surgical candidates when you apply to the entire ride a panic globe

thanks everyone appreciate it [Applause] [Music]

very helpful these patients the calcium this and the vessels can be

seen through with the MRA it doesn't it doesn't cause as much artifact so it could be easier to see what's going on in calcified vessels additionally you saw an image in Marc's talk as well of this is an example of a time-resolved

image of an MRA or you can basically recreate exactly what you're seeing in an angiogram and this could be very helpful to kind of determine what kind of TVL disease you're getting yourself into

newer MRI techniques that we're using in the evaluation patients with PID functional MRI which compares the ratio of how much oxygen versus deoxygenated hemoglobin we have in a tissue so we can apply this to a pre and post exercise

scenario in patients to have claudication as well although it's not it's only approved in research protocols this is an example of what you see for that so pre intervention here's the CTA image reconstruct

in 3d with a long segment an iliac occlusion and then post intervention you can see there's a standard reconstructed vessel and the you can both chart this out and do it and superimpose it on the MRA image and you're gonna get an actual

quantitative amount of tissue reperfusion but studies are still ongoing to determine just how much increasing the amount of red that's in that image is important we don't know the answer to that yet here's just

another example a patient underwent an anterior tibial artery recanalization and you can see the improvement in the t2 star which is just one of the one of the measurements that you can use on these images so what's on the horizon

next is me talking about Egypt and Ethiopia and how I are how IRS practice in Egypt and Ethiopia and I think feather and Musti is gonna talk a little bit about Ethiopia as well he's got a

lot of experience about in about Ethiopia I chose these two countries to show you the kind of the the the the difference between different countries with within Africa Egypt is the 20th economy worldwide by GDP third largest

economy in Africa by some estimates the largest economy in Africa it's about a hundred million people about a little-little and about thirty percent of the population in the u.s. 15 florist's population worldwide and has

about a little over a hundred ir's right now 15 years ago they had less than ten IRS and fifteen years ago they had maybe two to three IRS at a hundred percent nowadays they're exceeding a hundred IRS so tremendous gross in the last 15 years

in the other hand Ethiopia is a very similar sized country but they only have three to five IRS that are not a hundred percent IRS and are still many of them are under training so there are major differences between countries within

within Africa countries that still need a lot of help and a lot of growth and countries that are like ten fifteen years ahead as far as as far as intervention ready intervention radiology

most of the practice in Ethiopia are basic biopsies drainages and vascular access but there is new workshops with with embolization as well as well as well as vascular access in Egypt the the ir practice is heavily into

interventional oncology and cancer that's the bulk that's the bulk of their of their practices you also get very strong neuro intervention radiology and that's mostly most of these are French trained and not

American trains so they're the neuro IRS in Egypt or heavily French and Belgian trains with with french-speaking influence but the bulk of the body iron that's not neuro is mostly cancer and it involves y9e tastes ablations high-end

ablations there's no cryoablation in Egypt there is high-end like like a nano knife reverse electric race electroporation in Egypt as well but there is no cryo you also get a specialty embolization such as fibroids

prostate and embroiders are big in Egypt they're growing very very rapidly especially prostates hemorrhoids and fibroids is an older one but it's still there's still a lot of growth for fibroid embolization zyou FES in Egypt

there's some portal portal intervention there's a lot of need for that but not a lot of IRS are actually doing portal intervention and then there's nonvascular such as billary gu there's also vascular access a lot of

the vascular access is actually done by nephrology and is not done by not not done by r is done by some high RS varicose veins done by vascular surgery and done by IRS as an outpatient there's a lot of visceral angiography as well

renal and transplants stuff so it's pretty high ends they do not do P ad very few IR s and maybe probably two IR s in the country that actually do P ad the the rest of the P ad is actually endovascular PA DS done by vascular

surgery a Horta is done all by vascular surgery and cardiothoracic surgery it's not done it's not done by IR IR s are asked just to help with embolization sometimes help with trying to get a catheter in a certain area but it's

really run by by vascular surgeons but but most more or less it's it's the whole gamut and I'm going to give you a little example of how things are different that when it comes to a Kannamma 'kz there's no dialysis work

they don't do Pfister grams they don't do D clots the reason for that is the vascular surgeons are actually very good at establishing fishless and they usually don't have a

lot of problems with it sometimes if the fistula is from Beau's door narrowed it's surgically revised they do a surgical thrombectomy because it's a lot cheaper it's a lot cheaper than balloons sheaths and and trying to and try a TPA

is very expensive it's a lot cheaper for a surgeon to just clean it out surgically and resuture it there's no there's no inventory there are no expensive consumables so we don't see dialysis as far as fistula or dialysis

conduits at all in Egypt and that's usually a trend in developed in developed countries next we'll talk

patient female patient who has the sudden onset of upper abdominal pain here's the CT we did all these cases in one day it was crazy it was terrible so so here's a big hematoma a big peritoneal hematoma you

can see it anterior to the right kidney you can see the white blob of contrast right in the middle of the hematoma that's a pseudoaneurysm or even active extravagance um less experienced people would probably say it's active

extravagant I think most of us would prefer that it be called kind of a pseudoaneurysm this active extrapolation would be much more cloudy and spread out this is more constrained and you can see on the

coronal image you get a sense that there's that hematoma same type of problem all right is there more imaging that we can do to figure out the next step again I said earlier earlier in this lecture

that sometimes we use CTA now sometimes a CTA is worthwhile I do find that for a lot of these patients I think we're getting smarter and we're doing CTAs right at the beginning of this whole thing you know when a trauma

patient comes in we're getting CTAs so we can max out the amount of information that we get on the initial diagnostic imaging here's what we're seeing on the CTA and in this particular case I think it's pretty clear that you can see the

pseudoaneurysm arising from what looks like a branch of the superior mesenteric artery so this is just an odd visceral and Jake visceral aneurysm which looks like it probably ruptured I don't have an explanation for it led to a big

hematoma here's what that is and now we're gonna do an angiogram the neat thing is it just perfectly correlated with a conventional angiogram so here's our super mesenteric angiogram all right the supreme mesenteric artery

on the first image to the left is that vessel going downward towards the right side of the screen all those vessels coming off are really just collateral vessels going up to the liver through the gastroduodenal artery again that

left one looks pretty good it's not until you see the delayed image on the right that you see that area of contrast all right so that's the finding that correlates with the CT scan all right here we're able to get in there you put

a micro catheter in that vessel alright the key next step for this patient as I mentioned earlier is the whole concept of front door and back door so here we're technically in the front door the next thing that we do is we put the

catheter past the area of injury and now we embolize right across the injury because remember once you embolize one thing flow is gonna change we screw it up body the body wants to preserve its flow if we block flow

somewhere the body's gonna reroute blood to get to where we blocked it so we want to think ahead and we want to say okay we're blocking this vessel how's the body going to react and let's let's get in the way of that happening that's what

we did here so we saw the pathology we went past it we embolized all across the pathology and boom now we don't have anymore bleeding and the likelihood of recurrence is gonna be very low for that patient because we went all the way

across the abnormality and I think from

so my Xtreme ir case is a TVR with on a patient with a type you tie section and then we use laser to find a straight the dissection flap and I just want to before I start I just want to give a big shout-out to my attending dr. Kasia and Rudy pump Adi on our IR resident Rudy

put these really cool illustrations together as you will see on these upcoming slides and dr. Kaja he did this case and basically it helps me with everything so since your old male patient presenting with history of

chronic type UTI section um he was medically managed with and I'll G Saxena antihypertensives and then he came into the ER a couple months later and it was complaining of severe back and chest pain so a CTA was

performed and and they found that there was a significant growth in the descending thoracic aorta and so we have a couple images here we have a 3d reconstruction of the aorta as well as the sagittal image of that CTA and does

anyone notice anything about this 3d on aorta no so this patient has a variant he has a bull vine arch actually so the left common carotid is coming off the right you nominate um but vessel the arteries so it's nice for us when we're

placing that and negraph we have more more of a landing zone so we're not covering any of important structures other than the less left subclavian artery and so we're the two arrow heads are on the sagittal image you will see

that there's reentry tears so if you look at the 3d image so the dissection is that line right in the middle and so it's starting at the origin of near the LSA and ending at the level of the celiac artery okay so we obtained right

and left common femoral access and you obtain left brachial access as well and the reason for left particular access is once we get our enter graph gen we're going to go ahead and I'm pass the wire through and a laser through and find us

to find a straight through that under graft so you can have flow but I will talk about that later so we put a twenty French dry seal sheath and the right groin and in the left groin we had a 8 by 45

she's and that was basically to accommodate IVA so they can kind of get a feel for what we're doing it just like another resource we have so we have two IVs images here the one on the left with the yellow arrow basically is just

showing us that thickened dissection flap and the Ibis on the right is the love of the celiac artery so the celiac artery is where that green arrow is pointing to and the white arrow head is basically just showing us that reentry

tear at that level and so through the right through the right the sheet on the right hand side the 20 French try seal sheets we placed the 7 by a 55 Aptus on steerable tour tour guide sheath so that basically can angle up to 180 degrees so

we place that up to sheath in the true lumen of the aorta and pointing towards the false lumen and then I just put some pictures up of what a dissection looks like I don't know if a lot of people a lot of you guys on do dissection their

frustrations I mean your practice but I just thought it would be nice to show and so once we have the Aptus sheep up in the true lumen and have it pointed towards on the false women we confirmed with the eye this just to make sure

we're on the right spot and we're not we're not going to harm any other structures when we laser so once we have that up we use laser to kind of poke a hole and fenestrated create that's here and once we did that we dragged while

the laser was on we dragged the baptists sheath down 4 centimeters and created a large terror so the whole goal is to open up that dissection so we could eventually place that under graph so once and that there's a florist got the

image of ibis and apt the Aptus sheath and all that and so we created a large tiara and then what we did was we passed the 18 wire into the false live and we angioplasty with the 14 by 4 centimeter balloon and as you can see that there is

some waste on that balloon and then eventually it dilated up to you know now I'm gonna burst rate which was 18 and so that Ibis is basically showing us that's here that we just made in our dissection flap

okay am I not there we go okay so once we angioplasty be repeated the same thing so we put the laser back up get a small tear right underneath large penetrations here that we just said and then we angioplasty it so once we

angioplasty we connected that top tier and bottom tear together we opened it all up and we angioplasty it again after that so once that I mean go back so once the angioplasty so right underneath that big tear that we just made so between

the tear that we just made and the re-entry is here at the level of a celiac you still have that little piece of a dissection flap that we still need to open to place our under graft so once we did that once we angioplasty through

the right groin we passed up a glide catheter and the true lumen and pointed it towards the false women and through on the tear that we just made we passed the v18 wire and through the left groin we went up with a 20 millimeter loop

snare and so we grabbed the the 18 wire and so that loop snare went and that reentry tear and like into the false lumen so our whole point is to get through and through access with that wire so we can use as a wire cutter to

cut the remaining flaps so that's what we did so we we grabbed that snare we grab that v18 with the snare we pulled it out of the left groin and we obtained through and through access okay so you're just ripping it down yeah

basically it's like it she goes somewhere yeah yeah you got it yeah that's exact don't ask a question to what you don't want the answer so basically that's what we did so once we got through into access we advanced both

sheets and we kind of like pull down to to cut the remaining flap so once we did that we basically had everything open so we were ready to place our under graft so we did angiography and then we ended up

deploying the descent and then so once we would deploy the stent we basically covered that LSA the left subclavian artery so that's exactly why we got brachial access so we pass the wire through and got to the origin of the LSA

and then we ended up putting the laser down and then we turn the laser on poked a hole and so now we have this hole and this endograft so once we did that we angioplasty it and then we deploy the stents okay and so now we have a diagram

of the pates and LSA following stenting so we sent in the aorta and where the dissection was and then resented the LSA so we have nice nice flow the REC lab donal angiogram basically is just demonstrating feeling of the celiac in

superior mesenteric artery as you can see in that middle image distally so one of our missions that Rudy made which is pretty awesome so illustration of fenestrated t-bar with LSA sensing and adequate just so Co following the

dissection flap that we usually there's open so BAM there you go so that's Rudy and I in the middle my one of my co-workers Kevin and when my mentor is dr. Kaja dr. Marley and myself so thank you hi dr. Kasia thanks for joining

craft is basically the only FDA approved stain crafts and I'll show you a

different way of doing it as well besides the Viator especially in countries where the Viator does not does not exist okay the Viator stand sits in the liver just like just like in my hand here the bare

portion is on the portal venous circulation the covered portion is basically on the hepatic vein part of the circulation okay the bare portion is chain-linked and is very flexible that's why kind of cut can crimp like that okay

they're both self expanding the bare portion is self expanding held by the sheath only the covered portion is held by a court okay so they're both self expanding but they're constraints by two different two different two different

methods one's a sheath constraint and one is a is a cord constraint okay these are the measurements the bare portion theoretically allows portal flow to pass if you're in a branch so it doesn't cost from boses of the portal vein branch in

the covered portion is important to cover the parental tract the youth that you've created in the past you had a lot of billary leaks into the tips if it's a bear stance bile is from by genic so it causes thromboses bile also instigates a

lot of reactionary tissue such as pseudo intimal hyperplasia that actually causes the narrowings of the of these tips if you causing bear stance the coverage stance prevents the bile leaks from actually leaking into into the shunt

itself okay and that's why it has a higher patency rate okay ideally this is how it's it's a portal vein and hepatic vein you'll hear people say proximal and distal you'll he'll hear radiologists especially diagnostic

radiologist referring to proximal and distal proximal and distal some people refer to the portal venous and is proximal some people refer to the paddock venous and is proximal and vice versa okay and it

gets confusing nobody knows well what's proximal okay the people that say portal venous and is proximal there they're talking about its proximal to flow so it's basically the first thing that flow hits people that

call the paddock venous and proximal they're talking relatives of the body more central is proximal more peripheral is distal okay so they're using these the same terminology is very confusing so the best thing to use and I we tell

that to radiologists who tell that to IRS is to talk a portal venous and hepatic venous end you don't talk proximal distal everybody knows where the portal venous end is and where everybody knows where the peregrinus end

is and there's no confusion strictly speaking which is the correct one which is proximal for us as IRS tax nurses proximal is always to flow proximal is always anticipate to flow so the correct thing is actually proximal

is the portal venous ends remember P proximal P portal okay proximal is where the expected flow is coming in that's actually the correct one but just to leave e8 the confusion portal venous and hepatic venous end okay there's a new

stents which is the controlled expansion stents it's in my opinion it feels exactly like the old stance the only difference between it is that it's constrained still has the same twenty to twenty millimeter or two centimeter bare

portion chain-linked it still has that four to eight centimeter covered portion but it's constrained in the middle okay and has the same gold ring to actually market the to the to a bare portion and the cover portion self expanding portion

and is constrained down to eight millimeters you can dilate it to eight and nine and ten initially there was a constant there was a misconception that it was like a string like a purse string that you break and jumps from eight

and no this is actually truly a controlled where if you put a nine-millimeter balloon it will dilate to nine only eight balloon little dialect to eight only the only the only key thing is that the atmospheres has to

be ten millimeters at least okay so it has to be a high pressure balloon has to be at least 10 min 10 10 atmospheres okay so when you're passing that that balloon over make sure that it's that that it that at least it's burst is 10

millimeters or or EXA or more on a 10 mil on on 10 atmospheres okay next thing is when you're making a needle pass you got your target now with a co2 you got the portal vein you've got your stank craft and you know how it works okay how

do you make your needle pass okay and how do you know if your needle has hit the portal vein or not there are two schools to do this okay one school is to make a needle pass and aspirate as you pull back and when you get blood back

you basically inject contrast okay before you do all that when you make your needle pass you push saline and especially if you do if you're using a large system so there are several kits out there there is the cook kits that's

a color pinto needle that's a large gauge 14 gauge needle there is the new gore kits which is also 14 gauge needle it's a big system these large systems you need to push out that poor plug that's kind of like a biopsy you have to

push it out with saline first and then as you pull back aspirate okay the other system is a ratio cheetah or a Rocha cheetah it's actually pronounced rasa schita and that's a very small system that there won't be a core that you have

to push out okay so anyway if you're using a large system like a coop into a needle which is the cook system or the gore system you push that plug out and then there are two schools school two aspirates you get blood back you inject

contrast if you're in the hepatic in in the portal vein you basically access it with a wire the other school is to do a ptc style you actually puff contrasts as you pull back you do not ask for H saline you actually puff

contrasts as you pull back okay the latter puffing contrasts as you pull back is the minority I would say less than two percent of operators are gonna puff okay ninety-eight percent of operators at

least are gonna actually aspirate and not puff okay I'm actually in the minority I'm in the 2% and there are advantages and disadvantages like I promised you two different ways and advantages and disadvantage to each to

each one the advantages of puffing contrasts even if you missed the portal vein after a while you actually get contrast around the portal vein and you actually have a visual of the portal vein that's the advantage so when you're

actually injecting contrast and you're missing it you get contrast around the portal vein it actually goes around the portal and you actually see the portal vein and it takes training sometimes this one's easy

okay I'll show you some more difficult ones but this is a beautiful pussy typical portal vein okay in addition to that oh go back in do you see that you see that hole in the middle there see that signal signal you watch that

because you're gonna see it again and again that's usually a posterior portal vein posterior right portal vein heading heading away from you okay that's usually a good target and I'll show you that again here's a little

little bit less obvious to the untrained eye but this is actually where the portal vein sits right there okay so sometimes it needs training right just actually see where the portal vein is and once you've stained the portal vein

then you have a real-time image of where the portal vein is you can actually go go after it and it reduces your needle passes disadvantages of using contrast and puffing away is that it creates a mess okay if you make multiple passes

you and you miss on the multiple passes then you start creating a mess and even with your DSA you can't even see the portal you can't see the portal vein because you've got this great mess another disadvantage of using contrast

is that you have to stomach what you're gonna see okay you make a needle pass and you don't inject contrast you have no proof of where you've been but if you're making a needle pass and you're

injecting contrast you and everybody else is gonna see where you've been that's usually not a good thing sometimes you will see bowel you see gold bladder you'll see arteries you'll see veins you'll see all sorts of stuff

that nobody wants to see and you don't want to document okay so that's another disadvantage so I recommend especially young physicians especially young physicians in places that are not used to this especially young physicians that

are new to hospitals and they're gonna they're gonna make multiple passes not to do this was they're gonna be very they'll be criticized a lot by their texts and by the institution by their colleagues as to what have you done you

know big mass artery you've hit artery but the guys and gals that are just aspirating and not injecting they're actually not documenting what they're going through but they're going through the same stuff okay

okay next up this I think this video yep

primary Africa cm point 86% matured remember what do we say before you know not what 96% so that's the answer to the surgeons why surgeon says why should I do this why don't I just create official

it takes me 20 minutes there's no surgeon in the world who can create a fistula that's gonna mature 86 percent of the time I don't that's not happening all right the endpoints were met secondary

endpoints to needle dialysis 88% I mean that just doesn't happen surgically I'm sorry and I'll show you some other data as well where the superiority of the percutaneous fistula over surgery this is the jvi are pivotal trial I with Jeff

Hall and tip Jennings and here's the match of the secondary maturation procedures that had to be done all right some get an estimate and we angioplasty the anastomosis embolization of branches an angioplasty Stan's oh okay

here's the bar device and this is called the ever linked queue back in these six French days and now wave link device there are two catheters one goes into the brachial artery one goes into a brachial vein there's a big magnets this

is the six wrench device and you can see that little connection I hope you can that's a foot foot plate a little electrode that pops up between the two catheters it actually creates the official of this time with a

radiofrequency energy on the right you see a brachial artery angiogram and the point of official creation with six ranch was the common on our branch which you can see down there below you have the big dense radial artery coming up on

top and then you see the common arm branch and then the proper ol arm going down there at four o'clock and then the interosseous in the middle now with the the four french device you can create fistulas from the

radial vein to radial artery or radial arterial vein owner artery to ulnar vein and either one gives you a little more options about where you want to create well why would you want options well if you go down to the video of vena Graham

in the and the ulna vein and you don't see any flow up the the perforator well you can only switch to the other side and to try to find better flow put yourself in a better position to create a working fistula this does use

ultrasound to puncture but then uses fluoroscopy to position the devices its RF energy has a little bit of a problem with heavily calcified vessels who's ever seen that and in dialysis patient right so and because radiofrequency

energy goes around calcium it doesn't go through we've had one case where we did there was just no fistula creation everything went finally since no fistula and so that patient got a surgical fistula multiple angles to confirm

correct position of the device this was with the six french device the four french device is much less cumbersome because you want to make sure that that footplate that I showed you sits directly in the receiver area to create

otherwise if you go off to the side left and right they you can have a problem with creating pseudoaneurysm some things no angioplasty then ask to most us however in this case you do embolize on the way out because you've entered the

brachial vein and you embolize form just to stop any losing and to because you want to help to redirect flow towards the superficial system here are the two devices on the left into the four frames versus the six

range quite a difference much more easy to work with the four french doesn't have a bulky handle on the end like the six ranch did they're pretty easy to position and it's a a round electrode not a foot that comes up and it kind of

sits in what they call the saddle you can see there where it says square magnets underfloor french there's a saddle there that that loop electrode sits in and very easy in there to position

who's a candidate well doctor Ross says

now other causes this is a little bit different different scenario here but it's not always just as simple as all

there's leaky valves in the gonadal vein that are causing these symptoms this is 38 year old Lafleur extremity swelling presented to our vein clinic has evolved our varicosities once you start to discuss other symptoms she does have

pelvic pain happiness so we're concerned about about pelvic congestion and I'll mention here that if I hear someone with exactly the classic symptoms I won't necessarily get a CT scan or an MRI because again that'll give me secondary

evidence and it won't tell me whether the veins are actually incompetent or not and so you know I have a discussion with the patient and if they are deathly afraid of having a procedure and don't want to have a catheter that goes

through the heart to evaluate veins then we get cross-sectional imaging and we'll look for secondary evidence if we have the secondary evidence then sometimes those patients feel more comfortable going through a procedure some patients

on the other hand will say well if it's not really gonna tell me whether the veins incompetent or not why don't we just do the vena Graham and we'll get the the definite answer whether there's incompetence or not and you'll be able

to treat it at the same time so in this case we did get imaging she wanted to take a look and it was you know shame on me because it's it's a good thing we did because this is not the typical case for pelvic venous congestion what we found

is evidence of mather nur and so mather nur is compression of the left common iliac vein by the right common iliac artery and what that can do is cause back up of pressure you'll see her huge verax here and here for you guys

huge verax in that same spot and so this lady has symptoms of pelvic venous congestion but it's not because of valvular incompetence it's because of venous outflow obstruction so Mather 'nor like I mentioned is compression of

that left common iliac vein from the right common iliac artery as shown here and if you remember on the cartoon slide for pelvic congestion I'm showing a dilated gonna delve a non the left here but in this case we have obstruction of

the common iliac vein that's causing back up of pressure the blood wants to sort of decompress itself or flow elsewhere and so it backed up into the internal iliac veins and are causing her symptoms along with her of all of our

varicosities and just a slide describing everything i just said so i don't think we have to reiterate that the treatments could you go back one on that I think I did skip over that treatments from a thern er really are also endovascular

it's really basically treating that that compression portion and decompressing the the pelvic system and so here's our vena Graham you can see that huge verax down at the bottom and an occluded iliac vein so classic Mather nur but causing

that pelvic varicosity and the pelvic congestion see huge pelvic laterals in pelvic varicosities once we were able to catheterize through and stent you see no more varicosity because it doesn't have to flow that way it flows through the

way that that it was intended through the iliac vein once it's open she came back to clinic a week later significant improvement in symptoms did not treat any of the gonadal veins this was just a venous obstruction causing the increased

pressure and symptoms of pelvic vein congestion how good how good are we at

typical symptoms if you want to hit the play on this I think this is one we've probably already seen but it's it's the the algorithm that I go through for treatment so we do my renal vena Graham

there we go it's classic definitely has reflux and so next I will selectively catheterize the gonadal vein and here you see very large pelvic varicosities and so my standard is to actually treat the varicose veins with a sclerostin

much like I would sclerosis a varicose vein in the leg and there's a few reasons that I do that and so here's how I do it I'll put an occlusion blown up you see the picture on the left of the screen has an occlusion balloon it's the

same occlusion balloon we use for a tips procedure and I'll temporarily block the gonadal vein and fill up the system or the varicosities with contrast so that I get a sense for the volume of sclerosis and I would use then the picture on the

right is a venogram after I've injected the sclerostin so I've evaluated the volume and then I've replaced all that contrast by forcing it through the system to drain out the pelvic veins and filling the varicosities with

soldier column I do that because I believe and there's no data to prove it that it helps prevent superficial phlebitis in those varicosities so if we're just gonna block off the gonna dull vein then we have stagnant blood in

all the pelvic varicosities and stating that blood wants to clot and when blood clots on its own it'll stretch and expand the vein and cause pain and so in my own personal experience that has created a little bit worse post

procedural symptoms for patients compared to the patients that I use so TRADOC all to actually treat the varicosities so that's what I start out with and then since I'm kind of an old-fashioned guy I still go with the

coils and so I coiled the whole going a ttle vein and you can use sort of whatever you want you know that's the simplest thing for me are using nester coiours coils and and fill it up some people use the long detachable shaping

coils kind of an expensive way to do it if it saves you radiation then then that's that's one of the reasons to do it but the point is in in the venous system you have to be able to and I show this slide because you can see a

collateral vein or at least a branch there a confluence point that we've coiled off too if you do not treat the entire length there's a there's a lot higher chance for recurrence and veins have a way to find their way around if

they can communicate back up then patient gets recurrent symptoms and that can happen in about ten percent of cases so in order to prevent that you treat the whole gun out of vein and that's sort of why I think some people like to

use liquid sclerosis because then they will be able to sort of profuse all those branch points that would have a chance for recurrence case number two

of these issues filters are generally still use or were used up until a few years ago or five years ago almost exclusively and then between five years and a decade ago there was this new concept of proximal protection or flow

reversal that came about and so this is the scenario where you don't actually cross the lesion but you place a couple balloons one in the external carotid artery one in the common carotid artery and you stop any blood flow that's going

through the internal carotid artery overall so if there's no blood flowing up there then when you cross the lesion without any blood flow there's nothing nowhere for it to go the debris that that is and then you can angioplasty and

or stent and then ultimately place your stent and then get out and then aspirate all of that column of stagnant blood before you deflate the balloons and take your device out so step-by-step I'll walk through this a couple times because

it's a little confusing at least it was for me the first time I was doing this but common carotid artery clamping just like they do in surgery right I showed you the pictures of the surgical into our directa me they do the vessel loops

around the common carotid approximately the eca and the ICA and then actually of clamping each of those sites before they open up the vessel and then they in a sequential organized reproducible manner uncle Dee clamp or unclamp each of those

sites in the reverse order similar to this balloon this is an endovascular clamping if you will so you place this common carotid balloon that's that bottom circle there you inflate you you have that clamping that occurs right

so what happens then is that you've taken off the antegrade blood flow in that common carotid artery on that side you have retrograde blood flow that's coming through from the controller circulation and you have reverse blood

flow from the ECA the external carotid artery from the contralateral side that can retrograde fill the distal common carotid stump and go up the ica ultimately then you can suspend the antegrade blood flow up the common

carotid artery as I said and then you clamp or balloon occlude the external carotid artery so now if you include the external carotid artery that second circle now you have this dark red column of blood up the distal common carotid

artery all the way up the internal carotid artery up until you get the Circle of Willis Circle of Willis allows cross filling a blood on the contralateral side so the patient doesn't undergo stroke because they've

got an intact circulation and they're able to tolerate this for a period of time now you can generally do these with patients awake and assess their ability to tolerate this if they don't tolerate this because of incomplete circle or

incomplete circulation intracranial injury really well then you can you can actually condition the patient to tolerate this or do this fairly quickly because once the balloons are inflated you can move fairly quickly and be done

or do this in stepwise fashion if you do this in combination with two balloons up you have this cessation of blood flow in in the internal carotid artery you do your angioplasty or stenting and post angioplasty if need be and then you

aspirate your your sheath that whole stagnant column of blood you aspirate that with 320 CC syringes so all that blood that's in there and you can check out what you see in the filter but after that point you've taken all that blood

that was sitting there stagnant and then you deflate the balloons you deflate them in stepwise order so this is what happens you get your o 35 stiff wire up into the external carotid artery once it's in the external cart or you do not

want to engage with the lesion itself you take your diagnostic catheter up into the external carotid artery once you're up there you take your stiff wire right so an amp lats wire placed somewhere in the distal external carotid

artery once that's in there you get your sheath in place and then you get your moment devices a nine French device overall and it has to come up and place this with two markers the proximal or sorry that distal markers in the

proximal external carotid artery that's what this picture shows here the proximal markers in the common carotid artery so there's nothing that's touched that lesion so far in any of the images that I've shown and then that's the moma

device that's one of these particular devices that does proximal protection and and from there you inflate the balloon in the external carotid artery you do a little angiographic test to make sure that there's no branch

proximal branch vessels of the external carotid artery that are filling that balloon is inflated now in this picture once you've done that you can inflate the common carotid artery once you've done that now you can take an O on four

wire of your choice cross the lesion because there's no blood flow going so even if you liberated plaque or debris it's not going to go anywhere it's just gonna sit there stagnant and then with that cross do angioplasty this is what

it looks like in real life you have a balloon approximately you have a balloon distally contrast has been injected it's just sitting there stagnant because there's nowhere for it to go okay once the balloons are inflated you've

temporarily suspends this suspended any blood flow within this vasculature and then as long as you confirm that there's no blood flow then you go ahead and proceed with the intervention you can actually check pressures we do a lot of

pressure side sheath pressure measurements the first part of this is what the aortic pressure and common carotid artery pressures are from our sheath then we've inflated our balloons and the fact that there's even any

waveform is actually representative of the back pressure we're getting and there's actually no more antegrade flow in the common carotid artery once you've put this in position then you can stent this once the stent is in place and you

think you like everything you can post dilated and then once you've post dilated then you deflate your balloon right so you deflate your all this debris that's shown in this third picture is sitting there stagnant

you deflate the external carotid artery balloon first and then your common carotid artery and prior to deflating either the balloons you've aspirated the blood flow 320 CC syringes as I said we filter the contents of the third syringe

to see if there's any debris if there's debris and that third filter and that third syringe that we actually continue to ask for eight more until we have a clean syringe but there's no filter debris out because

that might tell us that there's a lot of debris in this particular column of blood because we don't want to liberate any of that so when do you not want to use this well what if the disease that you're dealing with extends past the

common carotid past the internal carotid into the common carotid this device has to pass through that lesion before it gets into the external carotid artery so this isn't a good device for that or if that eca is occluded so you can't park

that kampf balloon that distal balloon to balloon sheath distally into the external carotid artery so that might not be good either if the patient can't tolerate it as I mentioned that's something that we assess for and you

want to have someone who's got some experience with this is a case that it takes a quite a bit of kind of movement and coordination with with the physician technologists or and co-operators that

okay stent graft deployments once you've ballooned you basically pass the sheath over the balloon all the way down to the portal circulation the reason for that

is the Viator stance has a bare portion that's captured by the sheath so your sheath has to be deep into the portal circulation so when you unsheath it it opens up and then you pull back so it snags on your portal venous entry so

it's a feel thing and a visual at the same time for the operator okay so your sheath has to be deep in the portal circulation so that dilates put your sheath all the way down this is a run just to make it look pretty for you guys

and then you basically deploy the Viator stent via tourists and like I said has a bear portion that's captured by the plastic here and that plastic sheath basically transfers the capture of the bare

portion from plastic to your entry or access sheath okay as a ring to it and put it in has a feel to it that ring has to be right there it's very common for people starting off to deploy it inside the sheath up so it's a kind of a feel

thing to actually make sure that it's actually in there snug with it with the sheath okay then you push the stents all the way into the sheath now the bare portion is captured by the sheath you remove the plastic it's over over and

done with and then you pass pass your your stent all the way down to the portal vein and then unsheath it like a wall stents let it open pull everything back till it snags on the portal venous entry sites and then unsheathed the rest

of it which is the covered portion and that stays constrained by the cord and then you pull then you pull the cord keep key portion here is this is the ideal tips and ideal ace tips is a tips from the portal vein bifurcation to the

a patek vein IVC junction okay that's an ace tips it's usually a straight tips it's the straightest tips you'll see it runs parallel to the caiva okay rookies will be doing tips down out in the

periphery and Deliver okay they'll be fishing for small portal veins out of his small hepatic veins and at the end their tips is gonna be like a big seat like a big C loop okay it'll be a longer tips with more stance and it won't be an

aggressive decompressive tips okay but an ace tips is a more aggressive central tips straights it comes from the portal vein bifurcation to the paddock vein IVC Junction that's kind of like an ace tips

okay unsheath it and then and you and then you pull the cord to basically deploy it and this is kind of a reenactments the Styrofoam cup is the portal vein the sheath is in there now over the wire there's no wire in the in

the reenactments and then you unsheath the bear portion so it opens up okay and then you pull everything back till it catches on the portal vein okay you move the sheath all the way back and

then you pull the cord you see the cord right there you pull the cord and it basically opens up the covered portion okay and it opens up from the portal venous end so it actually capped catches it right away catches that portal venous

entry sites there's no slippage and so basically rips open tip to hub okay and that's kind of your final product and then you go in and and then you go in and balloon okay so here it is ballooning put the sheath

over the balloon sheath is deep into the portal circulation you put the tips in your unsheath to cut the the the bare portion let it flower open you pull everything back to like snags you unsheath the rest of the stunt and then

you pull the cord okay and then you dilate with 8 or 10 or whatever so this is visit with the debilitation and that's kind of your final product ideal

for it's very it at centers where CTA protocols are very good it's basically equivalent to a angiography has been shown in multiple papers to be so newer studies show that

CTA and Emory are equivalent so I don't know it depends on your institution there are a lot of places that still practice with the MRA is kind of the gold standard but CTA is just so much more available that CTA is becoming kind

of the new gold standard for for quick vascular assessment often like to use it to help us plan our intervention so if we don't know what's going on above the level of the groin CTA could be helpful to see whether or

not we could even go from right to left how calcified the vessels are or whether or not there's concomitant aneurysms things that we don't like to discover at the time of the procedure because we might not have the equipment we need to

treat it one of the strengths is that it's quick and that it's cheap but of course it uses contrast and just like you know we like to minimize the amount of contrast that we're using at knee and rogram this can use anywhere from 75 to

150 cc's of contrast or not a small amount and if you're gonna do an intervention the same or the next day that's a lot of dough that's a lot iodine in a couple days these are examples of what we can see at the time

of the procedure there's a 3d reconstruction and a BU these are kerf planer reformatted images what basically they draw a line down the image and you can lay the entire vessel out even if it's very squiggly and then this isn't

this an angiogram and that same patient you can see that they correlate exactly another example a patient with aortic calcification you can see that it can be potentially challenging this patient with diabetes to determine whether or

not these vessels in below the level of the knee are paetynn or not because I can tell you that the one that's closest to the small bone there is actually occluded it's just all calcified you can't really tell what's going on and

the one that's behind that is actually Payton so it could be difficult to tell whether it's calcium or contrast that you're seeing this is where MRA can be

so what what venous insufficiency is is really leaky valves so if you want to hit the play on that so that's all venous insufficiency that's what we

talked about it's it's leaky valves and so you can see this the valve leaflets there which are paper-thin is allowing blood to go the wrong way if you want to hit play on that one when we looked for valve

insufficiency for sure in the legs we use ultrasound and there's a bunch of different things that we look at an ultrasound you first look if you can augment blood flow so that was that first part we see if it's compressible

to make sure there's not a clot in it that's this part you can see the vein winking at you and then finally we look at valsalva or some type of way to determine if the valves are competent or incompetent and what this figure is

showing is that when a patient valsalva Zoar tenses up their abdominal muscles you see the gray line for the ultrasound crossing the access and going the opposite way all that means is it's got opposite directional flow which you

should not be able to do if your valves work so if your valves work you would not see that ultrasound picture crossing the line here it would just continue right there or would just stop and then flow would start again once you stop fel

salving so that's how we check in a leg but for pelvic venous insufficiency that's kind of hard to ultrasound the deep pelvic veins I could certainly look for varicosities with a an ultrasound of the pelvis but you can't really find the

source of an usually the source veins are the internal iliac veins or the gun at Elaine's and those are tough to ultrasound so secondary evidence of incompetence or leaky valves in those systems is varicosities

and so in the case of pelvic venous insufficiency those varicosities are in the pelvis and you see on the slide here you got varicose veins deep in the pelvis here and here and see some larger ones in that same

area on that CT scan so that'll tell us varicose veins that doesn't necessarily tell you whether the issue is with a gonadal vein or an internal iliac vein it just tells you that there are sequelae of varicosities much like in

the leg you might have varicose veins in the ankle but the problem is really higher up in the leg at this afterno femoral Junction so that gives us secondary evidence but it hasn't really told us the cause of the varicose veins

this is just a CT image that it also may show a large gonadal vein right here so you normally should not see it that big it's right there also secondary evidence that the valve is incompetent but it doesn't really test the valve itself

it's it just gives you the idea that veins enlarge and the valves gonna be leaky this is a cartoon schematic of the

my last case here you have a 54 year old patient recent case who had head and neck cancer who presents with severe bleeding from a tracheostomy alright for some bizarre reason we had two of these

in like a week all right kind of crazy so here's the CT scan you can see the asymmetry of the soft tissue this is a patient who had had a neck cancer was irradiated and hopefully what you can notice on the

right side of the screen is the the large white circles of contrast which really don't belong there they were considered to be pseudo aneurysms arising from the carotid artery all right that's evidence of a bleed he was

bleeding out of his tracheostomy site so here's a CTA I think the better image is the image on the right side of the screen the sagittal image and you can see the carotid artery coming up from the bottom and you can see that round

circle coming off of the carotid artery you guys see that so here's the angiogram all that stuff that is to the right to the you know kind of posterior to the right of the screen there it doesn't belong there that's just

contrast that's exiting the carotid artery this is a carotid blowout we'll call it okay just that word sounds bad all right so that's bad so another question right what do you want to do here

I think embolization is reasonable but probably not the thing we can do the fastest to present a patient to treat a patient is bleeding out of the tracheostomy site so in this particular case this is a great covered stent case

alright and here's what it looked like after so we can go right up and just literally a cover sent right across the origin of that pseudoaneurysm and address the patient's bleeding alright

thrombectomy is another popular way of treating patients there's a lot of different aspiration catheters the SPX catheter is actually not available currently in the US but what it basically is I can have the rectum a

device that spins in such backlot the Indigo thrombectomy system from penumbra is a yet another device that sucks out clot I think many of us have used that it's kind of like a vacuum cleaner but usually more like a dust

hand vac where it's going to suck up thrombus the angio vac is much more like a Hoover where you're going to use and put a patient on veno-venous bypass that requires a 22 French sheath and a 17 French sheath but that will take out

thrombus I personally prefer using NGO vac in the IVC in big large thrombus for that and not in the pulmonary arteries because it's very inflexible but it's very very useful in a few patient populations in

all of these devices there is no TPA that needs to be given you're just sucking out the clot and you're actually removing it from the patient's body rather than dissolving it and sending it downstream the drawbacks on all of these

devices is their larger access points the SP or X is around six French although that's not that much bigger penumbra device is 8 French and the as we mentioned the angio vac is 22 French

my talk is titled extremely obvious IR and I think as we move through these slides you guys are going to be able to pick up really quickly on why I elected for that title so this is a patient this is a 67 year old male he had an Evo repair in 2014 in 2015 he

underwent two repairs for persistent type 2 endo leak and this was done via transsexual approach in 2018 we got a CTA that demonstrated an enlarging aneurysm sac so here's just some key critical images from the CT I had the CT

and its entirety today but I had to like panic dump a lot of slides off of my powerpoint I'm always the girl at the airport that you see transferring things from one suitcase to the other like right when it's about to get onto the

airplane so what do we notice about where we see the contrast in these in these images so is it anterior is it posterior anyone its anterior so what if I told you that we see contrast in the anterior sac but this patient has an

included ima where is it coming from so we get the CTA we see any large aneurysm sac we see it an endo leak we bring them into clinic we go through the routine things the patient denies abdominal pain they deny back pain and so we go ahead

and all of our infinite wisdom and we schedule them for a trans cable approach to repair what we call a type 2 and delete now one of the most the most important key sentences from the workup is we say this is likely a type 2 in the

leak but a feeding vessel is not identified okay so our usual algorithm at UVA if we get a patient we do a CTA we bring we see any sort of endo leak if we cannot identify a feeding vessel usually what we do and you can let me

know if this is the same at your practice or if it's different we'll bring them in and we'll do some dynamic imaging from an arterial approach and we'll try to see you know is it really type 2 can we identify a feeding vessel

and oftentimes what happens in those situations is you you identify oh it is a type 2 we just see where it was from and we're gonna have to bring them back and we're gonna have to put them prone and we're gonna

have to stick the stack directly so we thought we were gonna outsmart it this time like we we were gonna just identify that it was typed to you right from the get-go do I have the play button or do you have the play button awesome all

right so this is our trans cable access so what we're doing these days to do our trans cable access and our fenestrations is we're actually using a t lab kit so we're using the transjugular liver biopsy sheath and we're putting our

65-centimetre cheap a needle through that so everything's going great so far we see our sheath in access goes smoothly I might have gone for two slides can you hit the I'm not sure yeah go ahead and hit that nope go ahead and

go one for slide and then just play that video for me yes please awesome so this happens pretty quickly can you play that video again and just keep playing it through on a loop and so we do an injection from our microcatheter from

our trans cable approach and what do you guys noticing where are you noticing the contrast tracking yeah in the red circle [Music] it is now right so everybody at UVA is is a proficient Monday Morning

Quarterback let me tell you so we see the contrast tracking down outside of the iliac limb so now we're all going okay can you go ahead all right go ahead and play this video all right so we get access into the femoral artery

just to make sure because at this point we're hoping against hope we haven't put this on the patient we haven't put this patient on the table MANET made a trans cable puncture only to identify that this patient does in fact have a type 1

B in delete but our arterial access proved that is exactly what we did the junction of the yes we did we did a trans cable puncture to identify that it was a junction leak so that's a problem right because we have

this action going on right so we have a trans cable puncture as dr. Haskell just adapt ly summarized we have a trans cable puncture we've done nothing so far but identify that this patient has the type 2 in a week so it is a micro

catheter right it's just it's just a party foul and then it was the fellow's dream because you pull out and there's nothing to hold pressure on there's nobody's dream at that point so I want to stop here and I want to just take a

moment you guys can live my psych at night so do you ever your so my normal algorithm for my patient since I come in in the morning I look at the patient's chart I review their prior imaging and I try to

do all of these things before looking at my attendings plan because one of the things that I realized is that challenges me to try to figure out what's my plan for the patient what do I think the most appropriate inventory

would be and every once in a while you see something in the plan that doesn't quite jive and you're like there's this is likely a type 2 in the league although a feeding vessel is not identified so I have two options at this

point I either walk down to the reading room and I say hey someone tell me what's going on we don't identify that type - is it worth doing a diagnostic imaging or anyway I just roll with it and this

was a day where I elected to roll with it and so I just want to take a moment and reiterate it's always important for all of us to you know you have a voice and use it and you want to bring up these

things that's sometimes we all start going through the motions where you work with someone that you trust a lot it's really easy to say like Oh someone's smarter than me caught that right so going back it's like it's like that

terrible joke what is the radiologists favorite plant the hedge mmm that's what that is it's like well it could be but it might be and ray'll right you go ahead and play this so this is just our walk of shame as

we're casually embolizing our track out of our trans cable approach and here we are back in clinic so again this is a 67 year old manual with recent angiogram that demonstrates significant type 1b endo leak and we plan for an extension

of the left aortic lab so we bring the patient back we do a standard comment from our artery approach we get into the internal iliac we identify the iliolumbar all kit all standard things we drop an amp at Sur plug to prevent

any sort of further type to end a leak into the limb that we go ahead and extend we put in the iliac limb we balloon it open we'll go ahead and play this video and our follow-up angiogram reveals a resolved type to end a week so

ultimately we did it so what are

quick I did want to mention t-carr briefly and try to get you guys closer to back on time this is a hybrid procedure this is combining the surgical procedure we talked about first and carotid stenting it takes combined

carotid exposure at the base of the clavicle or just above the clavicle and reverses blood flow just like we talked about but tastes slightly different technique or approach to doing this and then you put the stent in from a drug

carotid access here's the components of the device right up by the neck there is where the incision is made just above the clavicle and you have this sheet that's about eight French in size that only goes in about us to 2 cm or 1 and a

half cm overall into the vessel and then that sheath is sutured to the the chest wall and then it's got a side arm that goes what's labeled number six here is this flow reversal urn enroute neuroprotection kit it reverses the

blood flow and then you get a femoral sheath in the vein right in the common femoral vein and you reverse the blood flow so this is a case a picture from our institution up on the right is the patient's neck and that's the carotid

exposure and the initial sheath is in place so the sidearm of that sheath is the enroute protection system which is going up up at the top of the image there we're gonna back bleed that let that sidearm of that sheath continue to

bleed up to the very top and then connect that to the common femoral venous sheet that we have in place there's a stepwise of that and then ultimately what we see at the end of the procedure is that filter inside that

little canister can be interrogated after and you can see the debris this is in the box D here on the bottom left the debris that we captured during the flow reversal and this is a what we call a passive and then active flow reversal

system so once the system is in place the direct exposure carotid sheath in place the flow controller and AV shunt in place you see the direction of blood flow so now all that blood flow in that common carotid artery is going reverse

direction and so when you place a sheath or wire and and ultimately through that sheath up by the carotid artery there's no risk for distal embolization because everything is flowing in Reverse here's a couple

case examples ferns from our institution this is a patient who had a symptomatic critical greater than 90% stenosis has tandems to nose he's so one proximal at the origin and one a little bit more distal we you can see the little

retractors down at the base of the image there in the sheath that's essentially the extent of the sheath from the bottom of that image into the vessel only about a cm or two post angioplasty instant patient tolerated that quite well here's

another 71 year-old asymptomatic patient greater than 90% stenosis pretty calcified lesion a little more extensive than maybe with the CT shows there's the angiography and then ultimately a post stent placement using the embolic

protection device and overall the trials have shown good good safety met profile overall compared to carotid surgery so it's a minimum minimal exposure not nearly as large the risk of stroke is less because you're not mucking around

up there you're using the best of a low profile system with flow reversal albeit with a mini surgical exposure overall we've actually have an abstract or post trip this year's meeting this is just a snapshot of that you can check it out

this is our one year experience we've had comparable low complication rates overall in our experience so in summary

to have severe humor billion almost all all those that need your attention is about aghori portal veins though can be tremendously so the differentiation between hepatic artery and portal vein

bleeding is the big differentiator that will require you to do something about it most of the times if you injure the portal vein or hepatic vein these usually heal by themselves and it's counterintuitive the management of this

is actually to upsize your tube and they make sure the side holes are not adjacent to the bleeding vein it's crossing so it's counterintuitive that you upsize - for bleeding injure the vein more but

eventually those veins will thromboses off for that little branch the difficult situations of sahiba heavy hit an artery and here's one way we did a gram you can see the pacification the reason why you want to go into the peripheral duct I'll

show you always near the hilum is actually also very big blood are the blood vessels and the reason why we go peripheral the number of large vessels are much greater diminished so you always want in this patient was

transferred for an outside Hospital my PTC was performed by someone who obviously doesn't do a lot of these and access directly into the coma bar duct you can see all these filling defects all these filling defects in the combat

like those or clots and filled with someone who's actually had life-threatening significant he Mobilia and required what we did was they were just pacify the system get another peripheral access

right biliary system and embolize the track coming out and thereby removing the original axis that was placed by the outside hospital interventionists obviously the ones that aureus the most of the narco that will kill people is

the ones that hit our ease and pseudoaneurysm formation or tara Venus fistulas and I can be problematic in my only real ways their dresses trans cap the treatments a patient would have an angio we'd have to get into the pedagogy

find the feeding or it almost always though and we can predict way that bleeding artery is it's where your Y is crossing the architecture of the artery tree frequently you will not see it until you remove the tube so almost

always you would have to prep the right flank prep the groin to an angiogram with the tube in because you don't really want to be rushing at the beginning of your procedure you frequently do the angiogram not see

bleeding and then a second operator needs the described brake scrub get non sterile axes remove the blue tube repeat the angiogram and almost certainly then you'll see it but again it's very

predictable where it is but every now and then you get caught out and the bleeding side can be remote from where your actual Y or actual access transgressor you you do need to have a careful eye looking for that and so you

know when we looked at out and we do large numbers of blurry drainage the best predictor or and like I said Arturo Kimber Billy is actually related to your first tube and the size that you place and it's also

interesting like I said every now and then you're gonna see that bleeding arteries are actually not liver arteries and you can't bleed from the GDA internal memory from other procedures intercostal artery from where you put

your tube first needle through the liver through sorry through the ribs itself it's actually access site rather than your internal parenchymal your liver so it's actually important to also do sometimes it a water gram check the

intercostal artery because you'll miss it by doing a celiac or teragrams hepatic artery gram and don't understand why the patients still bleeding and here's just example of what a pseudoaneurysm does when we remove the

chief we can see the image on the right the blue tube has mean withdraw back and they you can see quite clearly there and sorry the pseudoaneurysm of the paddock right re and like any other immunization is important to go front door back door

implies across mainly because the liver architecture has a rich collateralization that will feed before and after and like I said the lake complication zone was or derived and related to tube maintenance and tubes

catching on to things in dislodgement and so these are just really you know your whoever answers the phones whether it's the physicians on call they have to manage with maintenance of these tubes and really just keeping these tubes open

as long as possible it's amazing how long some of these tubes do last in particular in benign but Lewis structures so management of these is really or expectant and the right advice and frequently just need to

get these tubes changements they're clogged sufficiently the difficult ones

you know there's three things in fish the work it's you know info on flow conduit as he talks in flow so you have to have good employee got a good great good brachial artery gonna have good

outflow you want to have a basilica course italic or hopefully both you have to carry the blood away and then you have a good conduit in this case I'll call the condor with the perforator and you want to make sure that's wide open

good caliber stenotic and you know capable of handling the flow as you can see we have two creations tonight it's here on the radial side of the ulnar side gives you a little bit of choice and that's what

the slide shows as well notice as you can see there mrs. arterial access that's a little bit high I tend to access the brachial artery lower down over the condyle so I can compress it without any problems with creating a

hematoma these patients are heparinized they do get plavix before the procedure they're getting a 2 point 5 milligrams of rapa meal they're getting nitroglycerin so they're prevail vasodilate so you wanna make sure you

can compress that artery over the bone and that view higher if you action start brachial vein high you can see those bridges between the two brachial veins if you're in the wrong one you can always cross over that bridge with the

for French device and get into the other brachial vein which may get you into a better position to make a better fistula see the warning only the brachial artery should be used for material access well you know it's not because they had a

problem with the radial artery it's because of the FDA at this point just wants them to do brachial and they'll do a trial with a number of patients showing that even though all of us when doing a radial artery access for uterine

fibroids or chemo embolization or anything else you know the FDA says well no this is different okay it's different so they're gonna give make us to make them do a trial with radial artery for dialysis fistula

creation there's never been any problem and I suspect eventually we'll be doing radial artery and radial vain for fistula creation here is the must you see and what you can see here is the the tube maybe you can make it out for the

wires going down and I should hopefully this thing in the air there's a I'm so proud of myself in my age I can actually put movies in these presentations you know I figured it out and the way you're seeing these you're seeing flow from the

brachial artery down then whoosh coming back up the radial and via basilicum cephalic vein I'm sorry you can't hear the sound because it takes that shit it's a fistula I said yeah it really is it's a fistula and here's the study that

okay pathophysiology right ventricular the right ventricle is everything when it comes to the pathophysiology of this disease I'm gonna lead you through this because I think it's interesting and important I'm gonna go to this side this

time be fair to both sides of the room so when you have a PE that increases your pulmonary vascular resistance normally the pulmonary vasculature is a very low resistance circuit but when you start putting clots in it it's restive

Gong its its resistance goes up it's kind of analogous to the left an electrical circuit what does that do to the right ventricle well it increases the after load on that right ventricle so what that does is it causes the right

ventricle to blow up like a balloon now by Laplace's law if you take a balloon and you blow it up the intramural pressure is higher in the balloon so if you can imagine that thin walled balloon if you took the pressure at each point

inside of the balloon because it still got a finite thickness the pressure is higher than if it's decompressed now the problem with that is that how does the right ventricle get blood it gets blood from the coronary arteries but if the

pressure inside the ventricle is higher than the pressure differential is less and what what what is Flo rely upon it relies upon a difference in pressure from point A to point B so if that starts to equalize your blood flow to

the right ventricle decreases okay that's why the right ventricle gets ischemic now when the right ventricle becomes ischemic it can't squeeze as hard so it gets hypokinetic when it dilates it also does

not seem to squeeze out as well because the muscle fibers aren't overlapping as well okay so both of those things lead to both so that the right ventricle is now not squeezing is hard and it's not getting blood forward to the left

ventricle so that results in LV preload reduction though LV is not seeing as much blood on top of that when the right ventricle dilates it starts impinging on the left ventricle so now the left ventricular cavity is smaller and it can

accept less blood your output is only as good as your input okay so that's where you start developing systemic hypotension because your left ventricle can't pump out as much blood what happens when your left ventricle can't

pump out as much blood you don't get as much blood into your coronary arteries you don't get as much blood into your coronary arteries you're not getting as much blood into your right ventricle this is the vicious cycle that leads to

right ventricular failure and the progressive death that you see with massive PE now if you were to draw a line like that everything above the line is sub massive PE everything below the line is massive PE okay this is a big

experiment I did we were trying to create sub massive PE we created a massive PE this used to be mostly the L the left-sided chambers and all of a sudden became the right-sided chambers to me this drove home how much the right

side can blow out and dilate that's the only point of this picture I hope I didn't cross you out okay so let's talk

so this shows you this shows you how so this typically you've accessed the portal vein now and you're in next up you basically pass the wire down this just gives you a little depiction of

what you're what you're what you're doing here this think of this is a sagittal and Deliver okay hepatic vein and portal vein it's the sagittal and what you're trying to do is

and if you're in the right hepatic vein you need to pass your needle anteriorly to hit the right portal vein okay and the right portal vein is usually anterior and interfere to the Patek vein okay so you pass your wire you're you

NEET your needle and when if you're missing the portal vein usually what's happening is that you're scooping behind it okay your posterior to it and sometimes you'll find the operators will actually increase the curve in the

needle so they can actually reach anterior anterior and actually hit the portal vein because usually usually if you if you know you're in the right place that the right hepatic vein not in the middle of petting vain and

you're missing the portal vein you need to reach anterior more so they put a little extra curve in the kelp into needle to actually catch that right portal vein okay with liver cirrhosis you get shrinking shrinkage of the liver

size the liver decreases the portal vein starts moving more anterior and more superior and closer to that paddock vein okay and it becomes more and more difficult to actually hit it so the smaller the liver the harder the liver

the smaller the space and you've got a thick mat piece of metal okay it's very difficult to hit that okay it becomes more and more challenging with with smaller levels to hit to hit the portal vein especially centrally okay this is

an access kit a new access kit by Gore it's basically the similar to the similar to the Cal Pinto needle it's a little longer with a little bit increase angulation compared to the traditional ring kits or the Cole Pinto needle but

once accessed you pass a wire okay into the portal circulation there are two ways of doing this okay there's a traditional old-school way that's my way is that to use a Benson wire okay the youngsters the Millennials are using

glide wires okay so if you're dealing with a millennial physician they're usually going for the glide okay if you're dealing with them with an older you know guy or gal they're using usually using a Benson wire okay the

advantage of the Benson wire is that has a floppy tip it actually you just push it in and hits the wall it prolapses into the main portal vein right away as you can see just prolapse and portal vein if you're using a glide where

you're catching all sorts of things you'll have small branches you don't know where you're going your V's even sometimes dissecting outside of the portal vein they're second-guessing themselves all the time but actually the

good way with a little bit of more different skillset is that you use use actual good old fashioned Benson wire actually goes in prolapses right away into the ends of the main into the main portal vein rarely would I actually use

light or switch to a glare that's usually if I'm coming in in a small in a small branch or an orchid angle where I have to use a glide right to try to get around the angle because I don't have enough room for a Benson to actually hit

the wall and prolapse is very really really tight space so tights Bates funny angles I'll switch to a glide where if it's a straight forward a Benson as very is very straight forward okay try to get the sheath as much into the portal vein

over the over the needle over the wire as possible and then you balloon your tract okay through the sheath okay some people will balloon with a six millimeter boom some people will balloon with an eight millimeter blue eye

balloon with an eight four okay at night and I make sure it's a four so that I actually use the balloon as the measurements for this four centimeters actually you I actually use the balloon to measure my to measure my Viator's

stance okay with the balloon there there'll be two waists there's a portal venous entry site and the Ematic venous entry site so you actually gauge that and take a picture of it so you actually see how long your tract is where's your

hepatic venous access who has your portal venous axis actually gives you a lot of anatomy here been engaging in actually putting where your Viator stent is okay usually high pressure balloon I use it and ate some people will use a

six or even a seven millimeter balloon

kind of the embolic protection because I think with carotid artery stenting the stents there's a lot of different types they're all self expanding for the most

part and there's not a lot to talk about there but there is with regards to embolic protection and there so there's distal and violent protection where you have this where that blue little sheath in the common carotid artery you got a

wire through the ica stenosis and a little basket or filter distally before you put the stent in early on they used to think oh maybe we'll do distal balloon occlusion put a balloon up distally do your intervention aspirate

whatever collects behind the balloon and then take the balloon down not so ideal because you never really asked for it a hundred percent of the debris and then whatever whenever you deflate the balloon it goes back it goes up to the

brain you still have some embolic phenomenon in the cerebral vascular churn and then there's this newer concept of proximal protection where you use either flow reversal reverse the blood flow in the cerebral circulation

or you actually cause a stagnant column of blood in the ica so you can't get you don't get anything that embolize is up distally but you have this stagnant column the debris collects there you aspirate that actively before you take

down the balloons that are in position in the X carotids and common carotid artery and then you take everything out so let's walk through each of these if you really wanted to pick out the perfect embolic

protection device it's got to be relatively easy to use it's got to be stable in position so it's not moving up and down and causing injury to the vessel but even while it's in place cerebral perfusion is maintained so that

balloon the distal balloon not a great idea because you're cutting off all the blood flow to the brain you might stop something from embolizing up distally but in the process of doing that you may patient may not tolerate that you want

complete protection during all aspects of the procedure so when we place a filter as you'll see just crossing the lesion with the initial filter can cause a distal embolus so that's a problem you want to be able to use your guide wire

choice as many of you know when we go through peripheral vasculature there's your go-to wires but it doesn't always work every time with that one go-to wire so you want to be able to pick the wire that you want to use or

change it up if needed for different lesions so if you get to use your wire of choice then then that's gonna be a better system than something that's man deter and then if you have a hard time using that wire to get across the lesion

you have a problem overall and then ultimately where do you land that protection device and a few diagrams here to help illustrate this generally speaking these distal embolic protection these filters that go beyond

the lesion have been used for quite a while and are relatively safe you can see them pretty easily and geographically they have little markers on them that signify if they're open or closed and we look for that overall and

blood flows through them it's just a little sieve a little basket that collects really tiny particles micrometers in size but allows blood flow to pass through it so you're not actually causing any cessation of blood

flow to the brain but you are protecting yourself from that embolic debris and it's generally well tolerated overall we had really good results in fact when not using this device there's a lot of strokes that were occurring in use of

this device dramatic reduction so a significant improvement in this procedural area by utilization of embolic protection however distal embolic protection or filter devices are not a perfect APD as you as you may know

those of you have been involved in carotid stenting there is no cerebral protection when you cross the lesion if you have a curlicue internal carotid artery this filter doesn't sit right and and ultimately may not cause

good protection or actually capture everything that breaks off the plaque and it can be difficult to deliver in those really tortuous internal carotid arteries so ultimately you can cross the lesion but you may not get this filter

up if you don't get the filter up you can't put the stent then ultimately you're out of luck so you gotta have a different option filters may not provide complete cerebral protection if they're not fully opposed and again it does

allow passage of really tiny particles right so your blood cells have to be able to pass but even though it's less than about a hundred microns may be significant enough to cause a significant stroke if it goes to the

right basket of territory so it's not perfect protection and then if you have so much debris you can actually overload the filter fill it up in tile and entirely and then you have a point where when you capture the filter there's some

residual debris that's never fully captured either so these are concerns and then ultimately with that filter in place you can cause a vessel dissection when you try to remove it or if it's bouncing up and down without good

stability you can cause spasm to the vessel as well and so these are the things that we look for frequently because we want to make sure that ultimately if we just sent the lesion but we don't believe the vessel distal

to it intact and we're going to have a problem so here's some kind of illustrated diagrams for this here's a sheath in the common carotid artery you see your plaque lesion in the internal carotid artery and you're trying to

cross this with that filter device that's what's the picture on the right but as you're crossing that lesion you're you're liberating a little plaque or debris which you see here and during that period of time until the filters in

place you're not protected so all that debris is going up to the brain so there's that first part of the procedure where you're not protected that's one of the pitfalls or concerns particularly with very stenotic lesions or friable

lesions like this where you're not protected until that filters in place that first step you never are protected in placement of a filter here's an example where you have a torturous internal carotid artery so you see this

real kink these are kinds of carotid internal carotid arteries that we can see and if you place that filter in that bend that you can see right at the bend there the bottom part the undersurface of the carotid doesn't have good wall

my position of the filter so debris can can slip past the filter on the under under surface of this which is a real phenomenon and you can see that you can say well what if we oversize the filter if you oversize the filter then it then

it just oval eyes Azure or it crimps and in folds on itself so you really have to size this to the specific vessel that you plan to target it in but just the the physics of this it's it's a tube think about a balloon a balloon doesn't

conform to this it tries to straighten everything out this isn't going to straighten the vessel out so it doesn't fully conform on the full end of the filter and you have incomplete a position and therefore

incomplete filtration so this is another failure mode I mentioned before what if it gets overloaded so here's a diagram where you have all this debris coming up it's filling up the really tiny tiny particles go past it because this little

micro sieve allows really small particles to go distal but approximately it's overloaded so now you get all this debris in there you place your stent you take your retrieval filter or catheter to take this filter out and all that

stuff that's sitting between the overloaded filter and your stent then gets liberated and goes up to the brain so you got to worry about that as well I mentioned this scenario that it builds up so much so that you can't get all the

debris out and ultimately you lose some and then when the filter is full and debris particles that are suspended near the stent or if you put that filter too close to the edge of the stent you run into problems where it may catch the

stent overall and you have all of this debris and it looks small and you don't really see it and geographically obviously but ultimately is when you do a stroke assessment and it's not always devastating strokes but mild symptoms

where he had a stroke neurologist and the crest trial or most of the more recent clinical trials we actually evaluate a patient and notice that they had small maybe sub sub clinical or mild strokes that were noted they weren't

perhaps devastating strokes but they had things that caused some degree of disability so not insignificant here's a case example of a carotid stent that was done this is a case out of Arizona proximal carotid

stenosis stent placed but then distal thrombus that developed in this case and had post rhombus removal after the epd was removed so there's thrombus overloaded the the filter you can see the filter at the very top of the center

image you can see the sort of the shadow of the embolic protection device there distally aspirated that took the filter out and then ultimately removed but you can imagine that amount of thrombus up in the brain would have been a

devastating stroke and this is what the filter looks like in real life so this is what the debris may look like so it's not this is not overloaded but that's significant debris and you can see the little film or sieve that's on the

distal part of this basket and that's what captures the debris any of that in the brain is gonna leave this patient with a residual stroke despite a successful stenting procedure so this is what we're trying to avoid so in spite

fish through creation one is screening with ultrasound you really have to be able to look at these patients and I'm you know when I talk to our physicians they say we have a great

ultrasonographer named Megan and so I say the first thing you need to get yourself a meg everybody needs a meg and May because meg knows what to look for what to look for what's a measure where to get flows and she submits that to us

now other than the anatomic part you know at our place you know we're very particular about and selected we try to be thoughtful about you know who gets what access and that's what the new dokey guidelines are gonna say you know

the best access for the right person at the right time so for example you know if you come in with a catheter and we can you know we'd won from a 275 mile radius people come to us you know for access because you know they they've

they've been given up the cases have been given up by local people and you've got a catheter my first thing I say is how long is the catheter been in and they said well catheters been in for eight months you're not getting a

percutaneous fistula if your catheters been in for eight months I'm gonna call one of the surgeons think I am with part of my group you know we have no competition there's no turf wars we're all friends we like each other we like

working together it's a great place I say Karl Karl Willy who was recently from Tampa - Karl illustration - sick catheter for six months is okay I'm going to create they put a flick seen graphed in the

upper arm probably with a suture listen a stenosis and pull the catheter tomorrow that patient's going to be dilating with a graph where the dialyzer will be graphed you know because after six months you don't want a cath over

there when you start going down that road of infection endocarditis vascular damage all that kind of stuff if you come in and you started with a catheter because somebody wasn't looking ahead far enough and you got a catheter and

they come here for accents placement catheters been in for you know two weeks three weeks one month there's a good chance you're gonna be seriously mapped for a percutaneous special because now we have time we've got we arbitrarily

have considered the six months window that we can probably work with the catheter there's nothing to prove that there's nothing in the literature in fact I had a discussion last night with someone from one of the companies who

wants to do some type of a trial to look and see when can these catheters really do go bad and so you're gonna get worked up for a percutaneous fish and clearly if you come with stage four you know know you're not on dialysis they don't

know when you're gonna go into Alice's but they you know you're going in that direction you're gonna get seriously worked up for a percutaneous fistula one patients are still psychologically trying to wrap their head around the

fact that they're going to be on dialysis it's much easier to tell them you come in you're gonna get a puncture two punctures you're gonna go home with a band-aid and we'll take care of this we'll get this up and running over the

next six weeks eight weeks ten weeks and when you need it it's gonna be ready to go and you won't need a catheter then we tell them you don't not gonna need this catheter sticking out of your neck they're very happy and they usually

agree to do the percutaneous miss doula also since you don't get those big ropey fish - as I talked about when these patients are in dialysis you know how many people ever been to a dialysis unit that's how I tell physicians you want to

you know you want to look build a practice like this go to the dialysis unit talk to the charge charge nurse do rounds once a month or once every couple of weeks with a nephrologist and that's how you build the practice but these

patients they're in the chairs they're talking to each other right and they say hey how come you don't look like a cling-on you know with this big veins you know you where's your fistula and then they want that you know they it's

really cosmetically very pleasing these patients are so deserving and they have such horrible I was being tied to that machine three days a week so any little bit of hope we can give them I think is is worth it alright in summary it's not

a one-step procedure and then we try to make patients understand this you may need a secondary angioplasty or embolization in the future hopefully not usually about 30% of the time has great value in the stage Forge so we

talked about more acceptable to patients coming to grips with their future may make a significant difference with the catheter people starting with a catheter and I think whoever is going to do this really has to have a commitment to

access this is not you're not doing a procedure you're actually developing a treatment plan or a treatment system and so then these patients are yours once you do this you're following them you're keeping them working you know how do you

sell this to the surgeon you sell to the surgeons this way because if you start this program you know people are gonna start coming to you they're gonna come out of the woodwork it's like if we start doing AVM stuff that they start to

come from nowhere and you're gonna draw so many patients the in that surgeons are going to have more work and there's no question because everybody's not going to be a candidate and so I mean when bobwhite if hopkins years ago

started doing angioplasty the business of surgery increased by 15% so you're gonna see you're gonna make the pie bigger that's how you sell it you're making the pie bigger and everybody can feast on the pie leverages our expertise

as interventional radiologists and image guided procedure list to make these procedures work I think we're in a great position a really great position if you listen to Alan Matsumoto the other day at the toddler lecture we're in a great

position for the new age of medicine and it may be the ideal procedure for multidisciplinary collaboration I can't do basilic vein transpositions or elevations or brachial vein elevations so it's good to have a surgeon that

you're friendly with that will make these things happen they're all part of the group that's necessary and I think that could be it yes ah I'm from New York and I'm a shameless marketer and so I would encourage you if you're

interested or some of your attendings or interests come to the vasa practicum it's gonna be done in Houston with dr. Eric Pete and chief of vascular surgery is running the meeting you get to put your hands on all these devices and put

and stuff you can all do it I mean it doesn't have to be doctors you have big models and they'll have live cases and it's a great opportunity in 2020 since I'm the president-elect of Vassar we're gonna run the meeting in

Charleston that's gonna be held out a hell of a lot of fun so we encourage you to come to Charleston in 2020 thank you very much not questions yeah

know we're running a bit short on time so I want to briefly just touch about

some techniques with comb beam CT which are very helpful to us there are a lot of reasons why you should use comb beam CT it gives us the the most extensive anatomic understanding of vascular territories and the implications for

that with oncology are extremely valuable because of things like margin like we discussed here's an example of a patient who had a high AF P and their bloodstream which tells us that they have a cancer in her liver we can't see

it on the CT there but if you do a cone beam CT it stands up quite nicely why because you're giving levels of contrast that if you were to give them through a peripheral IV it would be toxic to the patient but when you're infusing into a

segment the body tolerates at the problem so patient preparation anxa lysis is key you have them exhale above three seconds prior to that there's a lot of change to how we're doing this people who are introducing radial access

power injection anywhere from about 50 to even sometimes thirty to a hundred percent contrast depends on what phase you're imaging we have a Animoto power injector that allows us to slide what contrast concentration we like a lot of

times people just rely on 30% and do their whole the case with that some people do a hundred percent image quality this is what it looks like when someone's breathing this is very difficult to tell if there's complete

lesion enhancement so if you do your comb beam CT know it looks like this this is trying to coach the patient and try to get them to hold still and then this is the patient after coaching which looks like this so you can tell that you

have a missing portion of the lesion and you have to treat into another segment what about when you're doing an angio and you do a cone beam CT NIT looks like this this is what insufficient counts looks like on comb beam so when you see

these sort of Shell station lines that are going all over the screen you have to raise dose usually in larger patients but this is you know you either slow down the acquisition speed of your comb beam or

you raise dose this is what it looks like after we gave it a higher dose protocol it really changes everything those lines are still there but they're much smaller how do you know if you have enhancement or a narrow artifact you can

repeat with non-contrast CT and give the patient glucagon and you can find the small very these small arteries that pick off the left that commonly profuse the stomach the right gastric artery you can use your comb beam CT to find

non-target evaluation even when your angio doesn't suggest it so this is a patient they have recurrent HCC we didn't angio from here those arteries down there where those coils were looked funny even though the patient was

quote-unquote coiled off we did a comb beam CT and that little squiggly C shape structures that duodenum that's contrast going in it this would be probably a lethal event for the patient or certainly would require surgery if you

treated that much with y9t reposition the catheter deeper towards the lesion and you can repeat your comb beam CT and see that you don't have an hands minh sometimes you have these little accessory left gastric artery this is

where we really need your help you know a lot of times everyone's focused and I think the more eyes the better for these kind of things but we're looking for these little tiny vessels that sometimes hop out of the liver and back into the

stomach or up into the esophagus there's a very very small right gastric artery in this picture here this patient post hepatectomy that rides along the inferior surface of the liver it's a little curly cube so and this is a small

esophageal branch so when you do comb beam TT this is what the stomach looks like when it enhances and this is what the esophagus looks like when it enhances you can do non contrast comb beam CTS to confirm ablation so you have

a lesion this is the comb beam CT for enhancement you treat with your embolic and this is a post to determine that you've had completely shin coverage and you can see how that correlates a response so the last thing we're going

people were thinking about the covered

portion actually actually would be occlusive in that paddock veins a lot of people are concerned about that this could be kind of like a but carry you're gonna actually occlude flow in the paddy vein caused thromboses that didn't pan

out at least clinically okay it didn't pan out and that's another advantage of actually accessing very close to the paddock vein IVC junction that's where the biggest vein is so you don't get a lot of occlusive problems okay but

usually clinically it does not pan out so the bigger the hepatic vein the more likely you have a lot of room around your your graft you won't be occlusive to the paddock vein that's more important for for transplants than other

than others I told you it's rare this is actually a very rare case of such that where you actually have a segmental segmental kind of but carry after a tips okay and you know this is actually from a form of venous outflow from the ematic

vein this is a perfusion defect typical it's a wedge right typical perfusion defect in the liver that's how you death so you know this is vascular this is a perfusion problem but you've got hepatic artery readout artery the red arrows

running into the segments and you have portal vein running into the segments so what's the problem it's actually a paddock vein occlusion okay by the stents subclinical no no clinical complaints you let it be

in the patients usually recover okay treat the patients and not the images okay on the other side if you put their tips too deep sometimes you actually get thromboses of the portal vein branch

again you get a call from hepatology you've got portal vein thrombosis is the patient doing okay yes treat the patient and not the images they usually resolve this it's not not a big problem another technical problem

I'm gonna focus mostly on technical for you guys this is a but key area okay and the but carry especially in the acute stage the liver is not like a cirrhotic liver is big liver is actually engorged okay so it's very large usually

your needle is too short to even reach the portal vein okay that's a big problem okay because your access needle is too short for a very large engorged the portal vein so this is as deep as it

goes do I have a see that that do you see that needle tip that's as deep as the needle tip goes okay the portal vein is a good distance away okay luckily this is a co2 porta gram luckily I'm actually in a small branch right

there I just hit it on you know and on this is not the there's not a needle tract this is just luckily hitting it a little branch and on so I'm actually accessing the portal vein and I can do a co2 porta gram here okay

typical inexperienced person would say you know this looks good I'm lucky I'm in a branch but it's a nice smooth curve I'll just pass a wire down and I'll balloon it and I'll put a stent in it's a nice curve and you know so it's my

lucky day I don't need to extend my needle or get a bigger longer needle to reach the portal vein here's the problem with this and this is exactly what this is exactly what this is they pass a wire and it looks beautiful just put a stent

and go home okay here's the problem this is actually the small branch access sites this is actually where you really need to access world vane but your needle is not long enough okay

what we found out is that if you are in a small in a small portal vein no matter how much you balloon it it will come down again and it will be narrow so believe it or not if you go sideways in a portal vein and rip it open with a

balloon it will stay open but if you go down of small portal vein and balloon it open it will always contract down okay so you cannot do a tips simply by ballooning and putting a stent in in this case okay what we do is we actually

denude the vein itself we actually rip it off okay and make it a raw parenchyma and we do that with a Tortola device we literally rip off the paddock the paddock portal sorry the portal vein endothelium and media and adventitia rip

it off make it completely raw as if it's an access as if it's a liver brain coma which is which it is now and then we then we balloon dilates okay rip it off denude it angioplasty it's okay and then put the stent and see that aggression

despite all that aggression of ripping it off it still has an hour kind of an hourglass shape to the to the tips okay that little constraint there that's the hepatic venous access sites this is the parenchymal tract to see nice and open

with a balloon but the but the actual vein that we've been through despite our aggression in actually ripping it off it's still narrowed down but this is as good as it gets okay

who came in with just over she had a four month with delayed heal wound she finally presented at us after the wound

healed because she had rest pain that wasn't recognized they thought the pain was due to the the wound the wound healed and they realized oh she still has pain well that's because she has crippled limb ischemia and so she was

she was brought in for that just you know she has bilateral disease I'm just gonna concentrate on talking about the right leg for for today's discussion but she does have inflow disease in these types of patients I do get

cross-sectional imaging so I can determine just how extensive the iliac diseases or if it involves the aorta to then determine what it what to make sort of jumping into it so the right leg again she has about a 10-7

occlusion of the bright SFA this occlusion here's the femur for reference the knee is actually down way down here so this is actually just above the a doctor again tried to use in this case I did do wire work I got past a good

portion of it here's my wire right here and here's the O pacified lumen so what you can see is the wires actually adjacent to the lumen so at this point I'm re said suspecting that I'm sub intimal I confirm that by removing the

wire do little puff there's blushing that blush is up intimal so I know I'm sub intimal so at this point what were the things you can do obviously the first things you do try to pull that back try to find a different space a

different location to wreak analyze when that's not successful then you start thinking about southern super recanalization multiple devices for that there's the outback device which is a little hook that you can try to spear

yourself into the main lumen and pass a wire there's also device from Medtronic about the anterior device what this is it's a balloon that you inflate to sort of stick yourself into that wall it has two ports that are on the side one

points one direction one points the other direction it allows you to find that open lumen and we use a re-entry angled wire to get back in so in this case just as a cartoon here's the the anterior device place downward this is

would be the balloon inflated you would basically jab into the port into the into the main lumen so that's sort of basically what I did here again here's the agile device each of the ports you can see as a little divot once you put

it sideways you can determine which we are going to stick there's my wire right into the lumen and there it is down further into the rest of the the vessel subsequent to that pre-dive it with a three and then overlapping

since were used finally here is her post i did treat both legs but you can see just the dramatic difference going from the monophasic waveforms to tri-phasic waveforms restoration table api's for her I couldn't help but throw this in

patient who experienced the heart attack who had right little quadrant pain after a cardiac catheterization all you like oh so here's the cat scan and what you should appreciate there is in the front of that first image which is the axial

image all right you can see the hematoma that's brewing kind of in the front you notice how all these pictures kind of look the same that's the good part about giving a lecture on bleeding and trauma because they all kind of look the same

so that's the hematoma on the front part of the pelvis and on the on the right image which is more of a coronal like looking at the patient image you can see it right near the right groin you can see that hematoma all right so our next

step was to do an angiogram and this is what the angiogram looks like who wants to volunteer what do they say all right I saw someone raise his hand over here some walk over here what do you think yeah well yes so it is a retro hematoma

would you say describe the angiogram for everybody right where it's at the external iliac down the common femoral looks like there's contrast going up to the left and down to the right probably close to where they accessed yeah

probably but so yeah probably probably too high but the other thing is that's probably a pseudoaneurysm that probably is the evidence that there was a bleed there we're not seeing Frank extrapolation of contrast in a literally

contrast pouring out but we are seeing the effects of an injury to the artery and the constraining of the the remaining normal tissue to hold on to that bleed so the question is what do we want to do no that was very good because

I fooled you it's not always embolization so sorry I lied so in today's world a lot of times when we see this type of pathology we have again relatively new technology available to us again we

could go into that pseudoaneurysm and embolize it and that would be a legitimate treatment but my friend here is right you know this is a great case for a covered stent so we could go in and put a stent right across that area

of injury and stent it so these days looking at coverage stands as an option for patients with arterial injury is a very legitimate option you just have to be able to deliver it has to be the right artery you have to be able to get

the stent where it needs to go we all work with vascular surgeons who are great and they can put these stents and iliacs and aortas but they can't make those turns into livers and kidneys and spleens it's got to be the right artery

this is this is the right artery okay we saw this patient and we said well we could kind of get a micro catheter into that area of injury and embolize it or we could just put a cover sent across it and all go home to have dinner with our

kids so that was option B is what we chose here so this is a great cover stent case okay here's another patient

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