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Aortofemoral, Common Femoral, Iliac Occlusion | Thrombectomy, Thrombolysis | 70 | Male
Aortofemoral, Common Femoral, Iliac Occlusion | Thrombectomy, Thrombolysis | 70 | Male
2016anastomosisanastomoticangiogramBoston ScientificdistaldistallyduplexiliaclysedocclusionprettyprofundaproximalreconstitutionSIR
Education Strategies to Reduce Human Errors | Looking for risk in all the Right Places: The Anatomy of Errors in Healthcare
Education Strategies to Reduce Human Errors | Looking for risk in all the Right Places: The Anatomy of Errors in Healthcare
activeaneurysmangiographybostcerebralchapterchecklistclotconcurrentcontraindicationcontraindicationsdistallyembolizedguidelinehemorrhageheparinisismilligramNonepatientphysiciansstandardstentstentingstentsstrategiestemplatetherapeuticthrombolysistpa
PAD Distribution | CLI: Cause and Diagnosis
PAD Distribution | CLI: Cause and Diagnosis
anatomicangiogramaortaarteriesarterycalcificationchapterdiabetesdiffuselydiseasefemoraliliacinfrainvolveskneepatientpatientsperinealpoplitealpopliteal arteryposteriorproximalradiologistsuperficialtibialulcer
Treatment Options- Carotid Endarterectomy (CEA) | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- Carotid Endarterectomy (CEA) | Carotid Interventions: CAE, CAS, & TCAR
anesthesiaanestheticarterycarotidcarotid arterychapterclotcomparingdistallyexternalexternal carotidflowincisioninternalinternal carotidissuelongitudinalloopsmedicalpatientpatientsplaqueproximalstenosisstenoticstentstentingstrokesurgerytherapyultimatelyvascularvesselwound
Non-Invasive Ventilation | Respiratory Compromise: Use of Capnography During Procedural Sedation
Non-Invasive Ventilation | Respiratory Compromise: Use of Capnography During Procedural Sedation
accurateairwaychaptercircuitcolorconsistentcpapdatadevicesdistaldistallyleaklevelliterlitersmaskmonitoringnasalNoneoraloxygenationpatientpatientsportprettysamplingstentsupplementalvaluesventilationventilator
Ideal Stent Placement | TIPS & DIPS: State of the Art
Ideal Stent Placement | TIPS & DIPS: State of the Art
anastomosiscentimeterchaptercoveredcurveDialysisflowgraftgraftshemodynamichepatichepatic veinhyperplasiaintimalnarrowingniceoccludesocclusionportalshuntshuntssmoothstentstentsstraighttipsveinveinsvenousvibe
Mechanical Thrombectomy | Management of Patients with Acute & Chronic PE
Mechanical Thrombectomy | Management of Patients with Acute & Chronic PE
amplatzcatheterchapterclotcombidevicehelpsInari DeviceInari MedicallossNonepatientsprovestudiessuctionthrombectomythrombolytictpa
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
Balloon Pulmonary Angioplasty | Management of Patients with Acute & Chronic PE
Balloon Pulmonary Angioplasty | Management of Patients with Acute & Chronic PE
angiogramangioplastyarteryballoonballooningbandschaptercomplicationscontrastflowHorizonimageimagesluminalNoneocclusionocclusionspatientsproximallypulmonaryradiationrecanstenosisthrombustreatedultrasoundwebs
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
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
Diagnostic Criteria for CTEPH | Management of Patients with Acute & Chronic PE
Diagnostic Criteria for CTEPH | Management of Patients with Acute & Chronic PE
angiogramangiographyarterialarteriesarterycapillarycatheterchapterclassificationcurativediseasedistalflushlobesmanagementmedicationNonepatientpatientspressureproximalpulmonarysegmentalsheathstenosissurgeonsurgicalthrombustreatedtypevesselswebswedge
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
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
CT Imaging- Acute PE | Management of Patients with Acute & Chronic PE
CT Imaging- Acute PE | Management of Patients with Acute & Chronic PE
acuteangiogramappearancearrowarteriescenteredchapterclassiccontrastcoronalimaginginfarctluminalNonepatientperfusionpulmonarysagittalscansegmentalsurroundingtechnologistthrombolysisthrombusvesselview
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
arterycatheterizecausingchapterclassiccliniccommoncommon iliaccompressioncongestionendovascularevidenceextremitygonadalhugeiliaciliac veinimagingincompetenceincompetentMay Thurner Syndromeobstructionoccludedpelvicpressuresecondarystentsymptomstreatmentsvalvularvaricositiesvaricosityveinveinsvenavenous
Case 3b: Splenic Laceration | Emoblization: Bleeding and Trauma
Case 3b: Splenic Laceration | Emoblization: Bleeding and Trauma
angiogramarteriesarterychaptercoilsdelayedembolizationgastrichealhemodynamicallyinjurylacerationNonepictureproximalreconstitutionrupturespleensplenicSplenic Lacerationvessels
Carotid Artery Stenting- Case | Carotid Interventions: CAE, CAS, & TCAR
Carotid Artery Stenting- Case | Carotid Interventions: CAE, CAS, & TCAR
angioplastyarteryballoonballoonsbut want left carotid artery lesion stented firstcarotidcarotid arterychaptercommonCoronary bypass graftdistalECA balloonendarterectomyexternalexternal carotidimageinflatelesionosisproximalproximallystentstentingsurgicallyultimately
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
Treatment Case 2 | Pelvic Congestion Syndrome
Treatment Case 2 | Pelvic Congestion Syndrome
chapterembolizationgonadaliliacinternalocclusionvaricositiesveinveinsvenavenous
Therapies for Acute PE | Management of Patients with Acute & Chronic PE
Therapies for Acute PE | Management of Patients with Acute & Chronic PE
anticoagulantanticoagulationcatheterchapterclotcoumadindefensesdirectedheparininpatientintermediatelovenoxNonepatientpatientsplasminogenprocessriskrotationalstreptokinasesystemicsystemicallythrombectomythrombolysisthrombustpa
Massive PE | Pulmonary Emoblism Interactive Lecture
Massive PE | Pulmonary Emoblism Interactive Lecture
adenosineangiobloodbradycardiacatheterchaptercontraindicateddevicedirectedhypotensioninpatientinterventionalistsmassivematsumotopatientsPenumbrasurgicalsystemictherapythrombolysisthrombolyticthrombolyticsventricle
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
angiographyangioplastyarterybleedbloodcalcifiedcarotidchapterclaviclecommondebrisdevicedistalembolicembolizationexposurefemoralflowimageincisioninstitutionlabeledpatientprocedureprofileproximalreversalreversesheathstenosisstentstentingstepwisesurgicalsuturedsystemultimatelyveinvenousvessel
MR Angiography | Determining the Endpoints of CLI Interventions
MR Angiography | Determining the Endpoints of CLI Interventions
angiogramanteriorartifactcalcifiedchapterclaudicationdeterminehemoglobiniliacimageinterventionmraMRIocclusionpatientsrecanalizationreperfusiontibialtissuevessels
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
Q&A Pulmonary Embolism | Management of Patients with Acute & Chronic PE
Q&A Pulmonary Embolism | Management of Patients with Acute & Chronic PE
acuteangiogramassistedcatheterchapterchroniccontrastdiagnosticechocardiogramembolismisisNonepressurepulmonarythrombolysistreatmentultrasound
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
activeaneurysmangiogramanteriorarterycatheterchaptercoilcontrastcoronalctasembolizationembolizeembolizedflowgastroduodenalhematomaimageimagingmesentericmicrocatheterNonepathologypatientperitonealPeritoneal hematomapseudoaneurysmvesselvesselsvisceral
Case 3 - Right iliac occlusion | Subintimal Recanalization | Complex Above Knee Cases with Re-entry Devices and Techniques
Case 3 - Right iliac occlusion | Subintimal Recanalization | Complex Above Knee Cases with Re-entry Devices and Techniques
AngioDymanicscatheterchapterCordiscritical limb ischemiadeviceenosfootguysiliacocclusionOUTBACK® ELITE Re-Entry Catheterproximalre-entry deviceSOS Omni Selective Catheterstentvessel
Case- Brain Infarction | Brain Infarct After Gastroesophageal Variceal Embolization
Case- Brain Infarction | Brain Infarct After Gastroesophageal Variceal Embolization
anastomosisangiographyaphasiaapproacharrowarteryartifactbrainbronchialcalcificationcatheterschannelschapterchronicChronic portal vein thrombosuscollateralcyanoacrylatedrainembolismembolizationendoscopicendoscopistendoscopygastricGastroesophageal varixglueheadachehematemesisinjectionmicromicrocathetermulti focal brain infarctionmultipleoccludedPatentpatientpercutaneousPercutaneous variceal embolizationperformedPortopulmonary venous anastomosisprocedureproximalsplenicsplenomegalysplenorenalsubtractionsystemicthrombosistipstransformationtransitultrasonographyvaricesveinvenous
Post-intervention Non-invasive Tests | Determining the Endpoints of CLI Interventions
Post-intervention Non-invasive Tests | Determining the Endpoints of CLI Interventions
abnormalangiogrambasicallybloodbrachialchaptercompressiblecuffsdigitsdiseaseduplexflowfoothealhealinghelpfulincreaseindiceslevellimbmultiplenormalpatientsperfusionpredictivepressurepressurespulserestoringsegmentalsignalskintibialtissueulcervascularvesselvesselsvolumewound
The Procedure - Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
The Procedure - Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
anastomosisarteryAvenu MedicalballoonbrachialcephalicchaptercreationdeviceEllipsysFistulaflowflowinglinesneedleperforatingperforatorpiccproximalpuncturepuncturedradialsurgicalultrasoundvein
Transcript

Okay next case 70 year old male history of bilateral fem distal

bypasses, has an occlusion on the left side, and this guy is severely ischemic. So he's got like motor deficit, and some level of paralysis. He's pretty far gone.

Sensorimotor deficit, let's call it 2C. But anyway somewhere around there, right. So the question here is do you go straight to surgery? Which I think is a legitimate option. Unfortunately, in my experience surgeons don't like that option and they want everything lysed

regardless. So here is the angiogram and he's not only thrombosis fem distal bypass, but also the common femoral and the iliac above that right so that explains why. And I think we actually knew this going into it cause we get duplex ultrasound on all these patients.

We usually don't get CT or MR but we'll have usually have enough time to get at least a duplex. We have a pretty good idea what's going on already. Cause duplex is pretty good for looking for acute occlusions. And there is minimal reconstitution of some branches down here. So how would you approach this?

Obviously mechanical right >> Yeah I mean for [INAUDIBLE] >> You got to get something open right? >> Exactly. >> Exactly. So that's what we did. And that's an A-Jet, I guess.

We checked that. I guess we took this into the bypass and into the profunda and he got some flow into those branches. Some residual clot there so we stuck a catheter and lysed it. Again just regular Multi Sidehold Infusion. The most common I use I think is the 50 centimeter. [BLANK_AUDIO]

Brought him back and everything looks pretty good. He has a proximal anastomotic stricture. We ended up dilating there and got a nice result and distally at the PT, that actually looks really nice. So there we go and I guess my question on him is, is that the only, is that small lesion at the proximal anastomosis or the inciting event? Its hard to imagine but we couldn't

find anything else. Any questions?

strategies so some things that we have

in place right now our peer review Grand Rounds CPOE this is one of my one of my favorite process improvements is is making the right thing the easiest thing and you do that through standardization of processes so that's standard work so

that's your order sets that's the things pop-ups although you don't want to get into pop-up fatigue but pop-ups help our providers for little gentle reminders to guide them to what's right for the patient and to cover everything that we

need we need to cover to ensure the safety of our patient so recently in the fall of last year we had a TPA administration err that occurred it involved a 69 year old patient who two weeks prior had had some stenting in her

right SFA she presented to our clinic when our clinics with some heaviness in her leg and some pain and when she was looked at from an ultrasound standpoint it was determined that her stents were from Bost so she was immediately taken

to the cath lab and it was after angiography did indeed show that there was clot inside these stents they did start catheter directed thrombolysis in the cath lab they also did started concurrent heparin often oftentimes done

with CDT what's usual for our institution is that we have templates that pull in the active problem list for a patient in this case the active problem list or a templated HMP was not used had they

used the template at agent p they would have found that the second active problem on this patients list was a cerebral aneurysm so some physicians will tell you some ir docs will tell you that's an absolute

contra contraindication for TPA however the SI r actually lists it as a relative contraindication so usually we're used to when you when you start a final Isis case you know you're gonna be coming in every 24 hours to check in

that patient in this case we started the the CDT on a Thursday the intent was to bring her back on Monday the heparin many ir nurses will know that we will run it at a low rate usually 500 units an hour and we keep the patient sub-sub

therapeutic on their PTT although current literature will show you that concurrent heparin can also be nurse managed keeping the patient therapeutic in their PTT which is what was done in this case so what ended up the the

course progression of this patient was that so remember we started on Thursday on Saturday she regained her distal pulses in her right leg no imaging Sunday she lost her DP pulse it was thought that it was part of a piece of

that clot that was in the the stent had embolized distally so they made the decision with the performing physicians they consulted him to increase the TPA that was at one milligram an hour to 2 milligrams by Sunday afternoon the

patient had an altered mental status she went to the CT scan which showed a large cerebral hemorrhage they ain't we intubated to protect her airway and by Monday we were compassionately excavating her because

she me became bred brain-dead so in the law there's something that's called the but for argument so the argument can be made that this patient would not have died but for the TPA that we gave her in a condition that she should not have had

TPA for namely that aneurysm so this shows how standard work can be very important in our care of our patients and how standard work drives us down the right way making the easiest thing the safest thing so since that time

we've had a process improvement group that we've established an order set specifically for use and thrombolysis from a peripheral standpoint and then also put together a guideline that was not in place so it's some of that Swiss

cheese that just kind of we didn't have a care set we didn't have a guideline you know we didn't use our template so all those holes lined up and we ended up with a very serious patient safety event so global human air reduction strategies

oops sorry let's go back these are listed in a weaker two stronger and some of what we're using in that case is some checklists so we developed a checklist that needs to be done to cover the

absolute contraindications as well as the relative and it's embedded in the Ulta place order that the physician has to review that checklist for those contraindications and also there to receive a phone call from pharmacy

just to double-check and make sure that they have indeed done that that it's not somebody just checking it off so we have a verbal backup sorry so the just

suite and we start talking about treatment of PA D we got to talk about Anatomy a little bit in levels so the

way we think about is three broad classifications we talk about a or two iliac disease which obviously involves the aorta and iliac arteries we talked about the fem-pop which involves this superficial femoral artery in the

popliteal artery and then we talk about the infra popliteal or below knee arteries and I will say more and more we discuss the infra maleo lore below ankle arteries because as our sophistication has gotten has got more progressive

we're able to not only treat sort of the arteries in the leg but the arteries actually into the foot and really reconstruct the foot arteries that are the end the the final off ramp to the ulcer so here's what we're looking at

you all see this all the time here's the distal eye order we have a common iliac arteries is a patient who's got terrible calcification in their proximal sfa you can see that there this is a superficial femoral artery that's diffusely diseased

looks terrible but that's through the thigh and this is a popliteal artery behind the knee the popliteal artery some I'm not sure anyone's heard this terminology or people use it but we talk

about p1 p2 p3 so p1 is the popliteal artery above the knee p2 is the popliteal artery at the knee p3 is the popliteal artery below the knee so sometimes we'll say you know we have to you know traverse a blowy p3 popliteal

artery segment so Bologna arteries you have three arteries as Kumar mentioned you have a tee perineal and PT it's very important that we have these arteries that especially profuse the ulcer there are a lot of anatomic variations and I

feel like my text and nurses here sort of we encounter these a lot where you have the posterior tibial artery coming off the polity or the answer tibial artery coming up high or low or whatever it is so just be aware of it this is a

classic patient where that's spaghetti there are no named arteries in that leg and so it's just nothingness and so we have to recreate what should be there again people died with diabetes patients with diabetes their distributions

different - they tend to have Bologna disease and so often we'll have a patient of the wound and we'll do an angiogram and you do the aorta you do the iliac you do the sfa you do the popliteal or the above knee popliteal

and ever in the rooms like oh sweet okay this is normal I guess we can go home and eat an early lunch and then you do the Bologna popliteal and you're like okay I guess we should cancel dinner so these patients often have just baloney

disease but it's awful Bologna nice disease again that if you close the end of the highway it's hard to reroute so this is sort of the most severe patients and unfortunately they're also the least likely to be treated okay and the reason

is Bologna artery disease is difficult it's much more difficult everyone and their cousin who's a vascular specialist cardiologist radiologist surgeon treats iliac and sfa disease there's not as many people treating Bologna disease

because it's more time consuming it's more technically challenging the patient population is difficult and unfortunately those are the ones who need it the most

it's obviously either done with general

anesthesia or perhaps a regional block at our institution is generally done with general anesthesia we have a really combined vascular well developed combined vascular practice we work closely with our surgeons as well as

you know those who are involved in the vascular interventional space as far as the ir docs and and in this setting they would do generally general anesthetic and a longitudinal neck incision so you've got that and the need for that to

heal ultimately dissect out the internal carotid the external carotid common carotid and get vessel loops and good control over each of those and then once you have all of that you hyper NIH's the patient systemically not unlike what we

do in the angio suite and then they make a nice longer-term longitudinal incision on the carotid you spot scissors to cut those up and they actually find that plaque you can see that plaque that's shown there it's you know actually

pretty impressive if you've seen it and let's want to show an illustrative picture there ultimately that's open that's removed you don't get the entirety of the plaque inside the vessel but they get as much as they can and

then they kind of pull and yank and that's one of the pitfalls of this procedure I think ultimately is you don't get all of it you get a lot more than you realize is they're on on angiography but you don't get all of it

and whatever is left sometimes can be sometimes worse off and then ultimately you close the wound reverse the heparin and closed closed it overall and hope that they don't have an issue with wound healing don't have an issue with a

general anesthetic and don't have a stroke in the interim while they've clamped and controlled the vessel above and below so here's a case example from our institution in the past year this is a critical asymptomatic left internal

carotid artery stenosis pretty stenotic it almost looks like it's vocally occluded you can see that doesn't look very long it's in the proximal internal carotid artery you can see actually the proximal external carotid artery which

is that kind of fat vessel anteriorly also looks stenotic and so it's going to be addressed as well and this is how they treated it this is the exposure in this particular patient big incision extractors place and you can see vessel

loops up along the internal and external carotid arteries distally along some early branches of the external carotid artery off to the side and then down below in the common core artery and ultimately you get good vessel control

you clamp before you make the incision ultimately take out a plaque that looks like this look how extensive that plaque is compared to what you saw in the CT scan so it's not it's generally much more

impressive what's inside the vessel than what you appreciate on imaging but it's the focal stenosis that's the issue so ultimately if yet if the patient was a candidate stenting then you just place a stent

across that and he stabilized this plaque that's been removed and essentially plasti to that within the stent so it doesn't allow any thrombus to break off of this plaque and embolize up to the brain that's the issue of raw

it's the flow through there becomes much more turbulent as the narrowing occurs with this blockage and it's that turbulent flow that causes clot or even a small amount of clot to lodge up distally within the intrical in

terrestrial vasculature so that's the issue here at all if you don't take all that plaque out that's fine as long as you can improve the turbulent blood flow with this stent but this is not without risk so you take that plaque out which

looks pretty bad but there are some complications right so major minor stroke in death an asset which is a trial that's frequently quoted this is really this trial that was looking at medical therapy versus carotid surgery

five point eight percent of patients had some type of stroke major minor so that's not insignificant you get all that plaque out but if you know one in twenty you get a significant stroke then that's not so bad I'm not so good right

so but even if they don't get a stroke they might get a nerve palsy they might get a hematoma they may get a wound infection or even a cardiovascular event so nothing happens in the carotid but the heart has an issue because the

blockages that we have in the carotid are happening in the legs are happening in the coronary so those patients go through a stress event the general anesthetic the surgery incision whatever and then recovery from that I actually

put some stress on the whole body overall and they may get an mi so that's always an issue as well so can we do something less invasive this is actually a listing of the trials the talk is going to be available to you guys so I'm

not going to go through each of this but this is comparing medical therapy which I started with and surgery and comparing the two options per treatment and showing that in certain symptomatic patients if they have significant

stenosis which is deemed greater than 70% you may be better off treating them with surgery or stenting than with best medical therapy and as we've gotten better and better with being more aggressive with best medical therapy

this is moving a little bit but here's the criteria for treatment and so you have that available to you but really is

now let's look at non-invasive ventilation and I know about like five

percent of the patient population that you are seeing is on some form of non-invasive whether they're on by level ventilation or continuous positive airway pressures right so see if HAP using to stent the Airways open and

maintain a pro a Peyton airway and improving oxygenation but BiPAP and patients that need co2 elimination right need help with the by level support so there's a lot of questions that come up when we give

these talks I'm like how does capnography work effectively with these different technologies of non-invasive ventilation and especially because more and more of our patients are requiring these so we're gonna look at some of the

comparisons of co2 capnography data from three different sample sites and remember I showed you that picture so that picture I showed you with the patient wearing the sampling line with a nasal oral scoop and then there was the

mask sampling port and then there was the port on the ventilator circuit distally so that's what we're looking at here so the diamonds that go I wish I had a pointer I don't have a laser pointer I'm sorry but across the top the

diamonds represent our end tidal capnography values from one liter all the way up to eight liters so as the props are as the pressures go up for CPAP they were monitoring leak rates and what they found is the cat nog rafi

values across all of those were pretty accurate when we're monitoring right here the squares and the diamonds represent the mask sampling port and the the ventilator in the circuit distal to the mask and as you could see that

quality of our monitoring goes down as we progress okay to use yes but just know the limitations of your equipment right and again this is the same thing for our BiPAP Dave data are by level ventilation we're seeing again

across the top if we're sampling right at the airway we have pretty consistent readings but then they start to fall off and we look at the other devices that are further down the downstream what we're seeing here is our end tidal

measurements again with CPAP data and what we're looking at is the patient leak so there's always leaks right when we have these devices on and that's a question well sue if I have a leak how accurate am i okay so now the red is our

nasal oral scoop and if you look at the red graph all the way across depending on the leak rate pretty consistent values right the charcoal color is the mask sampling port and that's pretty consistent probably until about like 10

right until our patient like leak rate 10 liters per minute coming out of that mast and then that value starts to fall off and even more so even further distal down our circuit when we're sampling from the circuit at the past the mask

that's the cream color pretty accurate when there's a minimal leak but as the leak goes up that falls off pretty significantly and the same holds true for our by level ventilation pretty similar distribution here with the

patient leak and the sampling so when we're using non-invasive ventilation yes it's accurate and yes it's accurate we're using high flows and yes it's accurate if we have a huge leak only if we're sampling right where the patient

is exhaling so now I hope that clears that up with the patients that are getting supplemental pressure support with your sampling and you know in those just whatever it can sample from the mouth and the nose right at the source

of exhalation has proven to be the most reliable out of all of the different sampling devices so third evaluate your

stamp placement we talked a little bit about it I'm gonna talk to you a little

bit more about it and ideal stance is a straight stance that has a nice smooth curve with a portal vein and a nice smooth curve with a bad igneous end well you don't want is it is a tips that T's the sealing of the hepatic vein okay

that closes it okay and if there's a problem in the future it's very difficult to select okay or impossible to select okay you want it nice and smooth with a patek vein and IVC so you can actually get into it and it actually

has a nice hemodynamic outflow the same thing with the portal thing what you don't want is slamming at the floor of the portal vein and teeing that that floor where where it actually portly occludes your shunts okay or gives you a

hard time selecting the portal vein once you're in the tips in any future tips revisions okay other things you need it nice and straight so you do not want long curves new or torqued or kinks in your tips you

a nice aggressive decompressive tips that is nice and straight and opens up the tips shunt okay we talked a little bit you don't want it you don't want to tee the kind of the ceiling of the of the hepatic vein another problem that we

found out you want that tips stance to extend to the hepatic vein IVC Junction you do not want it to fall short of the paddock vein IVC Junction much okay much is usually a centimeter or centimeter and a half is it is acceptable

the problem with hepatic veins and this is the same pathology as the good old graft dialysis grafts what is the common sites of dialysis graft narrowing at the venous anastomosis why for this reason it's the same pathogenesis veins whether

it's in your arm for analysis whether it's in your liver or anywhere are designed for low flow low turbidity flow of the blood okay if you subject a vein of any type to high turbot high velocity flow it reacts by thickening its walls

it reacts by new intimal hyperplasia so if you put a big shunt which increases volume and increased flow turbidity in that area in that appear again the hepatic vein reacts by causing new into our plays you actually get a narrowing

of the Phatak vein right distal to the to the to the Patek venous end of the shunt so you need to take it all the way to the Big C to the IVC okay how much time do I have half an hour huh 17 minutes okay

Viator stents is one way let's say you don't have a variety or stent many countries you don't have a virus then what's an alternative do a barre covered stem combination you put a wall stent and then put a covered stance on the

inside okay so put a wall stent a good old-fashioned you know oldie but a goodie is is a 1094 okay you just put a ten nine four Wahl cent which is the go to walls down so I go to stand for tips before Viator

and then put a cover sentence inside whatever it is it's a could be a fluency it could be a could be a vibe on and and do that so that's another alternative for tips we talked about an ace tips as a central straight tips and it's not out

and fishing out in the periphery okay this is an occlusion with a wall stance this is why we use think this is why now we use stent grafts this is complete occlusion of the tips we're injecting contrast this is not the coral vein this

is actually the Billy retreat visit ptc okay that's a big Billy leaked into the into the tips okay and that's why we use covered stance I'm gonna move forward on this in early and early and experienced

another device that's new in the market

is the inari device it is a combi combination of suction thrombectomy and mechanical thrombectomy and it you can see it looks like three Amplatz or plugs on a catheter but that blue catheter is actually a very nice suction system as

well so you can go beyond the clot pull it in and then suck it into the catheter this is very useful because you can pull clot out without giving any TPA and you have a lot less blood loss so if you can take the clot out with a lot less blood

loss I think you can out patients again the benefit is that there's no thrombolytic and the patients have less bleeding drawbacks like many of these devices is there's really no studies to prove that they work we can prove that

they can remove clot from the patient's body but that we don't know that that actually helps in the long run so what we really want to know in all the studies which we're actually going to show three of the main studies is

whether this actually helps patients life in the long term do they does it improve their mortality so the first

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

talk here with something that's new on the horizon believe it or not it was actually on the horizon 20 years ago and then it went away because there were a lot of patients that were treated with a

lot of complications and it's making a resurgence and this is balloon pulmonary angioplasty or BPA for short so this is an intervention which may be feasible in non-operative candidates so I mentioned to the Jamison classification earlier

type 1 and type 2 disease should be treated with surgery again it should be treated is curative but patients with type 2 and a half or 3 disease can be treated with balloon pulmonary angioplasty in the right in the right

frame which means that a surgeon has said I cannot operate on this a medical doctor has said boy they're not going to get better with their medicine let's try something else well this is that something else and that's what involves

everyone in this room so this is these are usually staged interventions with potentially high radiation and contrast dose if you think about it it's like Venis recan and a pulmonary AVM all-in-one so it's a potentially a long

complex procedure with a lot of contrast and a lot of radiation but it can provide a lot of benefit to these patients I'm going to talk about the comp potential complications at the end which is one reason why not

everyone should do these all the time so this is a pulmonary angiogram from the literature when you're injecting a selective pulmonary artery you can see that this patient has multiple stenosis there's no real good flow there the

vessels look shriveled up like I mentioned to you before you can get a balloon across it and balloon the areas and then you can see afterwards so the image a on the left is before an image D is afterwards believe it or not this are

in the most experienced hands because the most experienced hands are for palm the BP AR in Japan they do hundreds of cases of these a year at each hospital I've personally only done five so but this is a something that I'm very

interested in and you can see how how much benefit it has for that patient another way you can see these are the webs and the bands that I mentioned to you earlier so what's interesting is that if you look on the first set of

images on the top and the images on the bottom those are the same patients it's the same view before top rows before and the bottom rows after balloon pulmonary angioplasty so the first image is a pulmonary angiogram where if you kind of

see this there's there's some area areas of haziness those are the webs and bands the image on the the middle is the blown-up views and you can see those areas and then the image on the right is intravascular ultrasound which I use

every day in my practice it's a catheter with an ultrasound on it and when you look at it on the top image image see you can see a lot of thrombus you're actually not seeing flow and on image F on the bottom you're seeing red which is

the blood flow so these patients can actually improve the luminal diameter bye-bye ballooning them you can treat occlusions again image on the left shows you a pulmonary artery with a basically an occlusion proximally and then after

you reek analyze it and balloon it you can see that they can get much more

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

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

criteria for CTF means that the patient has a mean pulmonary arterial pressure which we measure intraoperatively exceeding 25 millimeters mercury at rest with the mean pulmonary capillary wedge pressure less than 15 so I'm not a

cardiologist but what that means to me is a mean capillary pulmonary wedge pressure less than 15 means that their left heart is not failing so if you have a capillary wedge pressure higher than 15 that means your left heart is not

working correctly and you can't blame it on the CTF so you can't blame it on the right side if the left side isn't working other things that matter are the abnormal pulmonary vascular resistance and having a systolic pulmonary artery

pressure greater than 40 so what I want to show you and highlight is the law the lost art of pulmonary angiography which i think is now sort of again a lost art some places do a lot of it and some places don't do very much but diagnostic

pulmonary angiography is actually the gold standard in the planning of either surgery or medical management for patients with CTF we do we do these on almost all of our patients with CTF to make that decision with the surgeons and

the cardiologists so the utility is very it's very useful you're able to measure our pressure you're able to decide whether we're the where the thrombus exists in this image here in patients with disease in the

blue and yellow outlined areas those are the patients who can have the operation the operation is curative it's not just medication that you have to take for the rest of your life you can actually remove that chronic clot it's much like

a femoral endarterectomy that are done for patients with peripheral arterial disease although it's a lot more complicated because they have to crack your chest open what's important is getting very very

good high-quality pulmonary angiogram xand so we do we used to do about we do about a hundred of these a year where I trained or actually where I work now and you get very magda up views and you're gonna show all of the vessels and so

these are the views that we use at our institution they happen to be the pipette criteria so it's the same thing you used to do for acute PE you put a flush catheter in the main pulmonary arteries when you're looking at the

upper lobes and when you're looking at the lower lobes you want to push the catheter further into the pulmonary arteries and inject usually what I do is a two to three second injection so that you can stack the images very well and

show all of them in one view this allows your surgeon to make a decision easily as to whether they can operate or they can't operate on this and then I use a higher frame rate usually because these patients are wide awake we when we do

this case we give our patients twenty five mics of fentanyl one time and that's it just to help get the sheath in I usually do this with a seven French sheath and then use a flush cap pulmonary artery catheter many of which

are currently off the market but when we do this we just give them that twenty five Mike's because they have to hold their breath and I usually go up to a high frame rate in the first run and then adjust based off of how well that

patient is holding their breath this really takes a team effort from our nursing technologists and the and the physicians in the room to make sure that this patient does a good job because it's gonna change their management so

there are a lot of different types of angiographic findings on one of these pulmonary angiogram they're really really interesting pulmonary angiogram zin these patients and they're sometimes not at all subtle so you're looking for

a pruning of distal vessels if we start in the top left where you're just not seeing the Brent normal branch pattern you look for stenosis so we're not usually used to looking at stenosis and the pulmonary arteries but this is

actually what you're looking for in CTF you're looking for webs or bands so you'll usually see little areas where you just doesn't look like there's great opacification there's little areas that there's not good at pacification those

are little webs inside the vessel believe it or not looks like a cobweb that grew inside there from that thrombus and then you're looking for areas of complete occlusion that there's just no vessels there those are all

vessels that can be treated in patients with CTF so this is the Jameson classification before we talk about the sort of the interventional management the surgical management is again the curative and dr. Jameson is the head

surgeon at University of California in San Diego which is the largest Palm CTF program in the in the world and he's done I think over 3 500 of these operations I think he's retired at this point but they named the classification

after him and so type 1 is proximal disease so it involves the main pulmonary arteries these are the ideal patients who can get the best benefit from this in their life type 2 is the next best

it's segmental proximal just type 3 is distal segmental and then type 4 is just a mess of sort of all of it but you can't really get a good surgical plane so type 1 and 2 are treated with pulmonary thromboembolism

towards balloon pulmonary angioplasty or BPA and type 4 are generally treated with medication so PT II or pulmonary

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

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

plan as well so I wanted to talk a

little bit about imaging I know with our residents and fellows and radiology that's all we do is talk about the imaging and then when go on to IR we talked to them about the intervention but I think it's important

for everyone in this room to see more imaging and see what we're looking at because it's very important for us all to be doing on the same page whether you're a nurse a technologist a physician or anybody else in the room

we're all taking care of that patient and the more information we all have the better it is for that patient so quick primer on a PE imaging so this is a coned in view of a CT pulmonary angiogram so yeah sometimes you'll see

CTS that are that are set for a pulmonary artery's and you'll see some that are timed for the aorta but if the pulmonary arteries are well pacified you're gonna see thrombus so I have two arrows there showing you thrombus that's

sort of blocking the main pulmonary arteries on the left and right side on the patient's left so the one with the arrow that is a sort of very classic appearance of an intro luminal thrombus you can see a little rim of contrast

surrounding it and it's usually at branch points and it's centered in the vessel the one on the right with the arrow head is really at a big branch point so that's where the right lower lobe segmental branches are coming off

and you can see there's just a big amount of thrombus there you can see distal infarct so if you're looking in the long windows you'll see that there's this kind of it's called a mosaic perfusion but it also what kind of looks

like a cobweb and that's actually pulmonary infarct and maybe some blood there which actually will change what we're gonna do because in those cases freaken we will not perform PE thrombolysis it's also important to note

that acute and chronic PE which we're here to talk about today may look very similar on a CT scan and they have completely different treatment methods so here's a sagittal view from that same patient you can see the CT scan so

between the arrow heads is with the tram track appearance so you'll see that there's thrombus the grey stuff in the middle and you'll see the white contrasts surrounding it and kind of like a tram track and that's very

classic for acute PE and then of course where the big arrow is is just the big thrombus sitting there here's another view of a coronal this is actually on a young woman which I think we show some images on but you can see cannonball

looking thrombus in the main pulmonary arteries very classic variants for acute PE and then this is that same patient in a sagittal view again showing you in the left pulmonary kind of those big cannon balls of

thrombus here's some examples from the literature showing you the same thing when you're looking at an acute PE it's right centered on all the image all the way in the left if the classic thrombus is centered right in the middle of the

vessel you can usually see a rim of normal contrast around it and you can see on a sagittal or coronal view kind of like a thin strip of floating thrombus so the main therapies for acute

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

different patient this is an unrestrained passenger in a motor vehicle accident now that you are all

experts in looking at this CT you can see on the right side of both of those images is the spleen you can see that darker grey areas within the spleen that's bad it should look more like the the the lighter parts

and actually all the grey are on the outside is all blood or fluid in the abdomen so this is a bad laceration probably at least a grade four splenic laceration but again this was a hemodynamically stable patient all right

and here's what we saw this is the angiogram you can see the splenic artery and you can see they're kind of diffuse abnormality of the spleen it just doesn't look right under normal circumstances it just look like branches

on a tree and what we're seeing here is just kind of splotchy looking splenic ranked them up so that's not normal we just want to give it a chance to heal this is the scenario we might do a proximal splenic embolization where

we'll go in and we'll basically put a plug or some coils right at the origin of the splenic artery and I love this picture because what it shows is why we do this philosophically what I want you to notice is on the image to the left

you can see the coil right there right if you see the abrupt stopping of the splenic artery and then what you see are all those vessels going up towards the top of the picture those are arteries that are supplying

the stomach it's the left gastric artery some other vessels that then go through vessels we call the short gastric arteries and what you get is is the reconstitution of the splenic artery so on the image to the right all the way on

the right side of the picture those branches that you see are within the spleen so even though we plugged up the splenic artery right at its start the spleen is able to get blood flow through those collateral vessels all right so

that's our goal that's what a proximal splenic embolization is trying to do we just want the spleen to heal a little bit and reality what we want to do is these patients are usually fine we just don't want them to go home and have a

delayed rupture of their spleen because that's something many of us probably don't appreciate if someone has a splenic artery injury or splenic injury and they're doing fine and then we send them home there is an incidence of

delayed rupture of the spleen and what we know through lots of good papers is doing these proximal embolization procedures helps to reduce that risk of delayed splenic rupture so that's what we're trying to do there all right so

are in the room here's a case of an 80

year old with a previous mi had a left hand are directing me and it's gonna go for a coronary bypass graft but they want this carotid stenting significant card accenting lesion to be treated first there's the non-invasive blow

through this but there's the lesion had a prior carotid endarterectomy so had that surgery we talked about first but at the proximal and distal ends of that patch has now a stone osis from the surgical fix that's developed so we

don't want to go back in surgically that's a high resolution we want for a transfer Merle approach and from there here's what it looks like an geographically mimics what we saw on the CT scan you can see the the marker and

the external carotid artery on the right that's the distal balloon and then proximally in the common carotid artery and they're noted there and then when you inflate the balloons you can see them inflated in the second image in the

non DSA image that's the external carotid room carotid artery balloon that's very proximal the common carotid balloon is below or obscured by the shoulders and ultimately when you inflate the common carotid balloon you

just have stagnant blood flow then we treat them you can see both balloons now and the external carotid and common carotid in place we have our angioplasty balloon across the lesion and then ultimately a stent and this is what it

looked like before this is what it looks like after and tolerated this quite well and we never had risk of putting the patient for dis Lombok protection or to salamba lusts overall I'm not gonna go over this real

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

you see again renal Dena Graham you can see a hint of the gonad of Ain selective

vena Graham again showing us the large gonadal vein and that's my post so charcoal with the occlusion balloon and then treat I showed the cartoon slide before that we look at all four of those territories so I always start with the

left but then I'm gonna look at the right gonadal vein as well as the internal iliac veins on both sides in this case the right go Natalie was normal as were the internal iliac veins so not seeing any varicosities

normal venous outflow so this patient it was only treated with a left gonadal vein embolization

PE the first one of course is

anticoagulation so heparin and bridging the patient to coumadin or now aid a direct oral anticoagulant is really the mainstay of treatment most patients again 55 percent of patients with PE have low risk PE all of those patients

should be on according to the chest guidelines three months of anticoagulation so they're gonna get heparin as an inpatient if they even need it and they're gonna get sent home on lovenox bridge to coumadin or they're

gonna get the one of the new drugs like Xarelto or Eliquis but here's all the other things that we do so these patients that are in the intermediate high risk so I'm gonna try to keep saying those terms to try to kind of put

that in everyone's brain because I think the massive and sub massive PE is what everyone used to talk about but we want to keep up with our colleagues in cardiology who are using the correct terminology we're gonna say high risk

and an intermediate but in those patients - intermediate high risk or Matt or the high risk PE patients we're gonna be treating them with systemic thrombolysis catheter directed thrombolysis ultrasound assisted

thrombolysis and maybe some real lytic and elected me or thrombectomy there's other techniques that we can use for one-time removal of clot like rotational and electa me suction thrombus fragmentation and then of course

surgical mblaq t'me so when anticoagulation is not enough so I like to show this slide because it shows the difference between anticoagulation and thrombolysis they are very different and sometimes I think everybody in this room

understands the difference but I think our referring providers don't and so when we when we get consulted and we recommend anticoagulation they're like yeah TPA well that's not the right thing so anticoagulation stops the clotting

process so when you start a patient on a heparin drip they should theoretically no longer before new thrombus on that thrombus so when you have thrombus in a vessel you get a cannon you get a snowball effect more

and more thrombus is gonna want to form heparin stops that TPA however for thrombolysis actually reverses the clouding process so that tissue plasminogen activator or streptokinase or uro kindness will actually dissolve

clot so there you're stopping new clot forming versus actually dissolving clot anticoagulation allows for natural thrombolysis so your body has its own TPA and so when you put a patient on heparin you're allowing your natural

body defenses to work you're giving it more time TPA accelerates that process so you give TPA either systemically or through a catheter you're really speeding up that process anticoagulation on its own has a

lower bleeding risk you're putting a patient on heparin or Combe it in it's it is less but it is still real thrombolysis however is a very very high bleeding risk patients when I when I consult a patient for thrombolysis I

tell them that we are about to do give them the absolute strongest blood clot thinning agent or an reversal agent which is the TPA and we're gonna just run it through your veins for hours and hours

um and that sort of gives them an idea of what we're doing anticoagulation in and of itself is really not invasive you just give it through an IV or even a pill thrombolysis however is given definitely through an IV through

systemic means and a large volume there thereafter or catheter directed so again

about massive PE so let's remember this slide 25 to 65 percent mortality what do we do with this what's our goal what's

our role as interventionalists here well we need to rescue these patients from death you know this it's a coin flip that they're going to die we need to really that there's only one job we have is to save this person's life get them

out of that vicious cycle get more blood into the left ventricle and get their systemic blood pressure up what are our tools systemic thrombolysis at the top catherine directed therapy at the right and surgical level that what

unblocked me at the left as I said before the easiest thing to do is put an IV in and give systemic thrombolysis but what's interesting is it's very much underused so this is a study from Paul Stein he looked at the National

inpatient sample database and he found that patients that got thrombolytic therapy with hypotension and this is all based on icd-10 coding actually had a better outcome than those who didn't we have several other studies that support

this but you look at this and it seems like our use of thrombolytics and massive PE is going down and I think into the for whatever reason that that the specter of bleeding is really on people's minds and and for and we're not

using systemic thrombolysis as often as we should that being said there are cases in which thrombolytics are contraindicated or in which they fail and that opens the door for these other therapies surgical unblocked demand

catheter active therapy surgical unblocked mean really does have a role here I'm not going to speak about it because I'm an interventionist but we can't forget that so catheter directed therapy all sorts

of potential options you got the angio vac device over here you've got the penumbra cat 8 device here you've got an infusion catheter both here and here you've got the cleaner device I haven't pictured the inari float

Reaver which is a great new device that's entered the market as well my message to you is that you can throw the kitchen sink at these patients whatever it takes to open up a channel and get blood to the left ventricle you can do

now that being said there is the angio jet which has a blackbox warning in the pulmonary artery I will never use it because I'm not used to using it but you talk to Alan Matsumoto Zieve Haskell these guys have a lot of experience with

the androgen and PE they know how to use it but I would say though they're the only two people that I know that should use that device because it is associated with increased death within the setting of PE we don't really know you know with

great precision why that happens but theoretically what that causes is a release of adenosine can cause bradycardia bradycardia and massive p/e they just don't mix well so

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

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

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

happy to take any questions or in

ultrasound we don't usually use contrast but one of the procedures were doing for the treatment management of a pulmonary embolism is the ultrasound assisted Rumble Isis do we need contrast so for the thrombolysis is the catheter itself

so you still need to give contrast two to do the procedure but while the catheter is running you don't need to give any contrast four for that is that what you're we don't usually use contrast for ultrasound but

all right when you're treating how will you know that it sliced the clot is less what you frequently do is check the pressures so that catheter allows you to check the pressure and so once you start a patient so you do a pulmonary

angiogram which requires contrast and you put the ultrasound assisted thrombolysis catheter in the eCos catheter then after 24 hours or 12 hours you can measure a pressure directly through that catheter and if the

patient's pressure is reduced you don't have to give them anymore injections yeah and if we are using ultrasound for treatment is it possible to do it for diagnostic purposes No so not for non the prominent artists for

diagnostic imaging unless you're doing an echocardiogram which is technically ultrasound in the heart but for treatment otherwise you need you will need to inject some dye oh thank you

hi I'm Katrina I'm NGH I have one more question okay for your patients with chronic PE do most of them begin with acute PE or if they very separate sort of presentations that's that's a great question so all of them

had acute PE because you can't have chronic without acute but a lot of them are not ever caught so you'll have these patients who had PE that was silent that maybe one day they woke up and had a little bit of chest pain and then it

went away couple days later they thought they had a bronchitis or a cold and then you find out five years later that they had a huge PE that didn't affect them so badly and then they have these chronic findings they usually show up to their

family practice doctor again with hey I just can't walk as far as I can I have a little heaviness they rule them out from a heart attack but it turns out that they have CTF so you you all of them had a Q PE but it takes a lot of time and

effort to find out whether they truly have chronic PE so it's usually in a delayed fashion thank you all right well thank you guys again appreciate it [Applause]

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

her I couldn't help but throw this in

just talking about back device here's a patient that had a iliac occlusion the right it was very difficult to get past the very proximal plaque cap so in this case I did a sub into a we can remember I talked about that out back device it

has like a little L and upside down L that you can use to point into the vessel lumen so what I did was on the healthy side I put in a sauce on me this allows me to know exactly where the arches and where the right coming he

like origin is certainly I don't want to be out backing into the aorta deeply right so this allows me to identify where that location is once I've out backed into the vessel here then I just pre dilated and then stent it up into

the vessels so just sort of interesting case one thing since I am Austin there's a couple of places just you may or may not be aware of this is a Barton Creek it's actually not just a cross town lake not far from here it's about a seven

mile a little Greenbelt inside the city where basically you don't feel like getting your traffic your gaze definitely away from everything this is called the land bridge oops so there's a couple of guys right here

that's about probably about a 20-foot jump there's this guy right here who just took off from that ledge it's about a 40 50 foot drop I did try to get up to that part one time it's about it one foot with ledge so I didn't get the ax

courage to do it now I'm sort of happy because during the summer months it does get just dry up so what I noticed with this is this is about a 10 12 foot depth here this guy's jumped in something's about

12 to 15 deep so it's sort of interesting the the balls enos of these guys some guys are doing backflips out there there is water there so you know if you guys have a chance check it out

if you do happen to find it I'm not encouraging it excited I wanna get sued but if you want to take a jump off have fun all right thank you [Applause]

I like to talk about brain infarc after Castro its of its year very symbolic a shoe and my name is first name is a shorter and probably you cannot remember my first name but probably you can remember my email address and join ovation very easy 40 years old man presenting with hematemesis and those coffee shows is aphasia verax and gastric barracks and how can i use arrow arrow on the monitor no point around yes so so you can see the red that red that just a beside the endoscopy image recent bleeding at the gastric barracks

so the breathing focus is gastric paddocks and that is a page you're very X and it is can shows it's a page of Eric's gastric barracks and chronic poor vein thrombosis with heaviness transformation of poor vein there is a spline or inertia but there is no gas drawer in urgent I'm sorry tough fast fast playing anyway bleeding focus is gastric barracks but in our hospital we don't have expert endoscopist

for endoscopy crew injections or endoscopic reinjection is not an option in our Hospital and I thought tips may be very very difficult because of chronic Peruvian thrombosis professors carucha tri-tips in this patient oh he is very busy and there is a no gas Torino Shanta so PRT o is not an option so we decided to do percutaneous there is your embolization under under I mean there are many ways to approach it

but under urgent settings you do what you can do best quickly oh no that's right yes and and this patience main program is not patent cameras transformation so percutaneous transit party approach may have some problem and we also do transit planning approach and this kind of patient has a splenomegaly and splenic pain is big enough to be punctured by ultrasonography and i'm a tips beginner so I don't like tips in this difficult

case so transplanting punch was performed by ultrasound guidance and you can see Carolus transformation of main pervane and splenorenal shunt and gastric varices left gastric we know officios Castries bezier varices micro catheter was advanced and in geography was performed you can see a Terrell ID the vascular structure so we commonly use glue from be brown company and amputee cyanoacrylate MBC is mixed with Italy

powder at a time I mixed 1 to 8 ratio so it's a very thin very thin below 11% igloo so after injection of a 1cc of glue mixture you can see some glue in the barracks but some glue in the promontory Audrey from Maneri embolism and angiography shows already draw barracks and you can also see a subtraction artifact white why did you want to be that distal

why did you go all the way up to do the glue instead of starting lower i usually in in these procedures i want to advance the microcatheter into the paddocks itself and there are multiple collateral channels so if i in inject glue at the proximal portion some channels can be occluded about some channels can be patent so complete embolization of verax cannot be achieved and so there are multiple paths first structures so multiple injection of glue is needed

anyway at this image you can see rigid your barracks and subtraction artifacting in the promenade already and probably renal artery or pyramid entry already so it means from one area but it demands is to Mogambo region patient began to complain of headache but american ir most american IRS care the patient but Korean IR care the procedure serve so we continue we kept the procedure what's a little headache right to keep you from completing your

procedure and I performed Lippitt eight below embolization again and again so I used 3 micro catheters final angel officio is a complete embolization of case repair ax patients kept complaining of headache so after the procedure we sent at a patient to the city room and CT scan shows multiple tiny high attenuated and others in the brain those are not calcification rapado so it means systemic um embolization Oh bleep I adore mixtures

of primitive brain in park and patient just started to complain of blindness one day after diffusion-weighted images shows multiple car brain in park so how come this happen unfortunately I didn't know that Porter from Manila penis anastomosis at the time one article said gastric barracks is a connectivity read from an airy being by a bronchial venous system and it's prevalence is up to 30 percent so normally blood flow blood in the barracks drains into the edge a

ghost vein or other systemic collateral veins and then drain into SVC right heart and promontory artery so from what embolism may have fun and but in most cases in there it seldom cause significant cranker problem but in this case barracks is a connectivity the promontory being fired a bronchial vein and then glue mixture can drain into the rapture heart so glue training to aorta and system already causing brain in fog or systemic embolism so let respectively

other things that we look at tools that we use include the ankle and toe brachial indices those are these at blood pressure comparisons between the

arm and the foot or the toe the great first toe we use segmental pressures your blood pressures and multiple levels down the leg pulse volume recordings which look very similar with cuffs down the leg but they're looking at the size

of the leg per heartbeat PPG's which is basically pulse ox for the four individual toes TCP o2 which is very important and not used enough which is looking at the oxygen tension within the tissue itself and skin perfusion

pressure so ABI as I mentioned as a comparison the arm and the leg pressures and people with CLI often have an ABI less than point for the pressures gonna be less than 50 millimeters in mercury so the ABI may be falsely elevated

people who have chronic kidney disease because the vessels get calcified and they don't compress very well when you blow up the cuff increasing it above 0.45 after if it's been below that is somewhat predictive of wound healing but

not that helpful at the time of an angiogram so as the higher the two pressures is often used to calculate this because you have two pressures and each leg right you have it dorsalis pedis pressure that

you can get and you have posterior tibial so the way that you do in ABI is you look at the higher of the two and compare that to your arm pressure so just remember if your ulcer is being supplied by the vessel that's got the

lower pressure than your ABI is could be normal you could still have CLI so again not always that helpful the toe brachial indices is a it is a little bit more helpful people with diabetes only because the toe arteries tend not to

calcify as quickly in these patients less than 0.75 is considered abnormal and increasing it up into the normal range of course is predictive of fluid wound healing so limitations these only really look at

the macro vascular so that you know the named ves blood vessel patency they don't really tell you what's going on at the level of the capillaries and a recent meta-analysis suggests that neither of them can be consistently

relied upon as okay it came to a normal range we're definitely not gonna get an amputation now so I think I really do have to press both buttons each time so the systolic pressure measurements for segmental pressures you basically look

at the pressures on multiple levels of down the leg a drop of greater than 20 is considered significant and then severity of a number of lesions can't be totally determined from that again this only really tells you what's going on in

the named vessels pulse volume recordings these are cuffs that are looking at the volume of the limb with each pulse it's helpful and patients would they have non compressible vessels because the leg actually has a it's a

microscopic but detectable increase in size with each pulse and so this is better in people who have non compressible vessels and changes in PVR's often will actually precede angiographic findings CTA findings and

recent publication from the s from the society vascular surgery however calls into question their usefulness compared to a bi alone the good pictures are coming soon so this is an example what you may see in

the chart for some of your patients with critical limb ischemia so this is actually segmental pressure and pulse while recording from where I trained in Miami and basically what we're looking at is a combination of things on one of

these sheets so the pressures are listed in the middle but each sheet is going to be different depending on your institution so you're looking for a big drop and pressure from one level to the next so if you look for example in the

middle at the right leg you know there's a 176 in the arm and then there's a 126 in the high thigh normally because of gravity you should have an increase in flow at that level so that's already I have normal on the right side and then

progressing down any grade any drop greater than 20 suggested that something may be abnormal at that level PPG's these are really good for detecting what may be going on at the foot or lower levels so you transmit an infrared

signal through the toe and then try to see how much of that light comes out the other side essentially and so the amount of it it's depending on how much bloods in the digit and the flow the flow of the blood vessels so if you had a

previously flatlined signal then restoring a pulsatile signal is considered a and it you know an approved marker of tissue perfusion so this is essential in patients who have distal ulcers particularly in the level of the

toe because restoring you see you've probably all seen those of you that work in labs that do a lot of peripheral disease seen an angio graphic result where you get flow down to like the mid foot but you see no perfusion down to

the digits and unfortunately that's often not going to be enough to heal a wound so the PPG's are something I try to get in all patients who have tote tote ones so there's an example of a patient who

has flatline and all five digits on the right foot and we recant alized their anterior tibial artery and had flow all the way down there and there was a wound blush in the toe and this is the restore pulsatilla T in all five digits the next

day so at our institution now and also I've modeled after what it was with my training which is the day after the procedure we keep all these patients overnight we get an ABI i segmental pressures and pulsefire

recordings and PPG's and anyone who has flat waveforms in them in their foot level or anybody with a toll sir and if possible we try to get a duplex which you get which I'll go over next it's not always reimbursable at all institutions

if you do them in the same day though so TCP o2 as I mentioned is something that's a little underutilized I think the the task two recommendations that we actually use to stratify the different types of disease and perf arterial

disease suggest that all patients with CLI should have this testing done but it's hard because patients have to not smoke and not drink coffee or tea the morning of the exam and that's hard to get patients to do you have to keep the

room temperature controlled and so it's office availability is limited so an improvement values greater than forty millimeters of mercury in the area surrounding an ulcer suggests that it's going to have successful healing so we

often will do this before we take the patient for an angiogram as a baseline and then bring them back afterwards and if we're if we have a very large increase that you know that's a good sign but of course we're our goal is

usually to be greater than forty and it's one of the few of these tests that's actually useful in patients who don't have Doppler signals so this is a totally not fake wound on this right foot this is example of what it looks

like you basically put multiple probes around the area of the foot and you're testing for the different oxygen tensions skin perfusion pressures is analogous but slightly different basically you're inflating a cop over

different areas of tissue and until the blood flow stops and then slowly deflating it until you can detect light being transmitted through that area again greater than thirty values or predictive of wound healing a lot of

numbers and there will be a test at the end of this so this is a chart kind of showing the ischemic wounds healing likelihood is correlated with an increase in the skin perfusion pressure so if you're less than 30 you're

unlikely to heal if you're greater than 40 it's most likely not an excuse mcquown and you should start looking at other ideologies like venous disease or neuropath neuropathic disease or infection duplex ultrasound is extremely

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

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