Create an account and get 3 free clips per day.
Chapters
Portal Vein Thrombosis, Ascites, Cirrhosis|Recanalization, TIPS (Trans-splenic)|65|Male
Portal Vein Thrombosis, Ascites, Cirrhosis|Recanalization, TIPS (Trans-splenic)|65|Male
2016advancedilateembolizelivermaintainsperfusedperfusionperipheralportalpullpuncturerecanalizeSIRsnaresplenicthrombosedthrombustipsvaricesveinvenogramvenography
Balloon Pulmonary Angioplasty | Management of Patients with Acute & Chronic PE
Balloon Pulmonary Angioplasty | Management of Patients with Acute & Chronic PE
angiogramangioplastyarteryballoonballooningbandschaptercomplicationscontrastflowHorizonimageimagesluminalNoneocclusionocclusionspatientsproximallypulmonaryradiationrecanstenosisthrombustreatedultrasoundwebs
Cone Beam CT | Interventional Oncology
Cone Beam CT | Interventional Oncology
ablationanatomicangioarteriesarteryartifactbeamchaptercombconecontrastdoseembolicenhancementenhancesesophagealesophagusgastricgastric arteryglucagonhcchepatectomyinfusinglesionliverlysisoncologypatientsegmentstomach
The Case that Launched the Cornell PERT (PE Response Team) | Pulmonary Emoblism Interactive Lecture
The Case that Launched the Cornell PERT (PE Response Team) | Pulmonary Emoblism Interactive Lecture
adventitiaangiogramaortaarteryaspiratedbloodcatheterschapterclotdysfunctionFistulafrontalhemorrhagehypotensionhypoxiaintracraniallobelungPE in right main Pulmonary Arteryperfusionpertpigtailpressorspulmonarypulmonary arteryresectionselectivesheathspinsystolictachycardicthrombustpatranscranialtumorventricle
Renal Ablation | Interventional Oncology
Renal Ablation | Interventional Oncology
ablationcardiomyopathycentimeterchaptereffusionembolizedfamiliallesionmetastaticparenchymalpatientpleuralrenalspleensurgerytolerated
Bland Embolization | Interventional Oncology
Bland Embolization | Interventional Oncology
ablationablativeadministeringagentangiogramanteriorbeadsblandbloodceliacchapterchemocompleteelutingembolicembolizationembolizedhcchumerusischemialesionmetastaticnecrosispathologicpatientpedicleperformrehabresectionsegmentsequentiallysupplytherapytumor
Case- Severe Acute Abdominal Pain | Portal Vein Thrombosis: Endovascular Management
Case- Severe Acute Abdominal Pain | Portal Vein Thrombosis: Endovascular Management
abdominalanticoagulantsanticoagulationaspirationCAT8 PenumbracatheterchapterclotdecideflowhematomaintrahepaticlactatelysisneedlepainportalPortal vein occlusion-scanstenosisstentthrombolysisthrombosedthrombustipstransitvein
Stent Graft Deployment | TIPS & DIPS: State of the Art
Stent Graft Deployment | TIPS & DIPS: State of the Art
balloonballooningbarebasicallybifurcationcapturedchaptercirculationcorddeepdeployentryidealplasticportalportionpullsheathstentstentstipsveinveinsvenous
Results | Pelvic Congestion Syndrome
Results | Pelvic Congestion Syndrome
chapterclassicemboliembolicembolizationembolizegonadalinsufficiencymetapelvicsymptomstreatveinvenous
Percutaneous Biliary Drainage  | Biliary Intervention
Percutaneous Biliary Drainage | Biliary Intervention
angiogramaxischaptercoaxialcolordrainductductalfrequentlyhepaticinterventionalobstructionperipheralportalstructuressuccesssystemtubevein
Ideal Stent Placement | TIPS & DIPS: State of the Art
Ideal Stent Placement | TIPS & DIPS: State of the Art
anastomosiscentimeterchaptercoveredcurveDialysisflowgraftgraftshemodynamichepatichepatic veinhyperplasiaintimalnarrowingniceoccludesocclusionportalshuntshuntssmoothstentstentsstraighttipsveinveinsvenousvibe
Hemobilia | Biliary Intervention
Hemobilia | Biliary Intervention
accessangioangiogramarchitecturearteriesarteryaureusbiliarybleedingceliacchaptercollateralizationdefectsdislodgementductembolizefistulasfrequentlygramhepatichilumintercostalinterventionistsliverparenchymalperipheralportalpreppseudoaneurysmremovethrombosestubetubesupsizeveinveinsvessels
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
Treatment Options | Pelvic Congestion Syndrome
Treatment Options | Pelvic Congestion Syndrome
amplatzblockblockingbloodchaptercoilcoilsembolizationembolizegluegonadalmaterialsoptionspelvicperipherallysclerosantsurgicalsuturetreatingtreatmentvalvesvaricosevaricositiesveinveins
PTC/PBD Indications & Contraindications | Biliary Intervention
PTC/PBD Indications & Contraindications | Biliary Intervention
ascitesbariatricbiliarychaptercholecystectomycomplexcontraindicationcystsdiseaseembolizefrequentlylaparoscopicliverpolycysticrelativesurgery
Ablative Radioembolization | Interventional Oncology
Ablative Radioembolization | Interventional Oncology
adjacentadministerarterialbladecancerchaptercompletedosedosesentiregreyinvadinglesionliverlobelobectomynecrosispathologicpatientportalremnantresectionresponsesegmentsurgeontinytreattumorvein
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
angiographyangioplastyarterybleedbloodcalcifiedcarotidchapterclaviclecommondebrisdevicedistalembolicembolizationexposurefemoralflowimageincisioninstitutionlabeledpatientprocedureprofileproximalreversalreversesheathstenosisstentstentingstepwisesurgicalsuturedsystemultimatelyveinvenousvessel
Overview of Biliary Disease at John's Hopkins | Biliary Intervention
Overview of Biliary Disease at John's Hopkins | Biliary Intervention
accessangiogrambiliarychaptercolonoscopyendoscopicercphopkinsinterventionlandscapeliverpercutaneouspracticequestionspecialtiesspecialty
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
CT Imaging- Acute PE | Management of Patients with Acute & Chronic PE
CT Imaging- Acute PE | Management of Patients with Acute & Chronic PE
acuteangiogramappearancearrowarteriescenteredchapterclassiccontrastcoronalimaginginfarctluminalNonepatientperfusionpulmonarysagittalscansegmentalsurroundingtechnologistthrombolysisthrombusvesselview
Endovascular AVF creation | Twitter Case Files SIR 2019
Endovascular AVF creation | Twitter Case Files SIR 2019
6fr venous WavelinQ magnetic catheteradvanceadvancesalignarterialbrachialcatheterscenterschaptercreateselectrodeembolizeendovascularengageFistulainsertmaturationpatientpatientsstepultrasoundveinvenavendors
Radioembolization | Interventional Oncology
Radioembolization | Interventional Oncology
bloodstreambremsstrahlungchapterdoseexistshccimrtlivermetastaticmultifocalneuroendocrineparticlepatientportalradiationsbrttumortumorsvascularvisualization
Reflecting on The Case | Brain Infarct After Gastroesophageal Variceal Embolization
Reflecting on The Case | Brain Infarct After Gastroesophageal Variceal Embolization
chapterembolizationimagelivermixtureprominenttransplantationvaricealvein
Protein Losing Enteropathy | Lymphatic Imaging & Interventions
Protein Losing Enteropathy | Lymphatic Imaging & Interventions
angiographybluecancerscenterschapterdiseasesdisordersembolizeflowfluidhepaticimagingInterventionsintestineleakingliverlymphlymphaticlymphaticsoncologyPathophysiologypatientsproteinthoraxtreatable
Treatment Case 2 | Pelvic Congestion Syndrome
Treatment Case 2 | Pelvic Congestion Syndrome
chapterembolizationgonadaliliacinternalocclusionvaricositiesveinveinsvenavenous
TIPS: Techniques- Stent Grafts | TIPS & DIPS: State of the Art
TIPS: Techniques- Stent Grafts | TIPS & DIPS: State of the Art
advantagesarteryaspirateballoonbarebasicallybilecentimeterchaptercontrastcovereddilatedisadvantagedisadvantagesdistalexpandingflowgaugegorehepaticinjectinjectingkitsleaksmultipleneedlepasspassesphysiciansportalportionposteriorproximalpullpushradiologistssalinesheathstentssystemveinvenous
Indirect Angiography | Interventional Oncology
Indirect Angiography | Interventional Oncology
ablateablationablativeaneurysmangioangiographybeamBrachytherapycandidateschapterdefinitivelyembolizationentirehccindirectintentinterdisciplinaryischemiclesionographypatientportalresectionsbrtsurgicaltherapyvein
The Disease Process | TIPS & DIPS: State of the Art
The Disease Process | TIPS & DIPS: State of the Art
ascitesbasicallybloodchaptercirculationcirrhosisconnectionsdipsesophagealextrahepaticgastricHypertensionlivermesenteryorganperineumpleuralportalportosystemicpressurerenalshuntshuntsslidesspleenstepsurgicaltampathoraxtipstransplanttransplantationvalvesvaricesvein
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
Complications & Pitfalls | TIPS & DIPS: State of the Art
Complications & Pitfalls | TIPS & DIPS: State of the Art
accessarteryballoonbranchchapterclinicallydeepdefectgramhepaticimagesliverneedleocclusiveperfusionportaportalsegmentalsegmentsstentthrombosestipstracttypicalveinvenous
TIPS Case | Extreme IR
TIPS Case | Extreme IR
antibioticsascitesbacteriabilebiliarycatheterchapterclotcolleaguescommunicationcovereddemonstrateddrainageductduodenal stent placementfull videoportalrefractoryshuntsystemthrombolysistipstunnelultrasoundunderwentvein
Transcript

need to focus on when you need to do the next step is this is not where the portal vein is, everybody would wanna sort of recanalize starting from here, that's not where the thrombus portal vein is,

it actually migrates cranially, it's here, this is the thrombus portal vein and we know this is small cardiac veins so we pull the catheter back and this is where we advance our catheter, our wire and now we're through.

So notice now that we've gotten through we have our sheath, went through the thrombus portal vein and here's the cavernoma and the cavernoma almost always maintains profusion of the peripheral portal vein, that's a nice feature of this whole thing and then we pull back, we advance into the right portal vein,

we advance a snare and just like Mark was describing we then puncture into the snare and then we pull, we puncture through, and then we pull our system, and now we have through and through access, jugular access out the

splenic vein. Notice the short TIPS that we place, we did not dilate it yet, we dilate the thrombus portal vein, it's completely thrombosed but we just dilated it and we dilate the TIPS and the vein,

it looks like this immediately after. No anticoagulation, no urokinase, streptokinase, TPA etc. it looks like this immediately after and the pressure is so high that this will remain patent

and this person was transplanted. Another case here, complete cavernomas transformation, wedge venogram as I describe, trans splenic access, huge varices, very easy to do this maneuver, it's actually so much easier to go this way than our first 40 cases or so where we were going through the liver and drilling

back. So it's much easier to go this way and here we are into the peripheral portal vein that again is perfused by the cavernoma. It maintains peripheral perfusion of the portal vein and we puncture the same thing through and through, we have large varices,

we dilate the same thing as I mentioned before. This is at the end of the TIPS procedure, this is a completely thrombosed portal vein. It looks like this at the end of the procedure, we leave the varices

alone for the first time. We bring them back a month or so later, that's how we have one month venography and we've learnt about what happens to that and after we embolize the varices, this is

the portal vein. So this vein did not exist a couple of months ago but this person underwent a liver transplantation. This is pre, no portal vein and this is post, native portal vein anastomosis.

I'm sorry. No, this is pre and post 18 months because the TIPS are still there, and this person was transplanted eventually. So here are the results

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

let me show you a case of massive PE

this launched our pert pert PE response team 30 year-old man transcranial resection of a pituitary tumor post-op seizures intracranial frontal lobe hemorrhage okay so after his brain surgery developed a frontal lobe

hemorrhage and of course few days after that developed hypotension and hypoxia and was found to have a PE and this is what the PE look like so I'll go back to this one that's clot in the IVC right there and

that's clot in the right main pulmonary artery on this side clot in the IVC clot in the right main pulmonary artery systolic blood pressure was around 90 millimeters of mercury for about an hour he was getting more altered tachycardic

he was in the 120s at this point we realized he was not going the right direction for some reason the surgeon didn't want to touch him still to this day not sure why but that was the case he was brought to the ir suite and I had

a great Mickey attending who came with him and decided to start him on pressors and basically treat him like an ICU patient while I was trying to get rid of his thrombus so it came from the neck because I was conscious of this clot in

the IVC and I didn't want to dislodge it as I took my catheters past it and you see the Selective pulmonary and on selective pulmonary angiogram here and there's some profusion to the left lung and basically none to the right lung

take a sheath out to the right side and do an injection that you see all this cast of thrombus you really see no pulmonary perfusion here you can understand why at this point this man is not doing well what I did at this point

was give a little bit of TPA took a pigtail started trying to spin it through aspirated a little bit wasn't getting anywhere he was actually getting worse I was starting to feel very very nervous I had remembered for my AV

fistula work that there was this thing called the cleaner I don't have any stake in the company but I said you know I don't have a lot to lose here and I thought maybe this would be better than me trying to spin a pigtail through

the clock so the important thing about the cleaners it does not go over a wire so you have to take the sheet out then take out the wire then put the cleaner through that sheath and withdraw the sheath

you can't bareback it especially in the pulmonary circulation the case reports are poking through the pulmonary artery and causing massive hemorrhage and the pulmonary artery does not have an adventitia which is the outer layer just

a little bit thinner than your average artery okay so activated it deployed it and you started to get better and this is what it looked like at the end now this bonus question does somebody see anything on this this picture here that

made me very happy on this side this picture here that made me feel like hey we're getting somewhere I'm sorry the aorta the aorta you start to see the aorta exactly and that that was something I was not seen before the

point being that even though this doesn't look that good in terms of your final image the fact that you see filling in the aorta and mine it might have been some of the stuff I had done earlier I can't I can't pinpoint which

of the interventions actually worked but that's what I'm looking for I'm looking for aortic blood flow because now I've got a hole in that in that clot that's getting blood flow to the left ventricle which starts to reverse that RV

dysfunction that we were concerned about make sure I'm okay with time so we'll

different applications renal ablation is very common when do we use it

high surgical risk patients primary metastatic lesions some folks are actually refused surgery nowadays and saying I'll have a one centimeter reno lesion actually want this in lieu of surgery people have

familial syndromes they're prone to getting a renal cancer again so we're trying to preserve renal tissue it is the most renal parenchymal sparing modality and obviously have a single kidney and a lot of these are found

incidentally when they're getting a CT scan for something else here's a very sizable one the patient that has a cardiomyopathy can see how big the heart is so it's you know seven centimeter lesion off of the left to superior pole

against the spleen this patient wouldn't have tolerated bleeding very much so we went ahead and embolized it beforehand using alcohol in the pide all in a coil and this is what it looks like when you have all those individual ice probes all

set up within the lesion and you can see the ice forming around I don't know how well it projects but in real time you can determine if you've developed your margin we do encompass little bit of spleen with that and you can see here

that you have a faint rim surrounding that lesion right next to the spleen and that's the necrotic fat that's how you know that you got it all and just this ablation alone caused a very reactive pleural

effusion that you can see up on the CT over there so imagine how this patient would have tolerated surgery pulmonary

we're gonna move on to embolization there a couple different categories of embolization bland embolization is when

you just administering something that is choking off the blood supply to the tumor and that's how it's going to exert its effect here's a patient with a very large metastatic renal cell lesion to the humerus this is it on MRI this is it

per angiogram and this patient was opposed to undergo resection so we bland embolized it to reduce bleeding and I chose this one here because we used sequentially sized particles ranging from 100 to 200 all

the way up to 700 and you can actually if you look closely can see sort of beads stacked up in the vessel but that's all that it's doing it's just reducing the blood supply basically creating a stroke within the tumor that

works a fair amount of time and actually an HCC some folks believe that it were very similar to keep embolization which is where at you're administering a chemo embolic agent that is either l'p hi doll with the chemo agent suspended within it

or drug eluting beads the the Chinese have done some randomized studies on whether or not you can also put alcohol in the pie at all and that's something we've adopted in our practice too so anything that essentially is a chemical

outside of a bland agent can be considered a key mobilization so here's a large segment eight HCC we've all been here before we'll be seeing common femoral angiogram a selective celiac run you can make sure

the portals open in that segment find the anterior division pedicle it's going to it select it and this is after drug living bead embolization so this is a nice immediate response at one month a little bit of gas that's expected to be

within there however this patient had a 70% necrosis so it wasn't actually complete cell death and the reason is it's very hard to get to the absolute periphery of the blood supply to the tumor it is able to rehab just like a

stroke can rehab from collateral blood supply so what happens when you have a lesion like this one it's kind of right next to the cod a little bit difficult to see I can't see with ultrasound or CT well you can go in and tag it with lip

Idol and it's much more conspicuous you can perform what we call dual therapy or combination therapy where you perform a microwave ablation you can see the gas leaving the tumor and this is what it looks like afterwards this patient went

to transplant and this was a complete pathologic necrosis so you do need the concept of something that's ablative very frequently to achieve that complete pathologic necrosis rates very hard to do that with ischemia or chemotherapy

alone so what do you do we have a

so we kind of had a bunch of portal vein cases I think we'll stick with that theme and this is a 53 year old woman who presented to the emergency room with severe abdominal pain about three hours after she ate lunch she had a ruin why two weeks prior the medications were

really non-contributory and she had a high lactic acid so she they won her a tan on consi t scan and this is you can see back on the date which is two years ago or a year and a half ago we're still seeing her now and follow-up and there

was a suggestion that the portal vein was thrombosed even on the non con scan so we went ahead and got a duplex and actually the ER got one and confirmed that portal vein was occluded so they consulted us and we had this kind of

debate about what the next step might be and so we decided well like all these patients we'll put her on some anticoagulation and see how she does her pain improved and her lactate normalized but two days later when she tried to eat

a little bit of food she became severely symptomatic although her lactate remain normal she actually became hypotensive had severe abdominal pain and realized that she couldn't eat anything so then the question comes what do you do for

this we did get an MRA and you can see if there's extensive portal vein thrombus coming through the entire portal vein extending into the smv so what do we do here in the decision this is something that we do a good bit of

but these cases can get a little complicated we decided that would make a would make an attempt to thrombolysis with low-dose lytx the problem is she's only two weeks out of a major abdominal surgery but she did have recurrent

anorexia and significant pain we talked about trying to do this mechanically and I'd be interested to hear from our panel later but primary mechanical portal vein thrombus to me is oftentimes hard to establish really good flow based on our

prior results we felt we need some thrombolysis so we started her decided to access the portal vein trance of Pataca lee and you can see this large amount of clot we see some meds and tera collaterals later i'll show you the SMB

and and so we have a wire we have a wide get a wire in put a catheter in and here we are coming down and essentially decide to try a little bit of TPA and a moderate dose and we went this was late in the afternoon so we figured it would

just go for about ten or twelve hours and see what happened she returned to the IRS suite the following day for a lysis check and at that what we normally do in these cases is is and she likes a good bit but you can see there's still

not much intrahepatic flow and there's a lot of clots still present it's a little hard to catheterize her portal vein here we are going down in the SMB there's a stenosis there I'm not sure if that's secondary to her surgery but there's a

relatively tight stenosis there so we balloon that and then given the persistent clot burden we decide to create a tips to help her along so here we are coming transit paddock we have a little bit of open portal vein still not

great flow in the portal vein but we're able to pass a needle we have a catheter there so we can O pacify and and pass a needle in and here we are creating the tips in this particular situation we decide to create a small tips not use a

covered stent decide to use a bare metal stent and make it small with the hope that maybe it'll thrombosed in time we wouldn't have to deal with the long-term problems with having a shunt but we could restore flow and let that vein

remodel so now we're into the second day and this is you know we do this intermittently but for us this is not something most of the patients we can manage with anticoagulation so we do this tips but again the problem here is

a still significant clot in the portal vein and even with the tips we're not seeing much intrahepatic flow so we use some smart stance and we think we could do it with one we kind of miss align it so we

end up with the second one the trick Zieve taught me which is never to do it right the first time joking xiv and these are post tips and yo still not a lot of great flow in the portal vein in the smv

and really no intrahepatic flow so the question is do we leave that where do we go from here so at this point through our transit pata catheter we can pass an aspiration catheter and we can do this mechanical

aspiration of the right and left lobes you see us here vacuuming using this is with the Indigo system and we can go down the smv and do that this is a clot that we pull out after lysis that we still have still a lot of clot and now

when we do this run you see that s MV is open we're filling the right and left portal vein and we're able to open things up and and keep the the tips you see is small but it's enough I think to promote flow and with that much clot now

gone with that excellent flow we're not too worried about whether this tips goes down we coil our tract on the way out continue our own happened and then trance it kind of transfer over to anti platelets advanced or diet she does

pretty well she comes back for follow-up and the tips are still there it's open her portal vein remains widely Peyton she does have one year follow-up actually a year and a half out but here's her CT the tip shuts down the

portal vein stays widely Peyton the splenic vein widely Peyton she has a big hematoma here from our procedure unfortunately our diagnostic colleagues don't look at any of her old films and call that a tumor tell her that she

probably has a new HCC she panics unbeknownst to us even though we're following her she's in our office she ends up seeing an oncologist he says wait that doesn't seem to make sense he comes back to us this is 11 3 so

remember we did the procedure in 7 so this is five months later at the one year fault that hematoma is completely resolved and she's doing great asymptomatic so yeah the scope will effect right that's exactly right so so

in summary this is it's an interesting case a bit extreme that we often don't do these interventions but when we do I think creating the tips helps us here I think just having the tips alone wasn't going to be enough to remodel so we went

ahead and did the aspiration with it and in this case despite having a hematoma and all shams up resolved and she's a little bit of normal life now and we're still following up so thank you he's

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

symptoms technical success rate is high so that means are we able to diagnose and treat what we're looking for and yes if we see in a incompetent gonadal vein

almost always we are able to embolize and treat but that doesn't always mean that their symptoms get better so even if you have the right symptoms and pelvic venous insufficiency and you got a gonad a vein the size of a three

car garage it doesn't always mean that the patient's give better and that's what this clinical success slide shows that looking through meta analyses of all the studies patients that have all those things the classic symptoms and

classic venous insufficiency their symptoms don't get better 100% of the times and so that's part of the the patient expectation and management and clinic and follow-up and looking for other causes chronic pelvic pain is

really complicated and venous insufficiency is part of it and you'd love to tell them that we're gonna do this procedure and it's gonna make you feel a hundred percent better but at least takes that element out of the the

scenario complications are our few range from 3 to 9 percent non-target embolization depending on what type of embolic you're using is certainly one thing that you always have to be concerned about but if done carefully

extremely rare there is a small risk of paradoxical emboli and stroke in the case of using a foam sclerostin recurrence as I mentioned earlier can happen in up to 10 percent of patients I think that can happen when you know the

vein wreak analyzes so successful embolization helps decrease that and that's the reason that you treat sort of the whole vein that's that's abnormal

we do drain the Louie systems we actually do this extremely successfully as interventional radiologists and it's a very high technical success like I said in this sort of supine position

from the mid-axillary line and these things are and you've seen a lot of these how these done really you need to pacify the system you get trans you most post people go trends in to cost Albany because the liver sometimes can be

tucked up way above and we usually want to make sure that the lung and the costophrenic angle doesn't come down low in nothing I take a deep inspiration first to make sure that you're not dealing with and then we now map your

track than you find some people do this with ultrasound guidance frequently with and dilated structures and most of the time it's actually much probably routine to actually do blind passes in the like I said the path of high success and to

pull back when you a passive our blue system is the only structure that doesn't wash away generally portal vein hepatic vein hepatic artery all of those structures are cylindrical

tubule alike are not are going to wash away move away and quite quickly and you can see this PDC and show in fact a left insertion of a right into your ductal system and frequently this will be something that we would have to make

people watch out like I said identification of choosing the right duct thereafter after you've identified you've performed a color angiogram is to identify how you're going to drain this and the most important thing to identify

is a peripheral duct doesn't matter which one there are ones with higher success but then within the lateral position find one market on the table then with a second axis as a to stick axis and I'm sure this is very germane

and common you've seen get into the peripheral duct and the AP fluoroscopy get a wide down you get a tube down and then eventually go it with a coaxial system getting a skinny wire converted to a larger wire and then following that

with a below a tube and your goal is to really get axis that goes transpannic through a perfect century through obstruction or no obstruction if it's just untie elated and through into the small bowel and lock a some type of

locking system it's interesting the size that you choose does make it different so if you go larger than the 12 french-trained initially the risk of bleeding actually goes above 10% for initial axis so the best is to probably

start with a 8 and 10 and that's what we typically do this is what we connect what it ends up looking like left a

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

treatment options once you've sort of isolated that there are leaky valves and the patient has typical symptoms that there are some surgical options but really embolization and catheter

directed treatment are really the mainstays of treatment both because it's an outpatient procedure you get to go home the same day and the recoveries fairly easy the factors that we consider when you embolize or block these

varicose veins are listed here you want to you want desired duration you want it to be closed forever you can't replace valves it would be nice to be able to do that but there's not a valve replacement so much like in the leg when you're

treating varicose veins you're either blocking or taking veins out so the surgical options are to take the vein out or to ligate but and the vascular options would be to block it and so I would just thought I would cover just a

little bit of embolization materials I'm sure you're all very familiar with and as I'll mention a little bit later there's there's sort of not necessarily agreement on what type of things people use to embolize gonadal veins or pelvic

varicosities but i'll show you what i do but give you a background of just generalized embolization materials so I'm sure you've all seen gel foam supplied as a sheet you can make a slurry you soak it with contraire

so that you can see it as you're putting it in some people use glue and will glue the entire gonadal vein it solidifies when it's mixed with saline or blood usually mix it with acai it also you can see it as

you're injecting it and then the standard coils which there are multiple sizes shapes detachable non-detachable Amplatz or plugs all the mechanical devices that can be used to block blood vessels and then I put on Souter deck

all because there are some people that will sort of do the sandwich technique you may have heard we'd put a coil peripherally and a coil up by the renal vein and then in between the coils you can film a sclerosant and embolize that

way the other important factor for me is using the suture deck all on the actual varicosities I'm not just necessarily treating or blocking off the the blood supply to them you know and I'll mention that a little bit more during the case

here so go through a case patient with

no question why would we do it so the

the usually when there's enteric surgery frequently GI is unable to go once the bowel has been rehook tup through a either Worple procedure or bariatric surgeries where they essentially disconnect the direct communication with

RO mouth so once summons has the surgery there's no question almost IR is always consulted and frequently the only way and and we certainly deal with many ways of the dressing biliary disease not just therapeutic but also diagnostic and

staging and so like I said reduce a lot of scopes now there's sort of no reason you could never do a Balu intervention and it sort of said that ascites and frequently should be a relative contraindication we don't really find

that certainly you can embolize your way out of access into the brewery systems i think this is a relative and every now and then when you have vast numbers of cysts in the liver and polycystic liver disease can't be a barrier to performing

it and we made sometimes then refer those so there's no question sometimes you may want to think about Jia should taking over if they underlaid it but frequently in fact at most of our believe cases are transferred in as

complex and transfers into our hospital are ones with underlay the bill Redux mainly misadventure after lap laparoscopic cholecystectomy or just overall a really complex balloon save case there's frequently transactions or

massive leaks so underlaid is really something we deal with on a daily basis when should you not do it it's very rare

them so my particular area of interest is a blade of radium ization and what we'd like to do is to break the liver

down into a bunch of little tiny perfused volumes off of a single vascular pedicle or what we call angio zones and those are those allow us to segment out if you only have small volume disease for example like here in

segment three why do I have to treat the entire left to paddock low I can actually treat just that small portion just like it what it tastes only now I'm administering y9t but since it's expendable liver I

can administer doses that are way higher orders of magnitudes higher than what I could if our infusing into the liver just on its own so here's an example of that if you look at this lesion in the right of panic lobe you'll see these

little lines over them what we want to achieve is around a 205 GRA threshold for these lesions that's the red line everything that's south of red in terms of color orange Holly to blue is not cold enough to kill tumor so if we

administer a dose of a tea grade to the lobe we get this coverage which is to be a partial response if I administer 150 grey suddenly that red line gets larger what happens when you administer 400 grey now you've officially covered the

entire lesion and so you're going to lose the adjacent liver at those kind of doses and as well - what what the real question then is not sort of how much dose you give it's you give what you need to to ablate the tumor in its

entirety and you see what the patient's left with if someone's left with anatomically a lot of remnant liver because of how you've segmented out that lesion then go ahead and dose extremely high and that's essentially what we've

seen in pathologic results it's one of the highest things of high school pathological crosa rates you can achieve with a trans arterial therapy it's highly competitive with thermal ablation in the correctly selected bleezin

so this is an example of what it looks like when you segment out a little lesion like this and this patient ultimately went to resection and this was a complete pathologic necrosis but as you can see even it was a cirrhotic

patient we chose a very small volume of liver that we felt the patient would tolerate so that's a blade of vernalization let's take a look at what looks like in real time so we have a little capsular lesion we felt that

ablating this patient who was a potential transplant candidate we felt we can probably with a blade of radium realization so you go in and this is the comb beam CT that looks at a complete enhancement of the lesion within the NGO

zone this is what the MAA looks like when we administer it you can see how it tends to cluster within the tumor but you can see what the adverse territory is the liver adjacent to it this is what the engine room looks like how highly

selective it is the day of and this is what the wine ID actually looks like is the wine 90 doing its job and you can see how conformal it is there's no risk whatsoever to the liver that's adjacent outside of that field of

a maximum of around 11 millimeters and this is a patient at one month with a complete imaging response and this patient never developed a recurrent to the site and what's actually sole mode of treatment for this person's liver

cancer this is how you get complete pathologic response if you look at those little tiny grey dots in there those are actually the spheres within tiny little vessels within the tumor sometimes they go even to the portal branch but you can

see how they're not clustered uniformly but when you make them super hot that allows them to give range where otherwise they would be fine a little bit short so this also applies to the whole lobe this was a patient that had a

very unusual presentation of colon cancer that was invading the portal II we weren't sure what to do with this patient no one was because a very rare occurrence so we said well we would like

to resect him but there's not enough liver and we're not sure if this person's gonna survive because we've never seen portal cancer invading the portal vein so we said let's treat it with the radiation lobectomy and what's

cool here is if you look at the the arteries even though the tumor is invading the portal vein it's bringing arterial supply along with it like a vagabond and that's the conduit that allows us to treat these patients so

when we saw that we felt this patient we good candidate for irradiation lobectomy which is applying an ablative dose of y9t to the entire low not just a small segment in patients where otherwise cannot because of the anatomy the tumor

or if you're trying to shrink that lobe to get that person ready for surgery why because if you look at the size of the lobe on the left from this first image and compare it here you can see how much larger it got what happens is that part

that the surgeon ultimately tens on resecting in volutes over time and becomes completely vitalized and turns into scar tissue so we know that if a surgeon goes in afterwards to cut it out it's going to not result in liver

failure and that level of security allows people to have sir who otherwise wouldn't this patient is not going to have metastatic disease because we followed their blood level markers let me see how low they are and

is going to have enough liver remnant so the patient went to resection and this is the pathologic specimen and this was also a complete pathologic necrosis so I

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

good afternoon thank you so much for invitation to speak to you I have a privilege of working at Johns Hopkins and we have a fairly large practice we at the main hospital itself we have 11 rooms and during a day about two of them are have a biliary case actually going

on at the same time so it's actually a fairly large volume of our practice and so the gamut of bluie intervention goes from really simple stuff to really complex and it is something that our trainees specifically will come to

Hopkins for and many of times they will end up being the blurry and experts as soon as they arrive at a new practice so certainly it's something that we deal with every day I just wanted to give you a landscape overview and share some good

cases that we've done and hopefully you may something have some comments or learn something about the way we do it but I'm pretty sure throughout the country a lot of great Billu work has been done currently there's no question

though the Blooey access and access to the Blooey system has really been played out in most hospitals perth by GI and ir and obviously surgery but almost a lesser so today and the rat in at least four IR is the PTC PPD or transparent

Col angiogram but it's actually a recurring role and I actually speak and have a sort of special interest in transit paddock colonoscopy as well so we play scopes through the skin through the liver and do a lot of balloon

intervention I'll show you a few cases like that but in true these access points are germane to what specialty you come from and obviously endoscopic beeper oral and if you eye are usually usually through the skin and there's no

question GI now in some hospitals I'm sure you have advanced endoscopy that will go through the stomach straight into the leftover liver so there's no question of a blurry landscape is changing quickly but no question that

this is quite common but yet most patients and internal medicine specialties will be looking at blurry disease by access point through scopes through ercp so going back from the Duden up or directly through in there's

advantages disadvantages something it's fairly obvious to everybody that you know no question is selling it to a patient if it had both choices that ERCP through the mouth and nothing invasive nothing sticking out their body

is attractive yet the outcomes are very similar but nonetheless there's pros and cons and through the trance of had a crap or two percutaneous route you do definitely have tubes at least sticking out

initially and this is often solved by GI as the main differentiator at least a discomfort but yet we are able to address almost every problem at times and often where'd they pay a lot there's

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

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

so this is our MGH page we started it about a year ago check it out if you guys like it some pretty good cases we mostly post cases some policy stuff industry and changing things it's not purely cases but certainly take a look if you like it give us a follow so what

I have today is I have two cases that I picked and you know for all the thousands of cases that all these huge academic medical centers do I tried to pick a couple that might be a little interesting and that aren't being done

in all the different centers across the institution so I'll start off with the first which is an endovascular AVF creation so what's nice about this is that you know what we see so far from this is that the length of stay impact

has been certainly reduced in certainly the maturation times and the Rhian turn re intervention rates have been reduced so I'll go through this and normally wouldn't go step by step for a few things but I think you know not all

institutions are doing this yet I think that you will I do think this is going to be a shift for a lot of the dialysis patients and everybody who works anion knows what a huge impact it is the ESRD patients is just astronomical the

numbers of them it's just continuing to rise so procedural steps the first step is you're going to access the brachial vein advance the guide Y down to the ulna insert a six French sheath and perform a vena Graham and the rationale

for that of course is to make sure you don't have any issues centrally some centers do that in advance some centers don't I will mention also that the ultrasound mapping is absolutely critical to make sure that

you get the right patient you start off by seeing them in the outpatient clinic and then you're going to go and have them have vascular ultrasound to make sure you have a good candidate so the next is you're gonna access the brachial

artery same thing advance your guide wire down to the ulna from there you're gonna insert the venous side now this is one of two approved vendors that will allow you to do an endovascular creation this was a wave link it's a to stick

system and it requires two catheters which is why you see the next step is pretty much repeated but just flipping it to the arterial side so from there there's a magnetic zone it actually has like a little canoe so it's got a

backing of a ceramic sort of a space there if you can think of sort of the older or atherectomy cut home catheters that had that little carro canoe you would actually take the debris out it's very

look into that and I'll show you that in a couple of images once you align that you're gonna sort of engage the little electrode this is an RF ablation RF created type fistula so it creates a little slit between the Adri and the

vein and what happens is is that you know of course don't forget you have to ground the patient just like any RF once you get the magnets and you get the electrode alignment you're going to engage the device for two seconds and

the fistula is created and then from there a lot of centers are actually going in there embolize in one of the brachial veins and this is basically to sum some of that stuff obviously to the superficial system for draining I have

read that there are a few places that actually go back back in through the newly-created fistula like even at the time of the procedure with the 4 millimeter balloon and just sort of open that up I'm not sure that that's 100%

necessary but I'm sure all these fine people on the panel could help us with that so here you see and I skipped all the entry steps but here you can see the Venus in the arterial catheter you know in position here and there's that little

canoe thing pointed out by the arrow that I had talked about and you use fluoro to sort of align these two things when you first start doing these cases take your time the first one was over an hour and a half for us now obviously

it's about a third at that time this is the little electrode this is when it's advanced and pretty much ready to engage can you play the video for me so this is quick so what happens is you suppress the

device the electrode actually advances and as it advances towards the veena side what happens is is that it actually just creates this fistula through the RF sort of energy from there you're gonna do a post vena graph in here you can see

after we did an initial post intagram there was enough sort of flow between the PIAT brachial so we decided to embolize one and this patient was our first patient and is doing very well so far this is done on I'm gonna say just

because you know to dr. brains point I don't want to get on the hook for certain dates and patient identification but this was done in mid-march so we saw them two weeks out and we're gonna see them again another couple weeks so just

there's a couple of trials that you can read into one is the neat one is the flex trial I think the technical success is really promising at 96% the maturation days you can see there's a massive massive comparison where they

could be ready to be dialyzed in 60 days and this could be a game-changer for many patients the six-month patency rate is what I've seen in most of the reports it's around 98% compared to about 50% with the surgical place and then you can

see that this about 3.5 interactions or re interventions that are required in about 0.5 at a year's time out from this so it's really making a big difference for these patients and I think this is what we do in i/o we continue advanced

things innovate and obviously look to do things in a more timely cost-effective minimally invasive way at the beginning when these new procedures come out the devices themselves might be at a higher price point but we'll see how that goes

moving forward as more and more vendors get into the space so the second case

patient like this you have a very large left lateral HCC that's invading the left the patek vein and extending into the heart since when we get into things like radioembolisation if you have

multifocal liver disease if you want to apply radiation therapy to that's very difficult to do that because it actually requires more radiation dose to kill HCC than it does the adjacent normal liver the liver is actually that ready

sensitive so you can do things like SBRT and pick an individual lesion you can do things like a imrt which is you know survey 8 non focus generalize low dose but what's interesting Malaysian is that if you administer

particles they only shoot about two millimeters worth of the raishin field around it so of what used is that with one not much but if you put eight to forty million of them within the bloodstream they Auto sort themselves

based off of the vascular flow preferential that exists with tumors tumors actually emit hormones pull in blood supply that you weren't born with and that actually tends to pull beads from the bloodstream preferentially

towards it so this is an example where you stain a tumor with two types of wax one the portal that's blue one the artery that's red and you can see how much that preferential exists so what ends up happening is these spheres

cluster within the tumor and then provide local dose radiation that's very hot where the tumor is and low elsewhere so here's an example of that this is a patient with metastatic neuroendocrine disease multifocal liver lesions you can

see that vascular flow preferential this is what it looks like on the maa when we jecht a protein particle surrogate that has a technician I should have assigned to it just as a visualization of how the particle is

going to sort out and the post y9t bremsstrahlung CT is over there and you can see how intense the necrosis is within the tumor and how much it's spared the normal liver however you do get some radiation damage they don't

live a regardless that's why choosing the timing of when you're gonna do this is important this is a patient that was treated with tastes above and one session of y9u beneath so you can see that they do have different types of

therapeutic mechanisms they're not the same even though they look very similar in terms of when we're administering

leave you the image you can see from an airplane on this image can you see prominent vein this is a prominent beam so at the time in this image pulmonary vein was or pacified so we should not hiss but we missed fortunately the patient got over our headache and visual disturbance discovered within seven days and for the next six months no variceal bleeding and he got a liver transplantation so how to

prevent this serious complication 1 to 2 or 1 to 3 thick mixture of colonial applied a mixture should have been used or butter the flow should be concealed being controlled by putting catheter or several coils it should have been used at first and then and cool injections should have been done I don't know or instead of Paris embolization tips or liver transplantation should have been considered the first I don't know I'm not Monday Morning Quarterback and this

is my last slide thank you for your attention

interrupting something else getting back

to a paddock with angiography something that we're starting to look at the group at University of Pennsylvania has a publication out on this as well I looked at the liver lymphatics certainly the livers where we produce a

lot of protein it goes through the lymphatics to be returned to the circulation in patients who have heart failure they tend to have increased lymphatic flow in the liver and they think that protein lost in enteropathy

protein losing a property happens when the liver lymphatic leaks into the intestines just some images from their article you see them looking at the hepatic lymphatics there and once they had a needle in the hepatic lymphatics

they actually put her scope in and they injected blue dye and as a proof-of-concept they saw the blue dye leaking into the intestine so now that they see that the blue dye leaking the intestine they say well we can embolize

that they embolize it with some glue and that's what it looked like at the end and then the algorithm levels and all these patients return to near normal so a new a new frontier and lymphatic intervention so just to summarize

lymphatic imaging the current status you know we have very effective non-invasive as well as in vases imaging in the peripheral and central lymphatics we certainly need to this allows for improved diagnosis and once we have

these diagnostic capabilities we were able to come up with these novel treatments for these diseases that were previously untreatable we still don't have good ways to consistently visualize the paddocks invasively and then and

non-invasively it would be great to be able to see that hepatic and intestine lymphatics cuz that's 80% of lymphatic flow so if we can find a way to image these under mr it could be a game-changer for a lot of diseases in

terms of lymphatic interventions Calla thorax interventions greater than 90% effective technical knowledge you know when I was a trainee was really centered to just a few major medical centers now it's defusing out to more places we've

certainly shown as a proof of concept the plastic bronchitis lymphatic flow disorders cattle societies and protein losing enteropathy are all treatable and we're getting emerging experience so don't be surprised if you start to see

more requests for this more patients at your centers these are uncommon disorders that's not to say that you still won't see them every once in a while the role of lymphatics in pathophysiology is still being studied

particularly in terms of heart failure transplant as well as in different cancers in the spread one of the cool stuff that we're looking at right now is actually sampling different lymphatic fluid in different areas of the body

trying to see how the different cancers may spread and/or possibilities in immunology immuno oncology thank you guys and just something I noticed a couple weeks ago in jeopardy clear body lymph continuing white blood cells body

fluid and you guys know what is limp that's your answer so thank you saying thank you to the avir committee and it's been a pleasure [Applause]

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

okay next up this I think this video yep

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

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

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

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

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

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

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

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

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

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

thanks everyone appreciate it [Applause] [Music]

so these are a lot of slides most limited you know I'm talking I'm talking to you guys I'm talking showing you a lot of technical stuff you know and a lot of slides and I'm gonna talk mostly technical of you know how tips and dips are done kind of a step by step so even

the title it's kind of a workshop step by step of how basically you do you do tips and dips and what and and what are they so in general when you have when you have this is basically kind of out flow spleen spleen dumps blood into the

portal vein the mesentery dumps blood into the portal vein portal vein goes into liver liver does its thing and then dumps the blood into the eppadi veins to the right atrium okay for that because the liver is connected with the spleen

and the guts in series unlike any other organ basically the liver has to be a low-resistance organ because the portal circulation is low-pressure look the liver has to be a low-resistance organ with liver disease especially liver

cirrhosis you actually get increased resistance and in the liver with that disease and you get basically a backup of the blood flow in the portal circulation and increases the pressure in the portal circulation that's kind of

the genesis of or the pathogenesis of portal hypertension backing up circulation the spleen and in the guts then you get ascites and hydra thorax that's kind of think of it as weeping of fluid into the pleural space and into

the and into the perineum part of it is oncotic part of is osmotic basically think of it nutritional and pressure driven causes at the same time we all have potential portosystemic connections in other words they're there but they're

not connected or they're not opened up in plumbing they hold them bleed valves or pressure valves when the pressure is high and you know they start weeping or leaking you know in your in your basements we have the same thing

we have so many portosystemic connections there are about 55 named ones there are innumerable ones that are actually that are actually not named the common ones that we know are because of because of bleeding is esophageal

varices that's the connection usually between the left gastric vein and the azekah can be hazardous system you can also get gastric varices and that's usually connecting between a spleen and the left renal vein through a gas renal

shunts you can get also all sorts of connections even down in the internal hemorrhoids we get actually portal hypertension hemorrhoids and bleeding and so many numerous other shunts that we just don't have time to cut to cover

it to cover all these so the general to the general thought of treating all these complications of portal hypertension is to decompress the system to reduce the pressure and that's along the lines of years and decades of

surgery shunts that were placed and now tips ism largely replaced all these surgical shunts with the exception of Vancouver and Tampa okay that they still do some surgical actually a lot of surgical shunts most most other places

in North America converge to a tip to a tip shunt the the advantage of the tips of over surgical shunts is the usual what we hear is minimally invasive it you know it's a quick recovery less morbidity and mortality areason for

white tips has beaten the surgical shunts is the transplant era all these surgical shunts are actually extrahepatic so when you go for a transplants and liver hits the buckets they actually have to go and shut down

these shunts wherever they created them steena renal portal cable in the tips it goes out with a liver in the bucket so there's no complication of transplantation that's the real advantage of tips over surgical shunts

and that's why it's become very very prevalent in in in North America with a transplant error when approaching gastric varices just briefly another way is a BRT Oh which is to go basically into the left renal vein go up the shunt

and specifically screw rows the stomach and that's not the that's not this kind of subject of our of our discussion here I'm gonna talk to you

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

people were thinking about the covered

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

thank you so much for inviting me and to speak at this session so I'm gonna share with you a save a disaster and a save hopefully my disclosures which aren't related so this is a 59 year old female she's lovely with a history of locally advanced pancreatic cancer back in 2016

and and she presented with biliary and gastric outlet obstructions so she underwent scenting so there was a free communication of the biliary system with the GI system she underwent chemo and radiation and actually did really well

and she presents to her local doctor in 2018 with ascites they tap the ascites that's benign and they'll do a workup and she just also happens to have n stage liver disease and cirrhosis due to alcohol abuse in her life so just very

unlucky very unfortunate and the request comes and it's for a paracentesis which you know pretty you know standard she has refractory ascites and because she has refractory ascites tips and this is a problem because the pointer doesn't

work because a her biliary system is in communication with the GI system right so there's lots of bugs sitting in the bile ducts because of all these stents that have opened up the bile duct to list to the duodenum and so you know

like any good individual I usually ask my colleagues you know there's way more smart people in the world than me and and and so I say well what should I do and and you know there was a very loud voice that said do not do a tips you

know there there's no way you should do a tips in this person maybe just put in a tunnel at drainage catheter and then there was well maybe you should do a tips but if you do a tips don't use a Viator don't use a covered stand use a

wall stunt a non-covered stunt because you could have the bacteria that live in the GI tract get on the the PTFE and and you get tip situs which is a disaster and then there was someone who said well you should do a bowel prep you

like make her life miserable and you know give her lots of antibiotics and then you should do a tips and then it's like well what kind of tips and they're like I don't know maybe you should do a covered said no not a covered tonight

and then they're you know and then there was there was a other voice that said just do a tips you know just do the damn tips and go for it so I did it would you know very nice anatomy tips was placed she did well

the next day she has fevers and and her blood cultures come back positive right and you can see in the circle that there's a little bit of low density around the tips in the liver and so they put her on IV antibiotics and then they

got an ultrasound a week later and the tips that occluded and then they got a CT just to prove that the ultrasound actually worked so this really hurt my gosh to rub it in just to rub it in just just to confirm that your tips occlude

it and so you know I feel not so great about myself and particularly because I work in an institution that defined tip seclusion was one of the first people so gene Laberge is one of my colleagues back in the day demonstrated Y tips

occludes and one of the reasons is because it's in communication with the biliary system so bile is very toxic actually and when it gets into the the lining of the tips it causes a thrombosis and when they would go and

open these up they would see green mile or biome components in the in the thrombus so I felt particularly bad and so and then I went back and I looked and I was like you know what the tips is short but it's not short in the way that

it usually is usually it's short at the top and they people don't extend it to the to the outflow of the hepatic vein here I hadn't extended it fully in and it was probably in communication with a bile duct which was also you know living

with lots of bacteria which is why she got you know bacteremia so just because we want to do more imaging cuz you know god forbid you know you got the ultrasound of her they because she was back to remake and

you know that and potentially subject they got an echo just to make sure that she doesn't have endocarditis and they find out that she has a small p fo so what happens when you have a thrombosed tips you go back in there and you do a

tips or vision you line it with a beautiful new stent that you put in appropriately but would you do that when the patient has a shunt going from one side of the heart to the other so going from the right to the left so sort of

similar to that case right and so what do we do so I you know certainly not the smartest person in the room we've demonstrated that so I go and I asked my colleagues and so the loud voice of saying you know I told you this is why

we don't practice this kind of medicine and then there was someone who said why don't we anticoagulate her and I was like are you kidding me like you know do you think a little lovenox is gonna cure this and then the same person who said

we should do a tunnel dialysis tile the tunnel drainage catheter or like a polar X was like how about a poor X in here like thanks man we're kind of late for that what about thrombolysis and then you

know the most important WWJ be deed you guys are you familiar with that no what would Jim Benenati do that's that's that's the most important thing right so so of course you know I called Miami he's you know in a but in a big case you

know comes and helps me out and and I'm like what do I do and you know he's like just just go for it you know I mean there are thirty percent of the people that we see in the world have a efo it's very small and it probably doesn't do

anything but you know I got to tell you I was really nervous I went and I talked to miner our colleagues I made sure that the best guy who was you know available for stroke would be around in case I were to shower emboli I don't even know

what he would do I mean maybe take her and you know thrombolysis you know her like MCA or something I don't know I just wanted him to be around it just made me feel good and then I talked to another one of my favorite advisors

buland Arslan who who also was at UVA and he said why don't you instead of just going in there and mucking around with this clot especially because you have this shunt why don't you just thrown belay sit and then you

know and then see what happens and so here I brought her down EKOS catheter and I dripped a TPA for 24 hours and you know I made her do this with local I didn't give her any sedation because I wanted and it's not so painful and I

just wanted her to be awake so I could make sure that she isn't you took an intervention location you turned it into internal medicine I I did work you know that's that's you know I care right you know we're clinicians and so she was

fine she was very appreciative I had a penumbra the the the Indigo system around the next day in case I needed to go and do some aspiration thrombectomy and what do you know you know the next day it all opened up and you can still

see that the tips is short the uncovered portion which is which is you know past the ring I'm sorry that which is below the ring into the portal vein is not seated well so that was my error and and there was a little bit of clot there so

what I ended up doing is I ended up balloon dilating it placing another Viator and extending it into the portal vein so it's covered so she did very

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