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Aortic Dissection (Type B), Renal Hypoperfusion | Medical Management | 64 | Male
Aortic Dissection (Type B), Renal Hypoperfusion | Medical Management | 64 | Male
2016abdominalaorticarterycollapsedissectiondistalexpandingfalseinterveneleftlumenmesentericprimaryproximalrenalSIRstentsupplyingteamtearterminationtreattrue
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
Case 11b: Embolizing a Pseudoaneurysm of the Brachiocephalic Artery | Emoblization: Bleeding and Trauma
Case 11b: Embolizing a Pseudoaneurysm of the Brachiocephalic Artery | Emoblization: Bleeding and Trauma
angiogramarterybrachiocephaliccatheterchapterclickcoilcoilsembolizationmicromicrocatheterNonepseudoaneurysmPseudoaneurysm brachiocephalic arterystenttrachea
Treatment Options- Carotid Artery Stenting (CAS) | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- Carotid Artery Stenting (CAS) | Carotid Interventions: CAE, CAS, & TCAR
antiplateletarterybraincarotidchapterdualembolicmedicareplavixprocedureprotectionproximalstenosisstentstentingtherapy
Carotid Artery Stenting- Case | Carotid Interventions: CAE, CAS, & TCAR
Carotid Artery Stenting- Case | Carotid Interventions: CAE, CAS, & TCAR
angioplastyarteryballoonballoonsbut want left carotid artery lesion stented firstcarotidcarotid arterychaptercommonCoronary bypass graftdistalECA balloonendarterectomyexternalexternal carotidimageinflatelesionosisproximalproximallystentstentingsurgicallyultimately
Complications & Pitfalls | TIPS & DIPS: State of the Art
Complications & Pitfalls | TIPS & DIPS: State of the Art
accessarteryballoonbranchchapterclinicallydeepdefectgramhepaticimagesliverneedleocclusiveperfusionportaportalsegmentalsegmentsstentthrombosestipstracttypicalveinvenous
Case 2: Upper GI Bleed | Emoblization: Bleeding and Trauma
Case 2: Upper GI Bleed | Emoblization: Bleeding and Trauma
abnormalangiogramarteryaxisbleedingbleedsbloodcatheterceliacchaptercoilscontrastembolizationembolizeendoscopyesophagusFistulagastroduodenalhemoptysishepaticmalformationsmesentericNoneportalsuperiortipsupperUpper GI Bleedvaricesvenousvesselvesselsvomiting
Education Strategies to Reduce Human Errors | Looking for risk in all the Right Places: The Anatomy of Errors in Healthcare
Education Strategies to Reduce Human Errors | Looking for risk in all the Right Places: The Anatomy of Errors in Healthcare
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Case 1 - Non-healing heel wound, Rutherford Cat. 5, previous stroke | Recanalization, Atherectomy | Complex Above Knee Cases with Re-entry Devices and Techniques
Case 1 - Non-healing heel wound, Rutherford Cat. 5, previous stroke | Recanalization, Atherectomy | Complex Above Knee Cases with Re-entry Devices and Techniques
abnormalangioangioplastyarteryAsahiaspectBARDBoston Scientificcatheterchaptercommoncommon femoralcontralateralcritical limb ischemiacrossCROSSER CTO recanalization catheterCSICTO wiresdevicediseasedoppleressentiallyfemoralflowglidewiregramhawk oneHawkoneheeliliacimagingkneelateralleftluminalMedtronicmicromonophasicmultimultiphasicocclusionocclusionsoriginpatientsplaqueposteriorproximalpulserecanalizationrestoredtandemtibialtypicallyViance crossing catheterVictory™ Guidewirewaveformswirewireswoundwounds
Work-up for PAE | Nursing Management in Prostate Artery Embolization
Work-up for PAE | Nursing Management in Prostate Artery Embolization
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Case 9: Embolizing a Pseudoaneurysm Rrising from the Branch of the Inferior Epigastric Artery | Emoblization: Bleeding and Trauma
Case 9: Embolizing a Pseudoaneurysm Rrising from the Branch of the Inferior Epigastric Artery | Emoblization: Bleeding and Trauma
abdominalafibangiogramangiographyanteriorarterybruisingchaptercoilembolizationepigastrichematomainferiormicrocatheterNonepatientpseudoaneurysmPseudoaneurysm arising from the branch of the inferior epigastric arterywall
Diagnostic Criteria for CTEPH | Management of Patients with Acute & Chronic PE
Diagnostic Criteria for CTEPH | Management of Patients with Acute & Chronic PE
angiogramangiographyarterialarteriesarterycapillarycatheterchapterclassificationcurativediseasedistalflushlobesmanagementmedicationNonepatientpatientspressureproximalpulmonarysegmentalsheathstenosissurgeonsurgicalthrombustreatedtypevesselswebswedge
Case 8: Retroperitoneal Hematoma- Cover Stent | Emoblization: Bleeding and Trauma
Case 8: Retroperitoneal Hematoma- Cover Stent | Emoblization: Bleeding and Trauma
angiogramarteryaxialbleedcatheterizationchaptercontrastcoronalCoverage StentembolizationembolizehematomailiaciliacsimageinjuryNoneoptionpatientpseudoaneurysmRetroperitoneal hematomastentstents
Vascular Disease | CLI: Cause and Diagnosis
Vascular Disease | CLI: Cause and Diagnosis
arterycardiovascularchaptercoronarydeathdiseaseextremityperipheralstentvascular
Treatment Options- CAS- Embolic Protection Device (EPD)- Proximal Protection | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- CAS- Embolic Protection Device (EPD)- Proximal Protection | Carotid Interventions: CAE, CAS, & TCAR
angioplastyantegradearteryaspirateballoonballoonsbloodcarotidcarotid arterychaptercirclecirculationclampclampingcolumncommoncontralateralcrossdebrisdeflatedevicedevicesdilateddistaldistallyexternalexternal carotidfilterflowincompleteinflateinflatedinternalinternal carotidlesionmarkerspatientpressureproximalretrogradesheathstentstepwisesyringesyringestoleratevesselwilliswire
Treatment Options- Carotid Endarterectomy (CEA) | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- Carotid Endarterectomy (CEA) | Carotid Interventions: CAE, CAS, & TCAR
anesthesiaanestheticarterycarotidcarotid arterychapterclotcomparingdistallyexternalexternal carotidflowincisioninternalinternal carotidissuelongitudinalloopsmedicalpatientpatientsplaqueproximalstenosisstenoticstentstentingstrokesurgerytherapyultimatelyvascularvesselwound
Treatment Options- Medical Management | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- Medical Management | Carotid Interventions: CAE, CAS, & TCAR
aggressiveantiplateletarteryaspirincarotidcarotid arterychapterembolizeendarterectomyincisionmanagementmedicalplaqueplavixstatinstatinsstentstentingtherapyultimately
Intra Procedure | Transforming from Clinical IR to Clinical Trials with Tirapazamine (TPZ)
Intra Procedure | Transforming from Clinical IR to Clinical Trials with Tirapazamine (TPZ)
anesthesiaangiographyartifactassistedbeamchaptercombconedrawsekgelisaembolizationequipmenthcchepatocellularimaginginjectioninterventionalintraoperativemedicalNonenurseoximetrypatientphotopositioningprotectedradiologysedationspecialtiesspecialtystopcocksyringetechnologisttomographytumor
TEVAR Case | TEVAR w/ Laser Fenestration of Intimal Dissection Flap
TEVAR Case | TEVAR w/ Laser Fenestration of Intimal Dissection Flap
20 Fr Dryseal7 Fr Aptus TourGuide sheath8 Fr IVUSaccessangioplastyaortaarrowarteryballoonbasicallybrachialceliacchapterdeploydissectionfenestratedflapgraftgroinimagelaserleftlooplumenoriginpatientreentrysagittalsheathSignificant Growth of Descending Thoracic AortasnarestentsubclaviantearTEVARwire
TIPS: Techniques- Stent Grafts | TIPS & DIPS: State of the Art
TIPS: Techniques- Stent Grafts | TIPS & DIPS: State of the Art
advantagesarteryaspirateballoonbarebasicallybilecentimeterchaptercontrastcovereddilatedisadvantagedisadvantagesdistalexpandingflowgaugegorehepaticinjectinjectingkitsleaksmultipleneedlepasspassesphysiciansportalportionposteriorproximalpullpushradiologistssalinesheathstentssystemveinvenous
Case 11: Bleeding Tracheostomy Site | Emoblization: Bleeding and Trauma
Case 11: Bleeding Tracheostomy Site | Emoblization: Bleeding and Trauma
aneurysmsangiogramarterybleedingBleeding from the tracheostomy siteblowoutcancercarotidcarotid arterychaptercontrastCoverage StentembolizationimageNonepatientposteriorpseudoaneurysmsagittalscreenstent
Case Example | Management of Patients with Acute & Chronic PE
Case Example | Management of Patients with Acute & Chronic PE
acuityafibangiogramanticoagulationarterycatheterchapterclotCTEPHdistallyDVTimagesincisionleftlobelowerNoneoperationpatientspressurespulmonarypulmonary arterysegmentalstenosisthrombusuppervessels
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
angiographyangioplastyarterybleedbloodcalcifiedcarotidchapterclaviclecommondebrisdevicedistalembolicembolizationexposurefemoralflowimageincisioninstitutionlabeledpatientprocedureprofileproximalreversalreversesheathstenosisstentstentingstepwisesurgicalsuturedsystemultimatelyveinvenousvessel
General Screening Criteria (specific to bleeding risk) | Risk Mitigation: Periprocedural Screening and Anticoagulation Guidelines to Reduce Interventional Radiology Bleeding Risks
General Screening Criteria (specific to bleeding risk) | Risk Mitigation: Periprocedural Screening and Anticoagulation Guidelines to Reduce Interventional Radiology Bleeding Risks
acuityalertanticoagulantanticoagulationbiopsybleedingcardiacchapterchartdysfunctionhematologicalhistoryhypertensivelivermedicationsNonepatientpatientsplavixprocedureprovidersradiologistsriskstablestentthrombocytopenia
Malignant Biliary Strictures | Biliary Intervention
Malignant Biliary Strictures | Biliary Intervention
adventBARDcancerceliaccenterschaptercolorectalcookCordiscoveredcysticdataductextremelyfavorfavorablegoregrammalignantMeditechMemothermmetalmetastaticmultipleocclusiononcologyovergrowthpatientsperioperativeportalSmartStentstainsstentstentsstricturestumorunresectablewallstentZilver Stent
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
activeaneurysmangiogramanteriorarterycatheterchaptercoilcontrastcoronalctasembolizationembolizeembolizedflowgastroduodenalhematomaimageimagingmesentericmicrocatheterNonepathologypatientperitonealPeritoneal hematomapseudoaneurysmvesselvesselsvisceral
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
arterycatheterizecausingchapterclassiccliniccommoncommon iliaccompressioncongestionendovascularevidenceextremitygonadalhugeiliaciliac veinimagingincompetenceincompetentMay Thurner Syndromeobstructionoccludedpelvicpressuresecondarystentsymptomstreatmentsvalvularvaricositiesvaricosityveinveinsvenavenous
Treatment Options- CAS- Embolic Protection Device (EPD)- Distal Protection | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- CAS- Embolic Protection Device (EPD)- Distal Protection | Carotid Interventions: CAE, CAS, & TCAR
arteriesarteryaspirateballoonbasketbloodbraincapturecarotidcarotid arterycerebralchapterclinicaldebrisdevicedistaldistallyembolicfilterfiltersflowincompleteinternalinternal carotidlesionlesionsoversizeparticlespatientperfectphenomenonplaqueprotectedprotectionproximalsheathstenosisstentstentingstrokestrokesthrombustinyultimatelyvesselwire
Case 3b: Splenic Laceration | Emoblization: Bleeding and Trauma
Case 3b: Splenic Laceration | Emoblization: Bleeding and Trauma
angiogramarteriesarterychaptercoilsdelayedembolizationgastrichealhemodynamicallyinjurylacerationNonepictureproximalreconstitutionrupturespleensplenicSplenic Lacerationvessels
Geniculate Artery Embolization - Frozen Shoulder | Geniculate Artery Embolization for Arthritic Pain Why How & Results
Geniculate Artery Embolization - Frozen Shoulder | Geniculate Artery Embolization for Arthritic Pain Why How & Results
anatomyangiogramanteriorarteriesarterycapsulecatheterceliacchallengeschaptercircumflexdiseaseembolizationfrozenhyperimageinflammatoryinvestigationaljapankneeliningorthopedicpainpatientpatientsprostateradialshoulderstudysurgeontextbookvascularvascularityvessels
Case 4a: Renal Trauma | Emoblization: Bleeding and Trauma
Case 4a: Renal Trauma | Emoblization: Bleeding and Trauma
angioangiogramangiographyarteriovenouscenterschaptercoilscontrastembolizationembolizeembolizedextravasationFistulagradehematomahemodynamicallyimageinjurieskidneyNoneparenchymapatientspenetratingpictureposteriorrenalRenal Traumaretroperitoneumscanspleensurgicallytrauma
Transcript

So I wanted to present this vignette. This was a recent presentation presented last month to

the emergency department at MUSC. 64 year old, classic South Carolinian, smoker, hypertension, hyperlipidemia, a little bit overweight. He was raking leaves in his backyard. He had this unknown sort of chest pain,

came to the ED about nine hours later. You can see he was significantly hypertensive on admission. He didn't have any real prior history. He had some renal stone and at a prior CT of the abdomen. Probably this

wasn't really contributory. So he got a CTA. They place him on impulse control beta blockers, and he did experience some abdominal discomfort as his blood pressure dropped. And then the primary team kinda permitted a bit of hypertension, kept his systolics in the 150s. His chest pain improved,

his abdominal pain did improve. Of note, his creatinine bumps peaked at 2.4 the day after he was admitted. It plateaued around 1.7 from a baseline of 1.5. We obtained this

CTA. It showed a type B dissection with the Primary Entry tear diastal to the subclavian artery and some pretty significant compression of the true lumen, mesenteric vessels arising from the true lumen and extending down to the left common iliac. Maybe if you saw it quickly I'll show you another picture.

There was evidence of hypoperfusion of the left kidney there with the left renal artery arising from that false lumen. And so we were consulted by the primary team and had multiple discussions with the primary team and in the end we certainly wanted to intervene. In the end the primary team decided

that medical management was the way they wanted to manage this. I just kinda wanted to use that as a talking point, and see I think a lot of people would have wanted to intervene on that case and maybe just here some. [BLANK_AUDIO]

>> Who would have elected to treat this patient? Okay, so Mike I see you're raising your hand. So, how would you approach this? Would you treat the entry tear? >> Could we go back a slide?

>> Nope, the renal arteries. There. The way I interpret this, and again it's one slide so, I could easily be wrong. But you see about two centimeters out in the renal artery there's a line,

a linear thing. And if you look closely the renal artery proximal to that line is a little less dense than the renal distal to that line. How do we interpret that? That's the end of the dissection.

Dissection goes into the left renal artery, that's where it stops. So everything distal to that line is true lumen, but everything proximal to that line is a mixture of true and false lumen. Now I can't tell you cause it's axial which lumen I'm seeing.

I assume it's the false. But clearly, what has to happen to have that hypoperfusion, is that somehow, there's not an adequate distal tear in that false lumen in the left renal artery to allow true double barrel flow. Now, it's hypoperfused.

Could this weird be timing? Could it be really not? Well, I don't know but it obviously deserves surveillance, or at the very least, surveillance, I should say.

But I'm very worried about that. So, if I was worried about that, I think what I would do in this case is probably use a stent graft. And that may or may not be sufficient to help that kidney So you're obligated,

of course to then, just because you put a stent graft remote to this abdominal branch vessel that seems to be compromised, it doesn't mean that that is gonna correct it. You have to go down and make sure that you've got a result that's desired or else you have to put a stent from the true lumen of the aorta into the true lumen of the renal artery distal to

where the end of the termination of the dissection is. So It's one of those things that, this is a branch problem more than an aortic problem in my mind. I've sort of changed my thinking just within the last three months. I was really into this idea that, this I think we would call complicated. I'm not so worried about the true lumen collapse.

I don't really think that's severe in my eye. You know, we used to think of what are the high risk factors in "uncomplicated type B" , which this isn't. And if I could demonstrate that the guy's at risk for dilating late, we'd probably go ahead and treat him,

sub-acutely in about three weeks to a month. But now, I'm sort of switching like a lot of people are in Europe are, to thinking, look, that's an exercise in futility. You should just probably, at this day and age,

just treat them unless anatomically, they have some feature that makes them potentially complicated to treat. Like a gothic arch, like a knuckle that's used to make it easier anatomically to put the stent graft. Some feature that might portend retrograde Type A dissection.

But so not in the hyperacute phase but in the less phase. Now, so in this guy, I'm worried about the kidney. I'd love to see what the follow-up shows. It's not to say that things can't change. I just can't tell on this one image if this is just false lumen

delayed filling or not. And so I'll stop there. >> Yes audience? >> [INAUDIBLE] >> We would tend to do if we really think there's

ischemia in that branch that doesn't resolve resolve with the aortic intervention. We go ahead and treat it whether it's a mesenteric or renal, whatever, we just treat it the same. How do I treat it?

Well, I use self-expanding stents. I don't use balloon expandable stents, because I'm afraid there might be clot in that cul-de-sac of false lumen that I might toothpaste out. So I'll just put a self expanding stent, again expanding distally

beyond beyond that and termination of the dissection and proximally, into the true lumen and just let the self-expanding quality just open up with time. Which it will do. It never kinks or anything. And just my bias.

So lots of people can do it anyway, you might put a stent graft, you might do anything you know. But this to me has the appearance of not just being the false lumen supplying the left kidney,

but rather true and false supplying the left kidney. [BLANK_AUDIO] >> So he was managed medically. We did not intervene on him.

He did discharge a couple of days later. Came back next day with some abdominal distension and shortness of breath. Repeat CTA didn't show any significant change in the appearances we saw earlier. I did diagnose him with heart failure at that time.

Kinda treated him for another three days as a CHF exacerbation and then discharged. Again we were kind of consulted and offered to intervene a second time and they declined our offer. Just didn't know if the re-admission would that make you rethink,

if you elected to go medical management would his representation change your decision to intervene then? Or would you continue to manage medically? >> Any input from the audience? Nothing, we're told, we don't know.

We're told that nothing is changed on the CT came back in and there was evidence of heart failure that was treated. So with this, readmission makes you more prone to wanna be more aggressive in advocating or lobbying for intervention? >> [INAUDIBLE]

>> Systolic was in the 150s at that time, it wasn't as high as on admission. >> Yes Zack. >> Original >> [INAUDIBLE]

[BLANK_AUDIO] Yes absolutely. Absolutely. And if our interpretation is right, which I'm not saying if, let's just say given that our interpretation is right then just stenting the renal artery would be fine in this case, from true to true.

Now if this guy had looked worse in terms of true lumen collapse at CT in three days, what would be going through your mind? What would be going through my mind is the primary tear is extended. It's a bigger primary tearnow which is really then provoking worse true lumen collapse in what we saw. Cause the true lumen collapse quote-unquote, true lumen collapse we saw in the first CT to

me it was not an indication to treat anything. But if you were to come back now and you do a CT and the true lumen is really a crescent wafer-thin thing, why would that happen? Well that happens because the primary tear is now extended. It's bigger. >> Okay.

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

here's another patient 62 year old male

patient just a similar case who had head in that cancer again after radiation therapy who experienced some bright red blood while coughing all right here's the CT scan and what I want to draw your attention to a little tough to see I

think I'll let me go up up here point it out with a mouse well I don't have a mouse so I guess not is basically you can see right in the middle of the two lungs kind of right in front of the trachea which is the black

circle alright just go right in front of that up to the top you can see the round white circle which is the brachiocephalic artery and just projecting off the back of that is another little kind of outpouching of

contrast a little nipple coming off of of the brachiocephalic artery that doesn't belong there all right here's the angiogram and it's a little difficult to see but there is a see if I can describe it better to you alright I

think this is actually a video so I'm sorry I don't know the ability to run it unless you can click on it can you guys click on the back up so if you want to look at it again you see the angiogram kind of running and just at the origin

of the brachiocephalic artery which is the first branch of the aortic arch you can see that outpouching of contrasts coming right to the right of that vessel that's a pseudoaneurysm and again we went through the same thought process we

said you know I want to put a covered stent across that but my problem was that we didn't just have the right size that would not block one of the carotid arteries and not extend too far into the aorta so we had no choice but to

consider embolization in this particular case so here's what we did here we actually put a micro catheter if you can just click I think that's a video to the left no I guess not you know what it's okay

what we did for this particular case was we went in from the arm and we put a micro catheter directly into that pseudoaneurysm because we couldn't feel we didn't feel we could put a stent across it so we put the micro catheter

in there we started to put some coils and it actually went further than we thought outside of the artery and here's the post image so you can see our final image you can see the coils that are sitting just adjacent to the

brachiocephalic artery and we preserved good flow there to end this basically

there a better option this is where a carotid artery stenting was developed over a couple decades ago and this is a

less invasive viable option for treating carotid artery stenosis it was generally started off as a trends ephemeral approach but I'll show you what the new approach is that many of us are involved in it involves the use of

in volunteer tection so it's one of the unique vascular territories where embolic protection is required if you're gonna get Medicare reimbursement for this you have to involvement and bollocky protection if you do without

you can do the procedure but you won't get it you won't get reimbursed and ultimately it's it was proven to show much better outcomes if you use involved protection because even doing the procedure and trying to place the stent

there is some small embolic degree that that that shuttles off and if it happens in the foot you may or may not lose a toe but if it happens in the brain you're gonna lose brain cells and it's gonna be potentially catastrophic so

significant adjunct to the stenting procedure is doing embolic protection and there's two types of embolic protection there's distal and there's proximal I'll walk through each of those with some diagrams here and then anyone

that gets a carotid stent has to be on dual antiplatelet therapy so if they have an allergy they're unable to be on aspirin and plavix they don't get a stent because there's early stent thrombosis that can't occur in these

patients if they don't have that dual antiplatelet therapy so let's go through

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

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

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

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

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

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

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

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

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

right now here's a different case is a 49 year old male who presented to the emergency department after vomiting a lot of blood vomiting was the key word there it's going the other direction so that's an upper GI bleed all right and

when we talk about upper GI bleeds there's a lot of different causes for upper GI bleeds the most common are ulcers but there's mallory-weiss tears of the esophagus there's just esophagitis or gastritis

there's different cancer vascular malformations fistula is varices which I'm not going to talk about but varices on the venous side in a patient with portal hypertension these are all causes of upper GI bleeding now

once again we might treat them medically we might look at them with endoscopy and potentially cauterize something embolization usually is used when and when endoscopy is not successful all right or certainly surgery but an upper

GI bleeds embolization is a lot more attractive of an option all right so here's another picture what do you think you up for it nope you turned me down all right who wants to who wants to tell me what they see how about you how about

you guys you can team up together what do you think so what do you seeing so let's look at that together so this is a seal EF is an anagram of the celiac axis you want to think it through you want to volunteer you see a filter we don't care

about that yeah all right that's fair so you see the catheter going up right in the middle and it's going right into the celiac axis all right what I want to draw your attention to is right in the middle of the screen a little bit over

to the left is again a blobby thing all right that's extravagant of contrast and the vessel that that's coming off of is the gastroduodenal artery so I want you to see that if you look at the catheter you

can see the shadow of the catheter right up going up from the bottom that's going into the celiac axis and the big vessel going over to the left side of the screen is the proper hepatic artery that the common hepatic artery excuse me and

the first vessel heading south from there is the gastroduodenal artery that blood vessel is supplying the end of the stomach and the beginning of the small intestine and what you see is the extravagant coming off now what it's

very important if you're dealing with bleeding patients whether it's in dusky whether it's hemoptysis or GI bleeding anything like that we're looking for that type of blob appearance which just mean the contrast is no longer

constrained by the artery it's free into space okay usually the way we were built is that the blood vessels the biggest they ever are near the heart as they leave the heart they get progressively smaller until they reach

the tips of your fingers and the tips of your toes if there's any place that you see where it gets big small then big again that's not normal okay that's not normal and now we just got to figure out what's

the abnormal part is it the small part or the big part all right in this particular case it's that big blob that's big it doesn't belong there all right but in the upper GI system there's lots of collateral vessels so we can

just go in and we can put coils right in the gastroduodenal artery and we can embolize that and we can do it safely because we know that there is alternative routes for blood to flow now the one thing we have to do here and

this is an important concept for any abnormal bleeding whether it's trauma or other causes is we always look for the backdoor so in this particular patient we did an angiogram of the superior mesenteric artery there's another vessel

going to the intestines and it's nice cuz we have the coils there you can get a sense that it's possible for blood to flow from a branch of the superior mesenteric artery backwards into the GDA and so we just want to make sure that

that's not happening because we can do the best job ever with an embolization procedure but if we don't get the front door and the back door we're gonna fail patients will come back with recurrent bleeding and at least in my experience

that's a big reason why people do come back so we think we do a great job in two or three days later people come back with abnormal bleeding it's weak because we didn't address both sides of the pathology all right so here's another

strategies so some things that we have

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

so we're just gonna like hop over to the clinic side and kind of discuss how we work up or what are the things we look for when we see the patients in clinic

so a lot of patients are referred to us by urologist so we have to have a urology on board to to better take care of this patient we can't treat this patient you know by ourselves so a lot of patients are referred to us by our

neurology team if they don't have a urologist we have to refer to them to erosions first before we can even work them up or PAE so we won't make sure that patient you know doesn't have any underlying cancer that we know of so we

want to make sure that we check their PSA levels because this high high patient can ask actually I predict a decent progression and actually our risk for acute urinary retention you want to make sure that you get

urinalysis a lot of patience wet with lots is not only due to pph you could also be secondary to UTI or if patient has some type of bladder tumor or bladder disorder so it's kind of good to know to understand some of the lingo

that urology uses so once they see the urologist they do some your dynamic studies and one of the popular ones are these non-invasive studies called euro flama tree and the post-void residual do you offer the Euro excuse me you heard

from a tree usually we will measure the flow rate and the volume of the patients so what they do is they they would pee in this special funnel and the final obviously they go in private but this final is connected to some machine that

can actually measures how fast and how much their voiding and so normally it's about 25 miles per second but if it's anywhere less than 13 to 15 it can suggest obstruction and use the obstructions usually due to BPH some of

us a very low flow rate such as like say less than ten or six you have you want to be a suspicious of some type of you to neutral structure after they do that usually what they'll do is they take a post void residual is basically scan so

they'll put that little probe above the bladder and they'll see how much is left in a bladder if it's 150 that she usually indicates in complete emptying someone who has greater than 200 that may suggest patients having some type of

bladder dysfunction so a lot of its patients to us at least woke up with some type of imaging and the ones that at least our physician selects is the MRI patient do get a CT angiogram which can also evaluate the pelvic Anatomy and

arteries however the process the mr process actually gives a better illustration of the prostate a tissue to see if there's any suspicious for cancer for example you can also display the president atomy and characteristic up

the gland so most patients do get MRI or at least we get them to get MRI to measure the actual volume in literature they will tell you that a patient can get a trance rectal ultrasound but I'm not sure how many

guys in here would like a probe stuck up their butt to get to get their prostate measured so unless you wanted to get pissed at you just supporter I am right so when we see the patient you obviously want to review their HMP more

importantly you'll want to check their comorbidities there's social history whether it is smoke or not because they're gonna that's gonna have an impact on how we stay patients and how you can predict their anatomies

obviously someone's died who is diabetic or who has a history of smoking you could expect for them to have a greater degree of atherosclerosis and again the first thing that we would get the patient why we walked in is we go in

that scoresheet the IPSS score and so that's gonna give us an idea of how bad this symptoms are so if they come in to us with a score of say you know they're mildly symptomatic I'm not sure how much to pee a procedure with would help them

because how much more lower can we get their scores down so a lot of patients we would treat are in the moderate to severe category and their quality of life score should be for the most part will be about three or higher you also

want to make sure the trusted results since this is Andrew Graham procedures you will make sure that they have a pretty decent renal function patients with lots a lot of them may have some degree of renal insufficiency so we have

to be careful make sure we watch that lab value so this is some of the screening criteria that a lot of us may use so patients who I have refractory to medications for the six months someone has a high IPSS core grain 13 or

qualifies score greater than three process volumes gotta be at least 40 grams we sometimes get patients with a high score but they're positive volumes around 30 we usually usually wouldn't treat those

patient because we can't basically treat or shrink the prostate any any lower than that you someone who has an abnormal urine Flo and someone who maybe refractor to medical therapy these are just a list of

exclusion criteria the ones that should my party set out someone who has prostatitis or current approximate infection you definitely want don't want to treat those patients chronic renal failure and relatively maybe coagulation

factors that could be patient dependent sometime sometimes we could optimize them to get this arteriogram procedure and prostate and bladder malignancy also this somewhat also relative we do treat patients with prostate cancer it just

depends on what course of treatment they're on currently so once we had screen the patients and and deemed them to be a candidate we reviewed the patient we review in detail the procedure with the patient so you want

to let them know that it's a our angiogram procedure that will go through the either the growing or sometimes the radio and the procedure itself you can take anywhere from one for one to four hours and sometimes longer depending on

how complicated their arteries feeding the prosthetist more importantly we want to educate them about the side effects okay we have to let them know that a lot of their symptoms might actually worsen during the first few days after the

procedure so if they have the Syria now urinary continence they actually may get really worse especially for the first few days okay we have to go over the complication with the patients that can include a public infection ischemia or

any vessel related complications that pseudoaneurysm or bleeding so we have to basically have a basic knowledge of how do we combat this side effects and these are just some of the list of side effects that

are mentioning or at least we also used a PI radium it helps I guess to numb up the prostate urethra we have to educate the patient that this can change the color of the urine so we always make a note to our patients that if you are

going to take this medication please call us that way we don't kind of shock you and we also know that the change of color is from the pair radium and not from anything else the tripping or oxybutynin

it helps reduce bladder spasm we would normally use it for a patient who go somewhere to Foley our patients would go some Foley tends to have a great degree of bladder spasm Coley's a lot of spatially get constipated for multiple

reasons being better that or they and she is soft and there's also the over-the-counter azem so this is just a sum of the standard medications that we would give all our patients all of them will get about cipro for seven days

we'll give them some type of anti-inflammatory Asia usually is ibuprofen were prescribed 800 a tid if needed anti-acids since it's just to protect your belly or their stomach from the ibuprofen minimum we'll get a stool

softener at least for the first three days or if they got developed loose toast and we would ask them to stop it and the medications for pain that we would get them as Norco just in case and I would say like more than half these

patients don't even need Norco at best they'll probably use ibuprofen you know just to minimize the inflammatory side effects that I get it also helps out with post embolization that sometimes we'll get and I believe so I don't I'm

not sure if I'm messing about post embolization syndrome patient do can get these symptoms and a lot of symptoms can vary they can get some body slug or fever malaise and the degree the symptoms were may bear from patient to

patient and a lot of symptoms are described kind of like a flu-like symptoms and we also want to reiterate a patient that the symptoms are temporary and it should get better over to at least at first week or so so patients on

warfarin we have a lot of patients on warfarin for whatever reason whether they had a recent cardiac intervention we want to assure that we stop those medications at least before the edge ground procedure so it's very important

that you have a good rapport or whoever and have prescribed him the coumadin whether it's a cardiologist or the surgical team and a lot of dissipation may need to be crossover outside like a short-acting

anticoagulation such as Lobo Knox at least in our practice we ask the patient to this condition discontinue your aspirin unless they're you know they have a recent cardiac intervention we may leave it leave them

on aspirin metformin as very important since we did it is a natural procedure we want to at least hold have the patient hold the metformin the morning of the procedure and maybe a couple of days after and someone who are

allergic to contrasts we will make sure that we're prepared to premedicate a patient and also be prepared in case there's a severe reaction and the pre medication as we know will give them some type of a standard metal prednisone

will they'll take it like twelve seven or one hour before and they also gets unbearable and preoperatively or one hour before the procedure and during the clinic we also determine the level of anesthesia so since this procedure

usually takes a long time we always get it with our anesthesia team is just more for patient comfort it's not really for pain okay I couldn't imagine laying a table for several hours at the time so we all shop anesthesia on board just

really for patient comfort so we're just

60s year old patient with afib who fell and presented with abdominal pain and bruising in their anterior abdominal

wall for whatever reason we see a lot of these patients who come in with kind of bruising after they fall on their abdomen here you can see why hopefully you can see the big hematoma and the anterior abdominal wall so you can

imagine what this patient look like they have this kind of you know ball sized thing under their abdominal wall all right here's our angiogram in this particular case we went into the inferior epigastric artery which kind of

runs up from the pelvis up along the anterior abdominal wall you can see how small it is we were able to get a micro catheter in there and just in the middle just to the left of the middle of the picture you can see that kind of black

your circle that's again a pseudoaneurysm arising from the branch of the inferior epigastric artery and boom we can go in and coil it all right so that's what that looks like so now all of you kind of maybe I used to

sitting in the background we'll know when you're getting called in for these patients this is the type of pathology that we're looking at on CT and on angiography all right another patient 68 year old

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

problem so first of all as you know all vascular disease is related in other words coronary artery disease is related

to cerebral vascular disease is related to lower extremity or peripheral artery disease they're all intertwined okay that's why a lot of our patients that we see for peripheral t disease have a sternotomy score or a coronary stent or

have had strokes I will remind you that cardiovascular disease is the number one cause of death in the u.s. for both men and women to this day we still hear vascular disease is an old man's disease that is BS it is the number one cause of

death in women in the United States

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

it's obviously either done with general

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

here are the treatment options and I did want to include a fourth one it says nothing about the intervention per se but it's medical management which was actually had the significant growth over the last decade and really more

aggressive medical management every treatment below this should have medical management included as part of it so I included that first that's critical if you're gonna have a carotid endarterectomy if that's what ultimately

your your physician decides then you should still have medical management before and after carotid artery stenting and then ultimately trans carotid artery stenting so carotid endarterectomy I'll show you a case example but this is a

diagram illustrating what's ultimately done that longitudinal incision and then removal of that plaque this is what the plaque looks like when it comes out as opposed to carotid artery stenting which is less invasive obviously and we place

a stent but we don't actually remove the plaque overall you know you know we can talk about why that's okay in fact the plaque itself doesn't need to come up what we need to improve the flow and stabilize that plaque from being able to

embolize small clot overall medical therapy is really just these basic things aspirin or sometimes dual antiplatelet therapy so that's aspirin and plavix in addition aggressive statin therapy so

Doc's will Vascular Docs anyone interested in this space will have you a non-aggressive statins or cholesterol-lowering medications stop smoking tight glucose control so those diabetics have to be really well

regulated and in the blood pressure control if you don't do those things no matter what you do with the carotid endarterectomy or the stenting is gonna fail so what's carotid endarterectomy

finally intraoperative considerations positioning for comb bean tpz photo

sensitivity EKG and lab draws and noting the time of tpz injection so i wanted to say a little bit about comb beam all right who has comb beam at their facility just a few less okay comb beam is medical imaging technique consisting

of x-ray computed tomography where the x-rays are divergent forming a cone the scanning software collects the data and reconstructs it producing what is termed a digital volume composed of three dimensional voxels of anatomical data

that can then be manipulated and visualized with specialized software on the left is a standard floral image and on the right is the comb beam so the red shows the vascular angiography the blue is a tumor and the yellow is a feeding

artery to the term or so dr. Abuja lays a B today is heavily involved with research so the procedure room with Combee was exclusively constructed for her so positioning for comb beam I believe

to be the bigger challenge initially comb being requires the patient to have their arms up high and using comb beam technology increases the procedural time it would be difficult for the patients to maintain that position and keep still

without anesthesia we started clinical trials with nurse assisted moderate sedation and soon learned it was very difficult the majority of our HCC embolization --zz are done with with sedation but we're

now using anesthesia for all of it so the lead in this case was Tom the radiology tech which assisted with the placement of the anesthesia equipment and patient positioning our anesthesia personnel are not only out of their

comfort zone in the I are sweet but unfamiliar with tpz trial and how the comb beam equipment rotates completely around the patient the patient is wearing two sets of leads one for anesthesia and the other for research

the leads are radio translucent to reduce artifact and imaging keeping the lid lid lead in the department took some getting used to one set got thrown away one set was found up in the ICU one set was on the

anesthesia equipment it was hard keeping track of our special equipment there so the pulse oximetry and blood pressure are on the lower extremities for cone beam again to avoid artifact and imaging when we first

started using cone beam the nursing staff administering sedation were disconnecting patients from monitoring so there were short interruptions with viewing vital signs it became risky and time-consuming to do

so during the procedure one set of EKGs triplicates are done just prior to tpz injection so the treat the EKG triplicates are basically they're two minutes apart in sets of three and lastly having to keep the tpz in a brown

bag and protected from light during the transfer nurse to position there's the photo on the left upper corner doctor busy day basically draws a tpz through a three-way stopcock under a sterile towel

while the nurse keeps the syringe in the brown bag poking a hole in the bag just to NIF to just enough to expose the tip of the syringe and attach it to the three-way this way the tpz is protected from light these reminder adjustments

however they were difficult from the standard and it took time for all the nurses and techs to adjust all right so this here is just a group photo Tom I've got Tyler on the right Thanh our technologist and ELISA and myself so I

thought this was a good photo to represent radiology many specialties consult two IR but it just isn't quite known yet by the general population and surprisingly by the medical staff as well there is a quote by dr. Rosa be

published quote the reason the public doesn't quite understand is we deal with so many disease entities and so many body parts it's hard to brand us unquote so I don't know if you guys were aware but interventional radiology is now its

own medical specialty so hepatocellular carcinoma is a primary malignancy of the liver and now the third leading cause of cancer deaths worldwide with over

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

okay next up this I think this video yep

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

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

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

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

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

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

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

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

so I'm gonna show an example this is a 57 year old male who presented with a dis neo

he had World Health Organization functional class 3 meaning it's significantly affected his life he can't walk up the flight of stairs really tired walking from the parking lot of his favorite restaurant back to this car

can't really walk around the grocery store he had a history of DVT and PE also had afib he actually went to the ER and was diagnosed with upper respiratory tract infection which many of these patients are they've put him on

antibiotics then for pneumonia he had a VQ after one of his doctors just felt like he just wasn't getting better and it found multiple mismatch defect I'm sorry I don't have those pictures he was actually started on home oxygen after

all of that work up it was found that he had CTF and this required I think three different hospital visits and every time got kicked up to sort of a higher acuity place and then he ended up at our place so these are his pulmonary angiogram

images here I don't know if I can play these but the still images kind of show you that the images on the right show that there's basically no vessels going out distally so I mentioned pruning of vessels there's no branches in the right

upper lobe if you look at the right lower lobe at the tip of the catheter there's areas of stenosis right where the segmental arteries start and on the left you can see that the left pulmonary artery is denuded essentially the entire

left upper low branch is excluded by a rim of thrombus and in the left lower lobe the image on the bottom my bottom right there's actually no branches going to the left lower lobe into the lingula so this is a patient that has had very

bad CTF their main the pulmonary artery pressures are listed there of 77 where the normal high is 25 so three times the normal pulmonary artery pressure so this patient went on to an operation so the image on the right the photograph is

actually the clot that they removed from the operation and that patients pressures improved from 77 to 22 immediately after the operation so they go to the ICU they have a swan-ganz catheter left in place and you can

measure their pressure right afterwards and you can see that that clot they grabbed it it looks like a bunch of fingers well what they do is they crack the chest open like with a mini sternotomy they make an incision in the

pulmonary artery after they put them on bypass and then they basically grab they use they're a little deBakey's the DeBakey forceps and they grab this little elevator and they just start scooping

out the clot and they try to grab it as one big piece take it out and then you get that nice photograph on the side if they break off pieces it's actually worse because that's an area that a pulmonary artery dissection can occur so

it's a very complex operation but you get very nice results and afterwards these patients are sent home usually on lifelong anticoagulation thereafter so

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

guys do so when we do our screening phone calls and our pre screens before

the actual procedure there's a few factors that we look at for the patients with blood pressure the patient needs to be vitally stable before we do a procedure there may be a slightly increased risk of bleeding for kidney

biopsy if patients are hypertensive although it hasn't been noted to be statistically significant in the literature so we are always aware of patients being hypertensive we do want them to be taking their medications the

day of the procedure we also do a full medication reconciliation with the patient making sure that we're checking on any anti platelets anticoagulant medications and we have a list of our hold times that we use for a reference

we already discussed for those of you who are at this session this morning the issue of liver disease is it stable liver disease they may have adequate he stasis even though their INR is not within the normal range and so we

recommend a stable INR of less than 2.5 for those patients and in our practice a lot of the providers are going away from correcting the INR s for our patients we also screen for hematological disorders do they have some known condition that

makes them more likely to bleed or conversely more likely to clot and that may factor into whether or not anticoagulation can be held do they have a current diagnosis of cancer are they going to be getting one of those

angiogenesis inhibitors might they have thrombocytopenia and we just do a brief review of the patient's chart before we call them to kind of look for those diagnoses do they have a history of bleeding especially if they have no one

platelet dysfunction you know a known history of bleeding can be a reliable predictor of bleeding risk for some patients and do they have a cardiac or a neurological history as we learned this morning patients that have recently had

a cardiac stent placed we can't just say yeah stop your plavix hold off 5 days it'll be fine that could be a very serious risk to the patient did they recently have a stroke have they had a PE why are they on their anticoagulation

if they're on it so we really need to be aware of the whole patient and having that pre-screening phone call with them can allow our nurses to figure out a lot of these problems and then alert the radiologists and try and troubleshoot

before the patient walks in the door and says yeah I took my warfarin this morning I'm all ready for my liver biopsy the radiologists don't like that much in it you know it's really a bad thing for our high volume area to have

that happen and this is just another chart of our oh did I get mixed up here you guys are gonna fire me from running this clicker there we go so the whole times are again based on the half-life and the mechanism of action and this is

pretty similar to what you saw in the the presentation earlier today and specifically that imbruvica that's something that we alert the radiologists who they have a discussion with the patient decide is this something that we

want to continue with and I will say that in our practice with the volume and the the level of acuity of our patients I think that a lot of our providers are fairly comfortable with a certain level of risk because that's just who our

patient population is you know we have a very large hospital two large hospitals and very sick patients so that's something that we you know some of them are more comfortable than others but it's a risk-benefit thing that they have

to decide on themselves with the patient obviously all right so here are our

possible even though the you know strictures actually most likely are related to the malignant frequently in large centers like the Asura actually we see more benign strictures and malignant

strictures mainly because of the post-operative and perioperative complications so strictly speaking the incidence of reduced riches is actually flipped sometimes though we do actually have to help and some more patients now

particularly in the GI Sims I think in the ten last ten years GI now places metal stents almost routinely there's almost there are people still placing skinny in those things are two plastic calibers things

but the advent of retrievable removable metal stents has really changed and so now we will place dancing much frequently in that the wall stent is actually the pre derivative of the wall flex which is the Justin that can be

removed it's got a little barb that removes it and it's what they will do is retrograde put these up and then six weeks later or even up to nine months go in and retrieve it and pull them out completely so they certainly and the

number of build with stains placement in G and IR is reduced somewhat because how aggressive gr has become but certainly will place these and particularly patients who are in the palliative stages of care and although these

applications we've used in many other ways so your goal is to get the same team this just happens to be a patient with unresectable head of pancreas cancer you can see the obstruction in the distal CBD just below the cystic

duct there's non pacified area you can see on the calendar gram as well as the celiac artery gram you can see how the portal vein sensor strictures of his patients unresectable will go in there in place

that metal stent you first place your guide why follow that up with a stent that cross bridges from open to open and open this up and we use stands between eight and ten millimeters in diameter and nowadays even covering the

cystic duct is not such a big deal and nowadays cupboards things are probably more in favor now even though the data the data actually doesn't support covering over uncovered and the data for both is actually extremely marked be

similar and it's not compelling and because of the price difference I think visit again a probably a swing back to I'm not standing every CPD stains with covered stands but no question at least from operators point of view in my point

of view it makes whole wholehearted sense to allow the tumor no interest disease to grow through but yet the outcome is still not clear that it's a favorable and cost-effective to do covered stains entirely and we actually

will place up to three drains sometimes you have these complex cancer patients with multiple strictures where almost all the segments are excluding in a extremely sick or they need their bilirubin's to come down for four to be

eligible for cut medical oncology chemotherapy and this is the selling of metastatic colorectal cancer and so that will put three up to three tubes in the right lobe before will give up and say that there's not much more decompression

we can achieve so four tiers is that probably the maximum will place in for multiple site so like I said you know malignant brutally strictures and this data and I'm not going to because it's sort of a moving target

when Gore came with the first covered stand purely because of the fabric that they have gore-tex like what's under jacket and clothing and was interesting it's one of the most improbable fabrics and the reasons why Bill Lewis stands

accrued is not so much that it's overgrowth of tumor but the in growth of bio and in growth of bacteria actually will cause a non-covered stain suit include earlier so the advent of gore and making a stent that made a big

difference and it's covered same it does to change quickly the ease at which patients could be stent in the new system so when they came on the market was really helpful and there's just example of how you can go from occlusion

all the way to having natural passage about now back into the small bar and the utility and the importance of bile salts power fluid in your GI tract is critical for absorption in almost all your metabolic

function so having this drain out externally is really not advisable so getting a natural pathway flow of bio into the GI system is extremely important but I believe strictures and

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

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

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

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

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

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

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

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

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

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

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

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

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

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

across the abnormality and I think from

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

with shoulder I'll go through this hopefully in five five minutes and I'll be under like 20 so frozen shoulder we're going to shift gears so unlike

arthritis frozen shoulder is an inflammatory condition that starts out of nowhere the classic history is a 35 to 45 year old woman who wakes up in the morning and says my shoulder hurts they think they slept on it incorrectly and

the pain does not go away they take medication doesn't go away the pain is worse at night and they can't figure out why it takes him about a month or two to go to orthopedic surgeon the surgeon goes you have frozen

shoulder they can't lift their arm forward they can't lift it laterally and basically it hurts over the shoulder they don't have a rotator cuff tear they don't have an injury they're not a baseball pitcher these are just average

people who are otherwise normally healthy except sometimes it occurs in certain patient populations it's a very prevalent disease and these are some of the risk factors so being female sorry that's an increased risk factor type 1

type 2 diabetics patients with hyperthyroidism even people who have autoimmune disease because there's some inflammatory process going on there are multiple stages one to four like in every disease of course early on it's

just inflammation but you'll see as you get to stage four you get these adhesions and stiffness in the shoulder so if you see someone who's a year out from this diagnosis who's really slobbing symptoms they cannot lift

they're on many of these patients walk around just like this and you they'll go to shake their hand they can't even get their hand out any further than that and so it can be a really progressive disease and really disabling to be

honest on MRI you can see findings that suggest this so on the top two images there are arrows that show exactly what I showed you in the knee this is thickening of basically the lining of the shoulder and they see this actually

even when they do arthroscopy and they actually put a camera inside the joint in these people with frozen shoulder as well remember I showed you this slide earlier exactly what we know more blood vessels in the lining in patients with

frozen shoulder than not more nerves more blood vessels what's been done on frozen shoulder has this been done well that same doctor in Japan dr. Okun Oh had published a study a number of years ago where in 24 patients he injected the

same antibiotic and 2/3 of these patients got rapid pain relief just one week after the after the procedure he analyzed the show and 87% at a month and there was basically no worsening or recurrences in

these patients out to 36 months so very good very good results but again we wanted to replicate that here in the United States so we applied to the FDA for an investigational device exemption study we're performing this study

actually it's sponsored by Tomo and we're enrolling patients who have a diagnosis of frozen children were working very closely with an orthopedic surgeon who just specializes in shoulder joints he's actually a very well

recognized shoulder surgeon so these patients like our knee patients have to be refractory to something and what we're looking for and this is a patient in in our clinical study is that red arrow on the Left points to an image

where that synovium enhances and on the right where the synovium is thickened and same thing here this is a case where it's even worse you can even see that white capsule all the way around the joint very prominent enhancement the

problem with shoulder embolization and we thought this would be great we do all our cases radial for life you know we'll do prostates uterine fibroids y9t we're like this is gonna be great we only have to go from here to here and

everything's gonna be fantastic the problem is you'll see here from this angiogram just at the subclavian artery is that all the vessels come off pointed towards the hand nothing really comes off when you're going this way so

unfortunately when you're going in with your catheter everything looks like you're gonna be going you know reverse and that can make things really painful and you need a 2o French catheter to get into these because they're so small and

they don't make very many - Oh French pre-curved or pre shaped catheters so you have all these challenges that we thought were gonna be we didn't realize in the beginning and the other thing is write everything now has made radial -

coronary or radial two legs or radial - pelvis or celiac but the distance is you can imagine from here to here I need a 90 centimeter based catheter in a 110 or 120 micro catheter I don't really you know people make 80s and 80s aren't long

enough and people make one 10s and they're too long and so we really found this to be actually fairly more difficult than we realized there are also six arteries that you have to get into in the shoulder so it's very

tedious and you have to get into all these and when you're injecting embolic in and around the vertebral artery and you guys recognize that on the image that's on the screen that's the largest artery there so if you're going to get

reflux you want to avoid of course having a stroke so especially in these younger female patients over 35 to 45 and you're taking something and put at risk so it can be a little bit more of a challenging procedure and obviously

if you have you know physicians and a team who are used to doing things like prostate and advanced celiac embolization for example you know that kind of team will be used to this but they're definitely more challenges than

we realized and so there are six arteries that we have to get into and you can see that third one of how tiny that is and I'll go through all these really quickly this is the suprascapular artery okay this is the first branch we

actually just number them one to six and you could see over that shoulder on the left look how hyper vascular that's actually worse than the knee that's pre-imposed embolization okay this is the throttle acromial artery the

throttle chromia artery as you can imagine goes to the acromion process and the shoulder and you can see on the left it sort of drapes over the shoulder as that hyper vascularity this is the coracoid artery you will not

find this artery in any anatomic textbook anywhere when I flew to Japan to work with dr. Okun oh when I went there and he's like we're going into the coracoid I'm like where is this I'm sitting there on my cellphone like while

he's doing the case looking up the cord under I couldn't find it anywhere looked in Grey's Anatomy looked at oof lockers masculine angio textbook it's nowhere it exists and just like you think it goes right to the coracoid

process which you can see on the image on the right and you can see the degree of vascularity and it's responsible for this anterior pain that patients feel and here's the circumflex scapular artery most of you have probably seen

this in some form or another and as you can see it goes to the inferior aspect of the shoulder so that goes to the bottom of the capsule on the right you can see how it's coming right under the humeral head and then there's the

anterior and posterior humeral circumflex arteries one in front of the humeral head one behind the Hume right so these six arteries we have to get into and we have to figure out which are hyper vascular and that embolized them

and of course like in prostate like in every other place is going to be aberrant anatomy our very first case we go into I came back from Japan we're all excited to start the clinical trial I'm looking for the I'm looking for the

suprascapular artery and lo and behold it comes off the lean of the Lima and I'm like oh that's interesting you know how the heck we're getting in this and so you run into these challenges just like in any other situation and so we're

learning we're getting through this and learning about this patient population as well I will tell you so we don't I don't have any preliminary data to share because we just have done eight patients out of 20 but all but one had a dramatic

improvement I mean even far better than our knee patients they're coming in there like 10 out of 10 they're like do this I had a patient we made a video because she wants to show her orthopedic surgeon if her arms just throwing around

like this and she was like dancing in my office and I'm texting and pictures it's really remarkable and what's great about this is there's no treatment option so orthopedic surgeons said them to go get physical therapy take pain meds there's

nothing to do for these patients so this is a real opportunity hopefully by the end of you know this year we'll be finished and rolling and following up on these patients and we're hoping by maybe early 2020 which is not too far away

you'll probably see an fda-approved product even for the embolization so things are moving pretty quickly and just as just one case again if someone who has severe superior labral pain you can see the image on the right how

densely standing or vasco's it's very easy to see and I'll challenge you when you go back and you're doing a leg angiogram and you look and they do a run off and you see staining around the knee or some of that blush just reach over

and ask the patient and palpate right where it is and go do you have pain right here and I'll bet you they'll say yes you never really would have paid attention at any time before and now we do it kind of for fun when we're doing

our run offs for other reasons of course for CLI etc but it's really interesting and you'll go back and see that so in conclusion embolization really is an exciting has an exciting future really in the setting of msk related pain there

will be need to be many more larger studies of course this is still investigational we do not tell people to go out and start doing this we need to really better understand how angiogenesis really affects these

disease processes and with that I will finish thanks very much [Music]

let's move on here is another patient who took a fall skiing we see a lot of these patients up in upstate New York and they presented with severe left-sided abdominal pain and here's the cat scan

all right who's up for it what do you think what looks bad you look like you're into it what do you think yeah the right the bottom right-hand side of the picture should be spleen and it just looks like a big pool of blood that's

pretty good you did pretty good spleens a little higher so we're gonna presume spleen is there Graham this is just one image one slice through the picture through the body so we're just not at the level of the spleen but that's the

kidney that's exactly right that white thing on the right side of the image of the patient's left side is the kidney and the one thing I'd like everyone who appreciates that doesn't look at all like the other side all right so when

you look at a cat-scan like this you want to look for symmetry that's really important all right that's the cool thing is we're kind of meant to be similar looking on both sides of our body and in this particular

case you can see that the left kidney has been pushed way forward in the body compared to the right side and there is a kind of a hematoma sitting in the retroperitoneum posterior behind the kidney that's bad

the other thing you should notice is if you look at that left kidney you notice that white squiggly line that doesn't belong there okay that's contrast that's not really constrained inside an artery that's extravagant of

contrast that's bad all right we don't want to see that all right again there's a grading system for renal trauma and you're gonna hear people talk about grade 1 2 3 4 injuries all right obviously as the number gets higher the

extents of the injury gets more significant all right so again here's that picture think you can appreciate that it's at least a grade 4 laceration of the kidney so we went in and we did an angiogram now we can watch these

patients we can surgically manage them by taking out their kidney in some ways that's the easy part excuse me it's a lot more elegant to try and embolize these patients if they're hemodynamically stable and can take you

know getting to angio and doing the case now in general we do embolization for patients with lower grade injuries and usually penetrating injuries a penetrating trauma that's seen on CT I think this is something that's changing

I if any of you work at high-volume trauma centers the reality is that we're doing more and more renal angiography for trauma than we used to because it's just becoming a more accepted thing for us to

be doing that all right so here's the angiogram and again I think you can notice it really correlates very well to what we saw on the CT scan you see that first image on the left and on the delayed image you see that that kind of

poorly constrained contrast going out into space now we were never really quite sure what this was if it was extravasation or if it was potentially an arteriovenous fistula with early filling of a renal vein regardless of

which it's not normal all right so what we did was we went in and we embolized and I only included this picture because I'm a big drawer during cases so when I'm working with a resident or a fellow I like to really

lay out our plan on a piece of paper and try and stick to the plan and this particular picture look really good so I included on the lecture but basically you can see that the coils the goal here for any embolization procedure

when it comes to trauma is to preserve as much of the normal organ as we can and to simply get you know to the source of the bleeding and to get it to stop and that's what we did there so what you can appreciate on this is kind of the

renal parenchyma or the tissue of the kidney is largely maintained you can see the dark black kind of blush within the kidney and all that really stands for properly working kidney all right and yet we embolize the pathology so that's

our goal here's a similar patient not

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