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Subphrenic Collection | Percutaneous Catheter Drainage (CT-Assisted) | 47 | Male
Subphrenic Collection | Percutaneous Catheter Drainage (CT-Assisted) | 47 | Male
2016collectioncoronalcytoreductivedeviceselectromagneticenteringimagingnavigationobliqueplanepleuralresectionsagittalscanselectsensorsSIRsubcostalsubphrenic
Classification of PE | Management of Patients with Acute & Chronic PE
Classification of PE | Management of Patients with Acute & Chronic PE
angioanticoagulationbiomarkerschaptercollapsediagnosisdysfunctionechofailsgooglehearthemodynamichypotensionimaginginpatientintermediateinterventionlowmassivemonitoringmortalityNoneoutpatientpatientspositiveriskscanshockstrainstratifysystemictpautilizesventricular
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
activeaneurysmangiogramanteriorarterycatheterchaptercoilcontrastcoronalctasembolizationembolizeembolizedflowgastroduodenalhematomaimageimagingmesentericmicrocatheterNonepathologypatientperitonealPeritoneal hematomapseudoaneurysmvesselvesselsvisceral
Case 3a: Splenic Trauma | Emoblization: Bleeding and Trauma
Case 3a: Splenic Trauma | Emoblization: Bleeding and Trauma
angiogramangiographybleedingchaptercoilscontrastembolizationembolizeextravasationgradehemodynamicallyimagelacerationlacerationsmicrocatheterNoneorganpainpatientproximalquadrantscanspleensplenicSplenic Traumatrauma
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
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Intra Procedure | Transforming from Clinical IR to Clinical Trials with Tirapazamine (TPZ)
Intra Procedure | Transforming from Clinical IR to Clinical Trials with Tirapazamine (TPZ)
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Case 6: Pelvic Fracture | Emoblization: Bleeding and Trauma
Case 6: Pelvic Fracture | Emoblization: Bleeding and Trauma
angiogramaortabottomchaptercoilscontrastcontrolembolizationextravasationfracturegoalimageimagesinjuryNoneparticlespatientpatientspelvicPelvic fracturepicturepicturesscanselectivetraumaunstable
Duplex Ultrasound | Determining the Endpoints of CLI Interventions
Duplex Ultrasound | Determining the Endpoints of CLI Interventions
angioplastychaptercolordopplerduplexflowhelpfulimageimagesimagingoccludedpatientssensitivespectraltriphasicultrasoundvelocitywaveform
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
CT Imaging- Chronic PE | Management of Patients with Acute & Chronic PE
CT Imaging- Chronic PE | Management of Patients with Acute & Chronic PE
acuteadenopathyanglesarteriesatherosclerosisbloodcalcificationchapterchronicclotdistallyDVTembolismirregularmiddleNonepatientproximalpulmonarysagittalscanthromboembolicthrombusvesselvessels
PET/MRI Case Study #3 | PET/MRI: A New Technique to Obtain High Quality Diagnostic Images for Oncology Patients
PET/MRI Case Study #3 | PET/MRI: A New Technique to Obtain High Quality Diagnostic Images for Oncology Patients
abnormalanesthesiacancerchaptercolordiagnosedevaluateglioblastomahepatoHepatoblastomahitsimagelocationmetastasesMRINonenormalOsseous Metastasispediatricpelvicsagittalscanstudythoracicuptake
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
arterycatheterizecausingchapterclassiccliniccommoncommon iliaccompressioncongestionendovascularevidenceextremitygonadalhugeiliaciliac veinimagingincompetenceincompetentMay Thurner Syndromeobstructionoccludedpelvicpressuresecondarystentsymptomstreatmentsvalvularvaricositiesvaricosityveinveinsvenavenous
Case 1: Lower GI Bleeding | Emoblization: Bleeding and Trauma
Case 1: Lower GI Bleeding | Emoblization: Bleeding and Trauma
angiogrambleedbleedingbleedsbloodcatheterchaptercoilscolonoscopyembolizationembolizeessentiallygroinimaginglowerLower GI BleedmesentericNonepatientspicturepicturesprepscanseriesvessel
Background on Interventional Oncology | Interventional Oncology
Background on Interventional Oncology | Interventional Oncology
bloodcarcinomachapterdilatorinterventionalischemiaoncologypatientsradiologistresectionspecialtystenosistreatmenttumortumors
Indirect Angiography | Interventional Oncology
Indirect Angiography | Interventional Oncology
ablateablationablativeaneurysmangioangiographybeamBrachytherapycandidateschapterdefinitivelyembolizationentirehccindirectintentinterdisciplinaryischemiclesionographypatientportalresectionsbrtsurgicaltherapyvein
Most common IR procedures and disease in China | Across the Pond: The state of Interventional Radiology in China
Most common IR procedures and disease in China | Across the Pond: The state of Interventional Radiology in China
ablationbiliarybiliary cancercancerchapterchinacirrhosisfactorsgeneticguyshcchepatitisinterventioninterventionalistsInterventionslargestlifestylelunglung cancerneuropiccprevalentproceduresmokingsocietaltrained
Case 4b: Embolization After a Post Biopsy Renal Bleed | Emoblization: Bleeding and Trauma
Case 4b: Embolization After a Post Biopsy Renal Bleed | Emoblization: Bleeding and Trauma
angiogramarteriesbiopsybleedbleedingchaptercoilsembolizationembolizeextravgoalhematomakidneymassNoneorganpatientpatientsPost biopsy bleedrenalretroperitonealscanvascular
An Overview of PET, MRI and PET/MRI | PET/MRI: A New Technique to Obtain High Quality Diagnostic Images for Oncology Patients
An Overview of PET, MRI and PET/MRI | PET/MRI: A New Technique to Obtain High Quality Diagnostic Images for Oncology Patients
cancerchapterdiagnosticglucosehypermetabolicmodalitiesMRINonepatientpelvicpositronscantomography
Clinical Workflow for PET/MRI | PET/MRI: A New Technique to Obtain High Quality Diagnostic Images for Oncology Patients
Clinical Workflow for PET/MRI | PET/MRI: A New Technique to Obtain High Quality Diagnostic Images for Oncology Patients
arrivesbloodchapterchartcheckcontrastdoseflowgadoliniumglucoseimaginginjectinjectedinjectinginjectionmonitorMRINonenursepatientpatientspneumaticpresencepriorradiologistrobescanscannerscanningscreeningworkflow
Aspiration Thrombectomy | Management of Patients with Acute & Chronic PE
Aspiration Thrombectomy | Management of Patients with Acute & Chronic PE
angioAngiodynamicsAngiovac CannulaAspirex CathetercatheterschapterclotdevicedevicesfrenchIndigo ThrombectomyNonepatientPenumbraPenumbra Inc.sheathStraub Medicalthrombectomythrombustpa
Renal Ablation | Interventional Oncology
Renal Ablation | Interventional Oncology
ablationcardiomyopathycentimeterchaptereffusionembolizedfamiliallesionmetastaticparenchymalpatientpleuralrenalspleensurgerytolerated
Case 8: Retroperitoneal Hematoma- Cover Stent | Emoblization: Bleeding and Trauma
Case 8: Retroperitoneal Hematoma- Cover Stent | Emoblization: Bleeding and Trauma
angiogramarteryaxialbleedcatheterizationchaptercontrastcoronalCoverage StentembolizationembolizehematomailiaciliacsimageinjuryNoneoptionpatientpseudoaneurysmRetroperitoneal hematomastentstents
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
Joe Woo Introduction | Breakfast with Leadership Transitioning towards a Clinical Specialist Role
Joe Woo Introduction | Breakfast with Leadership Transitioning towards a Clinical Specialist Role
careercertifiedchapterclinicaldevicesfieldguysinterventionalradiologyspecialisttechtechnologisttechnologists
Case 4a: Renal Trauma | Emoblization: Bleeding and Trauma
Case 4a: Renal Trauma | Emoblization: Bleeding and Trauma
angioangiogramangiographyarteriovenouscenterschaptercoilscontrastembolizationembolizeembolizedextravasationFistulagradehematomahemodynamicallyimageinjurieskidneyNoneparenchymapatientspenetratingpictureposteriorrenalRenal Traumaretroperitoneumscanspleensurgicallytrauma
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
Nodule in right lung | Cryoablation Case | Ablations: Cryo, Microwave, & RFA
Nodule in right lung | Cryoablation Case | Ablations: Cryo, Microwave, & RFA
ablationablationschaptercryocryoablationfreezehemorrhagelesionlungLung Noduleminutesnodulepneumothoraxprobesprotocolproximalthawtriple
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
Pulmonary Ablation | Interventional Oncology
Pulmonary Ablation | Interventional Oncology
ablationactivitycancercandidatechaptercolorectalcryodiseaselesionslobelungmetastaticnodulepatientpulmonaryrecurrecurredresectionresidualscansurgical
Endoleak Case |
Endoleak Case | "Extreme"-ly Obvious IR
accessaheadalgorithmaneurysmangiogramanteriorapproacharterialarterybringcablechaptercontrastendoendoleakfeedingfeeding vessel not identifiedFollow up angiogram shows a type 1b edoleakguysidentifyiliacimagingleaklimbpatientplaypuncturesheathslidestherefore planned an extension of the left aortic limbtrackingtransTranscaval approach to repair a likely type 2 endoleaktypevesselvideo
CT Imaging- Acute PE | Management of Patients with Acute & Chronic PE
CT Imaging- Acute PE | Management of Patients with Acute & Chronic PE
acuteangiogramappearancearrowarteriescenteredchapterclassiccontrastcoronalimaginginfarctluminalNonepatientperfusionpulmonarysagittalscansegmentalsurroundingtechnologistthrombolysisthrombusvesselview
Transcript

appendiceal adenocarcinoma, cytoreductive surgery, and omentectomy, splenectomy, and bowel resection as well as some peritonectomies.

And one week after surgery presenting with fever and elevated white count, and imaging showed this larger left subphrenic collection and a moderate amount of left pleural fluid. So these are the coronal and sagittal imaging showing that it's a very high collection and covered by the ribs and partly covered by the pleural fluid.

So most of the time we try to come as low as possible, subcostal if possible. If not then you go as low intercostal, to avoid the pleurolysis and contaminating the pleural space.

And there are a number of imaging technology available to allow you to come out of plane just like for biopsies, out of plane biopsies, out of plane ranges. You wanna come from below and these are [UNKNOWN] navigation devices, stand alone devices.

You have sensors on a needle tip and you place some sensors on the patient's body and scan and then plan your approach from below and then use those. But [UNKNOWN] standalone devices you're to put them in addition to the CT scan units so they are a little bit cumbersome to use. And just to show how these electromagnetic navigation devices

work. This obviously not a drainage case but a biopsy case under the dome of the diaphragm but the same principle. Alternatively you can use the regular CT and some of the CT vendors have come up with some kind of intervention packages which allow

you to, apart from the actual images, you get on the fly MPR reconstructions and you can generate other coronal, sagittal or any possible oblique image and select your plane, select your path.

Like in this case that I was talking about we got sort of a sagittal oblique image and select our path from way below and basically replace the cursor on the skin side and then place the circle on the target and gives you the path. And then you can start advancing the needle, and every time you

do an actual series of images, the MPR is immediately available and shows the video following the path or not. The superimposed lying shows up at the red or a blue line. And as you can see here we're starting from way below and angling up.

[BLANK_AUDIO] And this shows the actual images showing that we are entering way below, and then ending, just above the 12th rib, and [INAUDIBLE] collection here, and this is the wire, and not part of the collection

and this shows [INAUDIBLE] reconstruction again above [INAUDIBLE] could not come below the 12th rib, there is no possible approach available. So at least we awarded the pleurolysis. And this is just coronary and as you see we are entering just to [INAUDIBLE] going on most vertically up here as you can see here

we're entering the collection here up. And just to scout fill [INAUDIBLE] case with a very high right subphrenic

original classification of PE is important to know because it man it helps dictate treatment so it used to be classified as massive which is about 5% of PE patients these are the ones that

we all know how to treat they're usually coding essentially when they show up to the ER or to the angio suite or in the ICU they have a 58% ninety day mortality rate so these patients are doing very poorly they're in hemodynamic collapse

which is the diagnostic factor there that sort of makes that diagnosis because of cardiogenic shock sub massive PE is the biggest group that we'll talk about last I'm sorry the most important group we'll talk about last so

minor PE are about 55% of PE patients those are the ones that show to the ER that just don't feel right and they turns out that they have PE so it was really not even anyone's differential diagnosis and most of these patients do

just fine with outpatient anticoagulation monitoring and monitoring so the main group that matters in that most of the talks about PE are about are the sub massive group which is about 40% of patients and these

are the ones that show up with a moderate amount of clot and some right ventricular strain these are the patients who are able to tolerate their PE but they're not doing very well so they come in with shortness of breath

some chest pain and although they're not in hemodynamic collapse they are the ones who require inpatient monitoring or their good it goes to an ICU and that's really the patients that we worry about those are the ones that we're going to

do an intervention on or systemic TPA so that was the sort of the old way of classifying PE and this is the new way of classifying PE so this is the Europeans Society of Cardiology they had a

consensus in 2014 talking about PE and what we look at now and the way we stratify these are high risk PE intermediate which is intermediate high and intermediate low and then low risk PE so this is

important because it in fact it utilizes patients actual biomarkers imaging as well as their clinical symptoms all in one and so what we look at if you look at a patient with high risk PE they have to be in shock or hypotension that is

one factor that has to be there and actually everything else doesn't matter but the things that we look at are the PE severity index or the PES e score if you google PES e PE SI it's basically a bunch of things it asks for the

patient's age whether they have cancer what their heart rate is if what they're owed to sat and on what oxygen content they're on and it gives you a score and that classifies it in 1 through 5 and basically 5 is really bad which means

that you have a low or you have a higher mortality as an outpatient and 1 is really low some things like cancer give you a lot of points so that sort of pushes it over to automatically kind of 2 3 then you look at the signs of our V

dysfunction and really with PE that's really the thing that that kills you is your right ventricular dysfunction and if your right heart fails then your left heart fails and then you die and so that's really where the issue is

and then the cardiac laboratory biomarkers are what will sort of give you a blood test that you can figure out and see if that patient is going to do poorly so high risk PE shock or hypotension

low risk Pease the other end where you really don't have any of those things but you do have a PE diagnosed either usually on a CT scan but it could be on an echo as well intermediate high and intermediate low is where we all spend

all the time talking about that's what we kind of do all the studies on is really the intermediate high and low groups and what we should do for them and sort of how we can affect their lives but the main point here that I

want you to see is that they don't have shock or hypotension but they do have positive right ventricular strain either on an echo or a CT scan and they have positive biomarkers if you have positive biomarkers and imaging then you have

intermediate high risk PE and those are the patients who may benefit from some sort of intervention or some sort of further ICU monitoring and anticoagulation so I'm gonna just

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

case I can make up the ages anyway so it doesn't matter so 43 year old patient on a motorcycle that collided with a deer all right presents with left upper quadrant abdominal pain and now we're looking at a cat scan all right who

wants to look at a cat scan you look like you're up for it what do you think what do you see no no you're not sure so we're looking so the key is the left upper quadrant pain right the patient presented with left-sided pain you

should know that whenever we're looking at a study like this we're looking as if we're talking to the person so the right side is on the left the image the left is on the right side and so if you look on the these are two

images if you look at the right side of the image you can actually see the spleen that's like that beam shape thing towards the back of the patient and what we should see is a homogeneous appearance of the organ but what we're

seeing are some kind of dark grayish lines going through it that's essentially a laceration of the screen that's what we're looking at that's the pathology that will prompt us doing a procedure like this and when we ever we

see a patient with splenic trauma we try and grade the trauma so one thing you're going to hear about is it's a patient with a grey 2 laceration or a great 4 laceration or something like that and that basically just describes the extent

of the laceration through the spleen the further through the spleen it goes the higher the number is the worse it is for the patient okay we tend to get involved with patients who who essentially have grade 3 or higher lacerations and are

hemodynamically stable so in this particular patient this was thought to be a grade 3 splenic laceration but there was not a whole lot of blood around the spleen so we thought this patient had some time to come to

angiography and embolization so here's the angiogram lo and behold what we see is again a blobby thing which is the theme of this lecture remember this is bleeding so we're looking for blobby things and all the way on the right side

of that image you can see that cloud of contrasts that black contrast that's extravasated of contrast that's not normal all the way to the right you guys see it are you good so going all the way to the right that's

what we're trying to do now when we do splenic embolization there's two ways we think about this do we want to go all the way to where the bleeding is all the way out into the screen and embolize one little branch that's injured or do we

want to do something called the proximal splenic embolization we would just put like some coils or plugs right at the origin of the splenic artery with the goal of being to slow down the flow and allow the spleen to heal a lot of it is

just what's possible maybe what time it is how tired we are things like that all factors that weigh into it but here's a little bit of a better view you can see the area of extravasation now here's another picture now we put

our microcatheter out there now you're getting a bit more of a sense of what's going on there you can see the extravagance II the vessel that it's coming from and then we put our catheter all the way out there and now we're

right at the source of the bleeding so our philosophy is if we see bleeding we want to go as far as we can towards the source of the bleeding keeping in mind that whenever we don't get as close to the bleeding as possible we're

sacrificing normal parts of the organ that we're treating and that's the philosophical leap that we make during these procedures so we were able to get out there and then we embolize leaving a lot of flow through the rest of the

spleen and the patient was able to survive like we never did anything alright that's our goal now here's a

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

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

patient 40s year-old patient again car accident lower abdominal pain and bruising so it sounds like you guys can appreciate that's an injury alright so we'll move past that so here's a CT scan these are four separate images from the

same patient CT scan and it is a bit more subtle I'm not suggesting it's easy to see you know we can appreciate the injury but one thing that you should be able to notice again is that concept of symmetry so when our residence or even

myself or anybody reads a cat scan we always want to kind of appreciate all the differences in the symmetry that we're seeing and so what you can see here is especially on that upper left hand side you can see the penis coming

out of the patient almost coming out of the patient and if you just draw a line straight back from there you should notice that there's a bit more tissue on the left side of the patient than the right side of the patient but that's

what we're looking at and if you go to the image over to the right the top right image right at that same area there's a little bit of a white blush which just shows that there is some bleeding going on there and if you look

at the third image which is the one on the bottom left right below one of the bones or there's another area of a white contrast collection or bleeding all right you can maybe see that again on the fourth image so that's what we're

looking for on the CT that asymmetry or the thickening of the tissue and we're looking for an escape of some contrast from where we should expect it to be all right so many of these patients will be

unstable those are the patients that probably need to go right to the or but for the patients who are really you know doing okay we have a chance to intervene on them and the reason why that's important is the more unstable they are

the higher the chance of mortality especially with the pelvic fracture so pelvic fractures are a big deal if you have a hemodynamically unstable patient with a pelvic fracture that's something to take very seriously

all right many of these patients will get CTS or C if we see extravasation they often come to us for angiography so here's the angiogram again a great example if you only look at one picture or two pictures

you're not going to see the problem all right so if you look at the first two pictures you really don't see anything I would I would argue it looks normal but as you get to that third picture you see that kind of collection of contrast

on the bottom right-hand side of the picture all right that's why you need to look at all the pictures of the and reom not just one picture you watch them it's like watching a

little movie now you just stand there and watch it over and over again I get a sense of what it looks like at the beginning middle and end of the angiographic run or set of images the other thing is it's very hard to see

extravasation of contrast when you're in the aorta so many times we do an aorta gram we take some pictures and we may or may not see anything but if we know there's a pelvic fraction we know it's more on the left side we'll go into the

left internal iliac artery and do a more selective angiogram and here's a picture of that selective angiogram and now you can see the extrapolation even more clearly hopefully you can all see it the bottom kind of leftish part of the image

all right here's a more selective now we say okay we definitely see something now we're going to get a little bit further into the system here's a picture now it's very clear you can go if you don't see it all right so you should see it on

the bottom all right and now our goal is to just get as close as we can and so we got all the way down then we put some coils there and again our goal is to make sure that we get just into the vessel that we treat and embolize it now

people will say what agent should we use do we use gel foam do we use particles do we use coils do we use glue or onyx the truth is you can you can really use anything but the thing with the most control so for trauma we tend to use

coils for trauma alright because our goal is to deposit an embolic agent right at the site of the injury that's our goal if we use particles we don't have as much control or a liquid we don't have

as much control they could go somewhere we don't want it to go all right here you're dealing with the blood supply of the penis the rectum the bladder other things which you know most of us would prefer not be injured during an

angiogram all right so we don't want to do something that we don't have complete control over and coils give us that type of control

helpful and you know many of us use this on the table at the time of the procedure we also look at our own images because it reports are not all that helpful and what you're looking for I don't know duplex ultrasound is what is

the vessel wall look like is it narrowed is it patent are there are there large collateral so you're going to need a lookout for or what's the velocity of flow because as you know as you know you put your

finger over the end of a of a garden hose it's going to increase the velocity of the water that you're shooting at somebody and the flow direction and quality can also be detected so color Doppler imaging often changes from this

kind of smooth the uniform color with laminar flow on the on the right side to one of multi-directional flow with turbulence you'll see colored multiple different colors in the same image spectral Doppler waveforms are also

obtained with with duplex ultrasound so what you're looking for is this is the the picture equivalents of marks noises from earlier which is a triphasic waveform see that the flow goes above the line and then goes back below the

line and then comes you can wholly state that it comes back above the line here that would suggest that it was triphasic or normal and then these often just go above the line and they never go back below the line and these patients if

they're if you're looking at the ultrasound below the level and destruction so we're looking for a return from the image on the right to the image on the left we have specific number criteria that we use as a

determination of whether one we've been successful the numbers are not that important but the ant vanish is a duplex are that it's low-cost and it's highly sensitive but it it's time-consuming and depending on who the operators are that

are actually taking the images and who are the readers are you may or may not find them that helpful and it's less accurate for determining if the vessels completely occluded because they may just not have seen it they may have

missed it so it's operator dependent several papers suggest that we should be this should be our first line imaging study for following up patients after we do an intervention particularly angioplasty alone and if the initial

follow-up is normal we can usually push them out to just clinical follow-up and making sure they have a pulse exam if patients have an abnormal finding then we usually bring them back sooner and get a repeat ultrasound at two to three

months CT a very sensitive and specific

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

CT scan frequently or they actually show up with a CT scan so I want to highlight the fact that this is different these images are different than the patients

who had acute pulmonary embolism I will say that it's very hard to kind of get this into your brain but they're very different so first of all they'll have a VQ scan that'll show that they have mismatch defects after that when you

look at the scan the clot has a different appearance before it was in the middle of the vessel it was surrounded by a rim of normal contrast here it's actually wall adherent it's irregular it's got weird weird angles to

it weird margins and then distally the vessels are very small in acute PE the proximal pulmonary arteries are enlarged because they're hitting they're enlarging because they're hitting a roadblock in here in chronic PE the

vessels shrink down and shrivel beyond it because there's chronic clot they're a lot like patients who have chronic DVT in their legs when you look at that sagittal view kind of think back to the original case that I showed you

you saw that sort of with clot there's a thin lines floating in the middle of the vessel here it's irregular it looks serrated it's gotten really weird angles so this is another example of chronic PE from the literature that believe it or

not is not mediastinal adenopathy it's not a patient with cancer it's a patient with chronic PE all that thrombus sort of lines the inner walls of the pulmonary arteries you can even have calcification just like you would have

in atherosclerosis also the vessels distal to the clot become shriveled down and that's a way to tell if that's chronic PE versus acute here's another example of a patient of the image on the left is the patient years or before and

then the image on the right is a patient with chronic thromboembolic pulmonary hypertension and then a few more examples showing you that it's usually on the side of the blood vessel rather than in the middle of the blood vessel

so if you want to know just an easy way if you see clot in the middle of a blood vessel it's probably acute if you see it on the side and along the walls it's chronic more pictures kind of just to put in your brain so the diagnostic

study I would like to share to you in personal note that my training school

books and experiences never prepared me for all the different types of cancer I have seen while working at Memorial sloan-kettering I have come to realize that cancer does not discriminate it doesn't matter how old you are

socioeconomic status gender race color of your skin and geographical location and religious beliefs and taking care of the young pediatric patients makes me the saddest if cancer hits you it hits you

the youngest patient that ever took care of is two months old infant diagnosed with glioblastoma I remember that day clearly because I booboo the whole day based on this here comes the third case study this is a four year old child

diagnosed with hepatoblastoma a pet MRI with anesthesia is done the image to your left is pet and on the right is pet MRI you see the difference in the images this scan is done for the doctor to evaluate the extent of the disease you

could see there is a hypermetabolic uptake in the liver and in the pelvic area the color red on top of the head the patient that's normal that's a normal uptake there is no increase in the uptake so this considered normal

we're gonna do our closer look and I would like to show you the difference between the PET CT and the pet MRI the image on the middle is the PET CT done on March you could see how where are the areas that are you could see all the

increased uptake on the areas like the chest the neck thoracic region and the abdominal region the the bright area there at the bottom Dustin or my bladder up take look at the image on to your right that's a close-up loop of the

sagittal PET CT done on same month you could see clear I could see where the location of the abnormal act uptake are circled by the the white circle there is abnormal uptake in the spine and in the chest and

of course where the hepato blastoma is located but looking to your left that's the bet MRI you see how the image is so clear and defined you could now count from the you could count where the exact location is it's on T 11 and is in the

vertebra and there's evidence of the actual cord compression with all you know all you know is a neuro emergency this is a four year old child and the other abnormal app takes you could see also so this child don't only have

hepatoblastoma but also have OSHA's metastases so the scan is done to evaluate the extent of the cancer the last cases study is the 41 year old

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

patient who presents with rectal

bleeding he's had a transfusion and this is the angiogram so it's gonna be a lot easier people volunteer so who wants to say what they see what do you say what do you say show me tell everyone what you say well there's two

slides the first one you see just a little bit of blood and on the second slide you can see where he's really bleeding all right so these are the same the same patient same angiogram so one thing you guys should realize if you

don't know this already about an angiogram is an angiogram is a series of pictures over time good job by the way so a series of pictures over time so it's not just one image and the analogy I like to give is if I take my kids to

Disney World right I can have that picture of all of us in front of the castle with the Mickey hats and everyone's smiling but like one second before this one kicked that one and one second after this one smacked the other

one in the head and they're all crying but I got that one picture an angiogram is that situation it's a series of pictures over time so while you may look at that first picture on the left and maybe not see so much going on what you

should appreciate on the right is that big blobby thing of contrast over on the right side all right now what that means is that there is blood pouring out of that person's vessel all right this is a mesenteric angiogram it's a superior

mesenteric artery angiogram we put a catheter in by the groin from the groin we went into the SMA and we took some pictures and this is what we're seeing and we're appreciating hopefully that big blobby thing on the right all right

so this is what we'll call a lower GI bleed all right the patient's essentially crapping blood that's a lower GI bleed all right so given that just another hint this kind of implies that we're gonna talk about upper GI

bleeding later all right just so you know so there's lots of different causes for lower GI believes there's diverticular disease there's angiodysplasia switch our small malformations of the blood vessels

there's a ski mcdowell there's patients who maybe had radiation therapy for different cancers can be predisposed to bleeding cancer itself can cause bleeding and different inflammatory diseases like either infections or other

diseases can as lower GI bleeding now how do we work these patients up well usually I would think that most of the time these patients have hit an ir suite they've probably had a colonoscopy first and a

colonoscopy is really the first line used to assess what's going on with a lower GI bleed it's not that easy to do it's difficult to prep those of you who resolve this I am and have had a colonoscopy know that it's better when

you prep before the colonoscopy and if someone comes in with a lower GI believe they haven't been adequately prepped that makes the colonoscopy very difficult the other thing is remember you're going from the bottom up into

colonoscopy and you have blood coming at you in someone who is experiencing a lower GI bleed and that essentially means it's difficult to see so many times the colonoscopy is not really able to tell us what we need to know I would

say the next thing that usually happens is some type of imaging now of a sudden the patients are coming to radiology and what you may have is any one of three different options you might have a nuclear medicine bleeding scan you might

have a CT angiogram you might have a regular old conventional angiogram and for those of you saying who cares what's the difference just take some pictures the big difference is that the amount of bleeding that it takes to see it is

different for each of those exams so the most sensitive exam is the nuclear medicine scan that's going to pick up the lowest rates of bleeding a conventional angiogram is the worst scan we can do for GI bleed or worse imaging

we can do because you need a lot of bleeding to see it so when we saw when my friend here picked up the the blobby thing on the right would that bleed that's a big bleed like we can look at it and say aren't these really pretty

pictures but when we see it and you see that kind of bleed you have to realize that's a lot of bleeding to see it like that so our antenna has to go up and we have to start moving a little bit CTA is kind

of right in the middle and actually a lot of people are turning now to see TAS I'm not personally a huge fan of that because I think it's a waste of time and contrast in my opinion I think a CTA for GI bleeding is a way if I can translate

it is I don't feel like doing that case right now so I'm gonna get a CTA and we'll figure it out later all right that's that's my language for a CTA but in my opinion you know it has some value how do we treat them well if

you can see on colonoscopy then you can potentially treat it with colonoscopy and there's different things that they can do with their scopes obviously if there's more diffuse disease they can remove part of

the bowel that's that's a problem and then of course the answer is embolization exactly so here is the picture from our embolization procedure and what do you see all right I won't pick on anybody yet basically what we

did was you can see over there you can see the shade of our angiographic catheter there's a micro catheter now passing all the way into the actual vessel that's bleeding and now when we do an angiogram you can actually see the

vessel that's bleeding now conventionally in the old days for those of you that have been doing this for a while you probably are used to living in a world where it's not great to embolize lower GI bleeds it's better to embolize

upper GI bleeds and lower GI bleeds and the reason why is because there's less collateral flow so if we block up a blood vessel we essentially kill everything beyond where we blocked it up because there's no alternative routes

for blood to flow all right in this particular case you can actually see that long stringy thing going right to the bleed and here we were able to get into that single vessel and kind of see it right there the long think heading

towards 4 o'clock and when we embolize it you can see we put coils in there and blocked it up so the only thing we embolize there is the blood vessel going to the abnormality the risk of ischemia is low and the clinical efficacy is high

but if you can't make it all the way out there if we embolize let's say right there that entire loop of intestine would be infarct it and that would be bad so we always have to think about that when we're embolizing GI bleeds all

no thanks to the avir we really wouldn't be able to do anything that we can without y'all so I take great great pride in sharing things from our perspective said you folks can start contributing your own thoughts your own opinions and your own vision during

these cases I think it's certainly something that I've appreciated since the first day of doing invention where do you all do so having said that we're just a smidge in the behind side so we'll try to focus today is mainly a

survey to stimulate everyone in terms of what's actually happening on the other end of the catheter with respect to the patient why are we doing these things where's our role and I think that's gonna add hopefully some value the next

time you folks step in on one of these cases alright so as you know dr. daughter first was able to visualize the inside of a blood vessel and find a stenosis and a lady who had limb ischemia and then was able to use a

dilator to fix that so obviously that gave birth to interventional radiology so we started taking pictures of tumors just to diagnose tumors back in the day before we had actual imaging and what we found

was well if tumors have a high demand for blood just like anything else what happens if we take away that blood and this is a 1975 image of renal cell carcinoma is to call them hyper and if Roma's back then but basically the

concept of interventional ecology was born the moment you could do something to make the environment for the tumor less hospitable and to try to palliate patients if they weren't subject to the the gold treatment standards like

resection in this case so fast forward to 2016 there was a huge study was International where they looked at over 3 000 patients who have primary liver cancer or her pata cellular carcinoma and what they found was that regardless

of where but if you sum all the treatment decisions that are related to those patients about 70% will see treatment by an interventional radiologist as you know that was a astounding amount

so si are listened to a lot of these types of messages even outside of obviously oncology basically we realize that there's a tremendous responsibility and the best thing to do is to dedicate ourselves fully to that and that's why I

think with IR now is a separate medical specialty we're going to start seeing more of the clinical involvement of this and certainly think the caseloads going to go up so why interventional oncology

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

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

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

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

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

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

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

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

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

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

thanks everyone appreciate it [Applause] [Music]

you know the most common procedures in China this is kind of interesting I was blown away by this when I did the research on this I knew when I would go

into the hospitals and I was all over for I've been to Beijing shanghai nanjing to even the smallest little place is up in northern china and the one thing that blew me away I'm looking at the board and I'm seeing neuro case

after neuro case after neuro case I'm like it got 10 Narrows and and a pic line I'm like it's an interesting interesting Dysport of cases and the reason being is in China they consider diagnostic neuro

so neuro angio to be the primary evaluating factor for any type of neurological issue so you're not getting a CT if you come in with a headache you think you're gonna go get that cat scan now it's generally what not what they do

so you're talking about a case and I'll give you the case matrix of the break-up it's just proportionately high for a neuro very well trained in neuro and most of the guys that are trying to neuro very similar to what dr. well Saad

said a lot of the guys in Africa are trained in France so other neuro interventions have trained in France or lipstick in China and have received European training on that so you know the level of what they're doing some of

the stroke interventions some of the ways they're going after these complex APM's they'll Rob well anything you'll see here in the US so it is quite interesting to see and the second

largest is taste hepatocellular carcinoma is on the rise it's the highest level in the world is found in China and Korea for that matter and there's many reasons why we can go into it some of it is genetic factors and a

lot of societal factors alcohol is a very liberally lie baited in China and there is problems with you know cirrhotic disease and other things that we know could be particular factors for HCC so always found that very

interesting like I said I would go into a hospital and I'll see a PICC line a hemodialysis catheter and then 20 tase's on the board in one day so it is quite interesting how they do it and then biliary intervention stents tips and

then lung ablation you know the highest rates of HCC biliary cancer and lung cancer found in China and once again when we talk about lung cancer what are those contributing factors you're talking about certainly a genetic

component but mostly it's lifestyle factors smoking is prevalent in the US and in you know in Europe and in some areas in Asia we've seen obviously a big reduction in smoking which is fantastic China not so much you don't see that

it's a societal thing for them and unfortunately that has led to the the largest rates of cancer in the world in lung cancer so lung ablation is a big procedure for them over there as well so procedure breakdown this is kind of some

of that breakdown I was telling you about that cerebral procedure is some of the most commonly performed and you're talking about at very large numbers they're doing neuro intervention because they do it for die

Gnostic purposes and I would that kind of blew me away when I found out they do have cast scanners and certainly for trauma and things like that they'll do it but the majority of the stuff if you come in you have headaches you might end

up in the neuro suite so it's quite interesting how they can do that tumor intervention very high like I said you have the highest rates of HCC in the world you're getting cases they do have y9t available and in fact China just

made their largest acquisition ever with the by what you guys know a company they bought surtex there's a Chinese company now it got bought by China now the interesting is they don't currently have a whole lot of

y9t over there but they just opened up some of their own generators so they can actually start producing the white room 90 and I think you'll see probably a increase in those numbers of y9t cases but to date the number one procedure for

them is taste and they do a lot of them you know like I said on average a community hospital setting you might find 15 or 20 cases a day with three interventionalists so compared to what you guys do there's probably not many

people here unless you're working at a major institution that there's nothing but cancer doing 20 cases a day and I promise you're probably not doing it with only two interventionalists so it's amazing how fast and effective they've

gotten at and below therapy and unfortunately it is necessary because of those elevated HCC levels and like I said when we look at some of these things it's I go over there and I'm looking at the board there are very few

cases for you know PICC lines very few the frosted grams very new bread-and-butter abscess training procedures like we do here in the US they are very it's the prevalence is very simple it's neuro it stays and it's

biopsy and those are some kind of the big three for intervention in China and there it's such a large volume you get to learn a lot when you're over there and CLI PA D even though it's more prevalent in China than it is here

because smoking lifestyle factors certainly westernization of the diet in China which occurred since the 1950s and 60s has led to a lot of McDonald's and and fast food and things that weren't currently available prior to 1950s you

see a lot of PA d but it is very undertreated and certainly talking to some of my colleagues like whom are oh you'll get to see a little bit later on with CLI fighters one of the things that's kind of frustrating for them is

that it is so undertreated it's very common to see amputations in China instead of actually doing pipe in percutaneous intervention they normally like to go too far and you see a lot of amputation certainly above

normal so that's something I think as an interventional initiative when we look at these things coming from a Western perspective it's definitely something we need to pursue a little more aggressively but there it's very little

oh well you're talking about two you know two to three percent you know maybe up to six percent or PID cases very very low levels so equipment in equipment in

similar but similar story an older patient who presented for a biopsy of a right renal mass now sometimes it's a skiing accident sometimes it's a car accident sometimes it's us that causes

these problems so here's a patient who came in for a biopsy of a renal mass here's the CT scan hopefully you can appreciate that the patient is face down or prone on this scan this by the spine is on the top side you can see our

biopsy needle going into a mass in the left kidney excuse me the right kidney and now this is the she comes back later because of some pain and now in a manner that's similar to what you said earlier on that first CT scan you can now see

the right kidney is pushed forward by a very large retroperitoneal hematoma so this is probably a post biopsy bleed this doesn't happen very often in fact as someone who does kidney biopsies once or twice every day I'm shocked that this

doesn't happen more often we're sticking big needles into vascular organs or vascular masses it's amazing that we don't have more patients come back for this it only happens about 2% of the time and usually people who have these

types of risk factors are at risk for this type of bleeding after a biopsy but we can do is we can go in do an angiogram and again I want you to just appreciate look at the picture I think everyone hopefully can see on the bottom

of the picture there's this active extrav enough contrast from the lower pol renal arteries all right lo pol renal artery and that's bad if it's great in a lecture because it's very easy for everyone to see but the reality

is it really signifies very significant bleeding and that's what everyone here should appreciate if you're managing the trauma patient or the bleeding patient if you see if this Cleary this clearly means everyone's got to move a little

faster to address it because this is a bad bleed but the great news is that we have the technology now to go all the way into the renal arteries or frankly the arteries of any organ get very far distant land just embolize it and so

look how far we got here for this patient we took care of it this patients kidney function didn't pump an inch because the reality is there was very little impact on the normal parts of the kidney so that's the goal if you guys

work with people who say oh we don't have to get that far out just throw some coils you know near the origin it's fine it'll accomplish the same goal but at the same time they will have killed half of the patients kidney so it is always

worth making some effort to get as far as you can into the organ that you're treating but at the same time you don't want to take an hour to do that because the patient's bleeding pretty heavily and you have to address it so that's our

goal during these procedures next case

positron emission tomography is the use

of a radioactive tracer in this case FD gee her fluorodeoxyglucose to assess the metabolic activity of ourselves ftg is tagged with glucose and glucose is used by our body for energy cancer cells are thought to be our Armour hypermetabolic

so if we inject FDG to our patients it goes to areas with hyper metabolic activity this area is called a hotspot and when a hotspot is noted in a PET scan its it's thought to be cancerous this is an example of a hyper metabolic

region noted in the pelvic area of the patient this patient is diagnosed of cervical cancer and what is MRI as you all know MRI is the use of radio frequency currents produced by strong magnetic fields to provide detailed

anatomical structures it is the preferred method for imaging soft tissue organs and there's no ionizing radiation present now what is pet MRI pet MRI is a combination of these two modalities instead of going to two scans using two

scanners we have one scanner that is able to obtain pet and MRI images simultaneously so why can't we just call this pet well we run through a few problems we have fdg-pet CT where it's a PET scan with low-dose CT accompanying

it and there's fdg-pet CT with diagnostic CT we're full sequences of CT is coupled with a scan and a pet MRI always has a diagnostic MRI done with it

workflow for pet MRI upon arrival the patient have to fill out questionnaires the MRI screening for contrast and allergy assessment pet screening form

the RT will review MRI screening for after he checked that the patients at MRI safe and no presence of a Mia Ferris fragments or anything he would give the paper to the RN the patient then will be escorted through the change room and

asked to put on robe and non slip shots this is these are the responsibilities of the nurse in our clinical workflow for pet MRI RN to review pet screening form and contrast questionnaire if patient have to receive gadolinium check

kidney function EGFR below 15 you notify the radiologist except for a of s below 30 you notify the radiologist check for allergies if allergic make sure patients is properly pre-medicated

check for Medicaid presence of medication patches and implanted infusion pumps now also you have to check for patient's blood glucose monitoring I have one but I would but I don't go inside the scanner so I'm safe

check for pregnancy status with pediatric patients we have a special process to follow the iron then obtains blood glucose and record if blood glucose is 70 to 199 we proceed with the scan anything above 200 we follow the

glycemic management with PET imaging flow chart and here's how our PET imaging flow chart looks like it looks complicated by its color coded it's three pages but I would like to show you some key points like the administration

of insulin is also based on the level of BMI you see on the arrow says BMI below 25 and there's another flow chart is if it's above 25 after that the patient will be brought back to the pet designated injection room

remember our pet MRI is located in zone three of the MRI area so prior to that the RT would the screen the patient again the patient would pass through the wall-mounted metal detector and nobody could go into song free without escorted

by the IRT or a nurse you have to swipe your ID to open the door mission when the patients in the hot room are in would obtain the height in centimeters and weight in kilos after that the RN now could do IV access once

secured you call the range of pharmacists that you're ready to inject so we wait until and the FDG dose would come up through the pneumatic children this is how our hot lab looks like the pneumatic tube to your left above is the

shower and we have the hoop to prepare for the dose or check for the dose and the wash station and once the those arrives the nurse injecting and the RT is scanning or the RT assisting just always two artists in one machine in our

MRI Department we have four magnets and only one is for MRI PET MRI it's always two artists in each machine so one RT is assisting you and with the patient so once the FDG arrives we do a patient identification using two patient

identifiers we check the label and the dose if it's correct the FDG then will be injected to the patient once injected we tell the patient they have to wait for 40 minutes during this time we instruct them to stay still not stay

still but limit movement and stimulation and inform them that we have a camera inside that room and the nurses in a and the nurses could monitor them in the nurse's station one RT will set up the scanner and computer

and patient will be screen and wondered prior to so on for so you get wandered twice check for ferrous presence patient then will be positioned on the scanner table by the pet mr technologies it takes 15

to 20 minutes for setup you have seen how the patient is position the whole body is covered by the coils and head is covered by another coil as anybody among he works in the institution who requires time out prior to injection raise your

hand please at ms KCC we do this is done by the injecting nurse and the RT is scanning the RT is reading information directly from the monitor not anywhere in the monitor while the nurse is comparing and listening into the using

the documents on hand this is done to ensure the five rights the right patient the right scan the right area your scanning the right contrast those and rate and method of administration as you all know is either given IV push or by

the dynamic or the injector timeout will be done if patient will be receiving gadolinium once the scan is finished IV access will be removed our artists are trying to remove and inject also so they are capable of removing the IV the

radiation card will be handed to the patient and paste after that patient would be assisted to the change room and discharge there is good thing when you change the patient into the robe and the non-skid

sucks because just in case there's a spill you're not sending that patient into the paper outfit they're not gonna be happy at all now I'm gonna bring you

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

good morning everybody it's great to see everyone and be in Austin the weather has been amazing especially for me coming from Chicago I'm Joe woo interventional radiology technologist and the clinical specialist with Argonne medical devices is Samantha explained

been in the field for was in the field for eight years before transitioning over to this side I've been a clinical specialist with Argonne medical devices for the past three years I was um one of the guys that worked in general x-ray

and kind of spent some time in IR with my freetime and when a position finally opened up jumped on it always knew I wanted to be in IR as a student always had tons of fun doing it worked with people putting in PICC lines and doing G

tubes and I always thought that was so cool and that was definitely more fun than doing like portable d cube abdomen x-rays so I always thought that was my calling was lucky enough to get that position and when I finally got it I was

ecstatic and just super happy about it and I'm definitely one of the people that can say I love interventional radiology and I find so much joy in it and I hope you guys can say the same for yourselves I've been working as a

clinical specialist for the past three years of ice as I said and I'm just here to pass along some information to you guys and hopefully I'm if you guys are looking or considering position in the industry side you guys will actually

take something out of this and hopefully this will be able to help you move and move towards that direction if that's a goal for yourselves with a very diverse group of attendees today so I'm gonna ask a few questions I'll have you guys

raise your hands if it applies to you I'll raise my hand as well so you guys know if it applies to me so um I'm just gonna start by asking my radiology technologist who are my radiology technologists in the room today

awesome great to see you guys and of my radiology technologist how many of you guys are vascular interventional certified CI certified VI certified grade and who's working on there are working

towards their certifications anyone in the room working towards their certifications great everyone certified oh I saw one hand back there I think great good luck a var is definitely very helpful for that and who's been in this

field as their first career okay I didn't a couple of people great and who's been in this field as their second career more than that yeah I definitely did a couple of jobs before moving into this career who

dreamed of being an IR tech or an x-ray tech as a kid one okay we got one great that's awesome following her dreams that's awesome so now that I've gotten to know you guys a little bit better let's get into it

and I want to start by saying look to the left look to the right look in front of you look behind you I always believe that we are the best of the best technologists we do so much there's so much that we have to know I wanted you

guys to all just give yourselves a pat on the back and I definitely want to say thank you for everything that you guys do I believe my story is a very unlikely

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

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

something some case examples of where I use cryoablation right so this is a

patient who has a nodule in the in the back of their lungs in the right lower lobe and basically I'll place two probes into that notch on either side of Brackett the lesion and then three months later fall up you can see a nice

resolution of that nodule so when it comes to lung a couple things I'll mention is if the nodule is greater than eight millimeters I'll immediately go to two probes I want to make sure that I cover the lesion whereas microwave it's

pretty rare depending on what device you're using for you to put more than one probe in so some people's concern with cryo in the lung is more probes means more risk of pneumothorax but you can also see surrounding and proximal to

where we did the place you can see the hemorrhage that you see so if those of you out there that are doing the lung ablations you probably have physicians that are using something called the triple freeze protocol right so the

double freeze protocol is the idea that you go ten minutes freeze five minutes 30 minutes freeze five minutes thought well what we saw was lung early on in the studies was a very large ablation a freeze to start with caused massive

hemorrhage patients were having very large amounts of hemorrhage so what we do now in lung is something called a triple freeze protocol we'll do a very short freeze about three minutes and that'll cause an ice ball to form and

then we'll thaw that in other three minutes three minutes of thawr and as soon as that starts to thaw we'll freeze it again and we've shown us a substantial decrease in the amount of hemorrhage so if you're doing long and

you and you you're told to do a double freeze protocol perhaps suggest the triple freeze is a better idea so that's three months later so another example

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

blasian it's well tolerated and folks with advanced pulmonary disease there's a prospective trial that showed that

there are pulmonary function does not really change after an ablation but the important part here is a lot of these folks who are not candidates for surgical resection have bad hearts a bad coronary disease and bad lungs to where

a lot of times that's actually their biggest risk not their small little lung cancer and you can see these two lines here the this is someone who dr. du Puy studied ablation and what happens if you recur and how your survival matches that

and turns out that if you recur and in if you don't actually a lot of times this file is very similar because these folks are such high risk for mortality outside or even their cancer so patient selection is really important for this

where do we use it primary metastatic lesions essentially once we feel that someone is not a good surgical candidate and they have maintained pulmonary function they have a reasonable chance for surviving a long

time we'll convert them to being an ablation candidate here's an example of a young woman who had a metastatic colorectal met that was treated with SPRT and it continued to grow and was avid so you can see the little nodule

and then the lower lobe and we paste the placement prone and we'd Vance a cryo plugs in this case of microwave probe into it and you turn off about three to five minutes and it's usually sufficient to burn it it cavitate s-- afterwards

which is expected but if you follow it over time the lesion looks like this and you say okay fine did it even work but if you do a PET scan you'll see that there's no actually activity in there and that's usually pretty definitive for

those small lesions like that about three centimeters is the most that will treat in a lot of the most attic patients but you can certainly go a little bit larger here's her follow-up actually two years

that had no recurrence so what do you do when you have something like this so this is encasing the entire left upper lobe this patient underwent radiation therapy had a low area of residual activity we followed it and it turns out

that ended up being positive on a biopsy for additional cancer so now we're playing cleanup which is that Salvage I mentioned earlier we actually fuse the PET scan with the on table procedural CT so we know which part of all that

consolidated lung to target we place our probes and this is what looks like afterwards it's a big hole this is what happens when you microwave a blade previously radiated tissue having said that this

was a young patient who had no other options and this is the only side of disease this is probably an okay complication for that patient to undergo so if you follow up with a PET scan three months later there's no residual

activity and that patient actually never recurred at that site so what about

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

ultimately we did it so what are

plan as well so I wanted to talk a

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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