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Appendiceal Abscess | Percutaneous Catheter Drainage (Anterior)
Appendiceal Abscess | Percutaneous Catheter Drainage (Anterior)
2016centimetercircumferentialcolondrainagegastricloopsmicroneedleposteriorpreliminaryscanSIRtechniquevalve
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
Cone Beam CT | Interventional Oncology
Cone Beam CT | Interventional Oncology
ablationanatomicangioarteriesarteryartifactbeamchaptercombconecontrastdoseembolicenhancementenhancesesophagealesophagusgastricgastric arteryglucagonhcchepatectomyinfusinglesionliverlysisoncologypatientsegmentstomach
Case 1 - Non-healing heel wound, Rutherford Cat. 5, previous stroke | Recanalization, Atherectomy | Complex Above Knee Cases with Re-entry Devices and Techniques
Case 1 - Non-healing heel wound, Rutherford Cat. 5, previous stroke | Recanalization, Atherectomy | Complex Above Knee Cases with Re-entry Devices and Techniques
abnormalangioangioplastyarteryAsahiaspectBARDBoston Scientificcatheterchaptercommoncommon femoralcontralateralcritical limb ischemiacrossCROSSER CTO recanalization catheterCSICTO wiresdevicediseasedoppleressentiallyfemoralflowglidewiregramhawk oneHawkoneheeliliacimagingkneelateralleftluminalMedtronicmicromonophasicmultimultiphasicocclusionocclusionsoriginpatientsplaqueposteriorproximalpulserecanalizationrestoredtandemtibialtypicallyViance crossing catheterVictory™ Guidewirewaveformswirewireswoundwounds
Nodule in right lung | Cryoablation Case | Ablations: Cryo, Microwave, & RFA
Nodule in right lung | Cryoablation Case | Ablations: Cryo, Microwave, & RFA
ablationablationschaptercryocryoablationfreezehemorrhagelesionlungLung Noduleminutesnodulepneumothoraxprobesprotocolproximalthawtriple
Renal Ablation | Interventional Oncology
Renal Ablation | Interventional Oncology
ablationcardiomyopathycentimeterchaptereffusionembolizedfamiliallesionmetastaticparenchymalpatientpleuralrenalspleensurgerytolerated
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
Intra Procedure | Transforming from Clinical IR to Clinical Trials with Tirapazamine (TPZ)
Intra Procedure | Transforming from Clinical IR to Clinical Trials with Tirapazamine (TPZ)
anesthesiaangiographyartifactassistedbeamchaptercombconedrawsekgelisaembolizationequipmenthcchepatocellularimaginginjectioninterventionalintraoperativemedicalNonenurseoximetrypatientphotopositioningprotectedradiologysedationspecialtiesspecialtystopcocksyringetechnologisttomographytumor
TIPS: Techniques- Stent Grafts | TIPS & DIPS: State of the Art
TIPS: Techniques- Stent Grafts | TIPS & DIPS: State of the Art
advantagesarteryaspirateballoonbarebasicallybilecentimeterchaptercontrastcovereddilatedisadvantagedisadvantagesdistalexpandingflowgaugegorehepaticinjectinjectingkitsleaksmultipleneedlepasspassesphysiciansportalportionposteriorproximalpullpushradiologistssalinesheathstentssystemveinvenous
Pulmonary Ablation | Interventional Oncology
Pulmonary Ablation | Interventional Oncology
ablationactivitycancercandidatechaptercolorectalcryodiseaselesionslobelungmetastaticnodulepatientpulmonaryrecurrecurredresectionresidualscansurgical
Case- Severe Acute Abdominal Pain | Portal Vein Thrombosis: Endovascular Management
Case- Severe Acute Abdominal Pain | Portal Vein Thrombosis: Endovascular Management
abdominalanticoagulantsanticoagulationaspirationCAT8 PenumbracatheterchapterclotdecideflowhematomaintrahepaticlactatelysisneedlepainportalPortal vein occlusion-scanstenosisstentthrombolysisthrombosedthrombustipstransitvein
Case 3a: Splenic Trauma | Emoblization: Bleeding and Trauma
Case 3a: Splenic Trauma | Emoblization: Bleeding and Trauma
angiogramangiographybleedingchaptercoilscontrastembolizationembolizeextravasationgradehemodynamicallyimagelacerationlacerationsmicrocatheterNoneorganpainpatientproximalquadrantscanspleensplenicSplenic Traumatrauma
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
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
Case- May Thurner Syndrome | Pelvic Congestion Syndrome
arterycatheterizecausingchapterclassiccliniccommoncommon iliaccompressioncongestionendovascularevidenceextremitygonadalhugeiliaciliac veinimagingincompetenceincompetentMay Thurner Syndromeobstructionoccludedpelvicpressuresecondarystentsymptomstreatmentsvalvularvaricositiesvaricosityveinveinsvenavenous
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
Case 5: Liver Trauma | Emoblization: Bleeding and Trauma
Case 5: Liver Trauma | Emoblization: Bleeding and Trauma
activeangiogramarterybleedingbloodchaptercoilsembolizationembolizeextravasationhematomainjuryleakingliverLiver TraumamelenamicrocatheterNonenoticeportalposteriorpseudoaneurysmtraumavenousvessels
Case- Migration of Ingested Foreign Bodies | OMG: Interesting Cases in Pediatric Radiology
Case- Migration of Ingested Foreign Bodies | OMG: Interesting Cases in Pediatric Radiology
abdominalbodychaptercomplicationsingestionlumenmesomigratedmigrationneedleNonepalpaterarerectal
MRI Safety & Screening | PET/MRI: A New Technique to Obtain High Quality Diagnostic Images for Oncology Patients
MRI Safety & Screening | PET/MRI: A New Technique to Obtain High Quality Diagnostic Images for Oncology Patients
aneurysmassesscardchaptercontraindicateddefibrillatorsimplantimplantsinjectedinjectionmraMRINonepacemakerspatientpatientsradioactiveremovescanscreenedshieldingzone
Case- Brain Infarction | Brain Infarct After Gastroesophageal Variceal Embolization
Case- Brain Infarction | Brain Infarct After Gastroesophageal Variceal Embolization
anastomosisangiographyaphasiaapproacharrowarteryartifactbrainbronchialcalcificationcatheterschannelschapterchronicChronic portal vein thrombosuscollateralcyanoacrylatedrainembolismembolizationendoscopicendoscopistendoscopygastricGastroesophageal varixglueheadachehematemesisinjectionmicromicrocathetermulti focal brain infarctionmultipleoccludedPatentpatientpercutaneousPercutaneous variceal embolizationperformedPortopulmonary venous anastomosisprocedureproximalsplenicsplenomegalysplenorenalsubtractionsystemicthrombosistipstransformationtransitultrasonographyvaricesveinvenous
Case 4a: Renal Trauma | Emoblization: Bleeding and Trauma
Case 4a: Renal Trauma | Emoblization: Bleeding and Trauma
angioangiogramangiographyarteriovenouscenterschaptercoilscontrastembolizationembolizeembolizedextravasationFistulagradehematomahemodynamicallyimageinjurieskidneyNoneparenchymapatientspenetratingpictureposteriorrenalRenal Traumaretroperitoneumscanspleensurgicallytrauma
Role clarity for the nurse in the radiology department | Defining and Development of the role of the Nurse Practitioner within a Radiology Department
Role clarity for the nurse in the radiology department | Defining and Development of the role of the Nurse Practitioner within a Radiology Department
barrierscatheterschaptercounselingcredentialingdrainageframeworkinpatientinterventionalkyphoplastylicensuremedicalNonenurseperformperformingphysicianspostpracticepracticingpractitionerpractitionersprocedureproceduresradiologyrolesentinelworkflowworkup
TIPS Case | Extreme IR
TIPS Case | Extreme IR
antibioticsascitesbacteriabilebiliarycatheterchapterclotcolleaguescommunicationcovereddemonstrateddrainageductduodenal stent placementfull videoportalrefractoryshuntsystemthrombolysistipstunnelultrasoundunderwentvein
Nodal Lymphangiography | Lymphatic Imaging & Interventions
Nodal Lymphangiography | Lymphatic Imaging & Interventions
angiographycenterscentimeterchapterductembolizationinjectinginjectionluerlymphlymphaticsneedlenodenodespropofolsyringesthoracictubing
Venous Insufficiency- Imaging | Pelvic Congestion Syndrome
Venous Insufficiency- Imaging | Pelvic Congestion Syndrome
chaptercompressibleevidenceflowgonadalgrayiliacincompetentinsufficiencypelvicpelvissecondarysequelaeultrasoundvalsalvavalvevalvesvaricosevaricose veinsvaricositiesveinveinsvenous
Case 6: Pelvic Fracture | Emoblization: Bleeding and Trauma
Case 6: Pelvic Fracture | Emoblization: Bleeding and Trauma
angiogramaortabottomchaptercoilscontrastcontrolembolizationextravasationfracturegoalimageimagesinjuryNoneparticlespatientpatientspelvicPelvic fracturepicturepicturesscanselectivetraumaunstable
Case- Vaginal Foreign Bodies- 11 year old female | OMG: Interesting Cases in Pediatric Radiology
Case- Vaginal Foreign Bodies- 11 year old female | OMG: Interesting Cases in Pediatric Radiology
abdominalbodiesbodychapterdiarrheafemalesfluidforeignhematuriahistoryHysterotomy finds golf tee in uterusimagingNoneobject foundobjectspainpyelonephritisscansensitivesuspicious of UTIultrasoundvaginal
The Procedure - Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
The Procedure - Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
anastomosisarteryAvenu MedicalballoonbrachialcephalicchaptercreationdeviceEllipsysFistulaflowflowinglinesneedleperforatingperforatorpiccproximalpuncturepuncturedradialsurgicalultrasoundvein
Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
anatomicanatomyarterybasilicbrachialcephalicchapterdeepdevelopeddevicefishFistulafistulasflowforearminterventionalmedianneedleneedlesnerveperforatingperforatorprocedureradiologistradiusselectivelysuperficialtexastransposedultrasoundupperveinveinsvenous
CT Imaging- Acute PE | Management of Patients with Acute & Chronic PE
CT Imaging- Acute PE | Management of Patients with Acute & Chronic PE
acuteangiogramappearancearrowarteriescenteredchapterclassiccontrastcoronalimaginginfarctluminalNonepatientperfusionpulmonarysagittalscansegmentalsurroundingtechnologistthrombolysisthrombusvesselview
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
Transcript

In this case here so when you're thinking about collections that are in the deep pelvis. The real challenge is circumferential limitations around these collections. Here on either side sort of in the 180 degree arch around this collection

we have bonny structures that limit access from a lateral posterior approach in most cases. Most cases anteriorly you'll have loose of valve either large valve or colon that are gonna limit you. In this case we were able to find a small window. And between loops of colon even though the preliminary imaging would

have suggested that there would be bowel loops anteriorly and the point really is to say before you say no, it's better to say let's give it a try and see how things lay out on the day of the procedure at the time of the procedure.

And here you can see very nicely we have a very small window, probably 4, 5 millimeters, maybe a centimeter at most, but something that allows at least a Seldinger/g technique drainage of this collection. Our usual default technique at the MGH is due tandem-trocar which

is relatively straightforward and simple. But in a case like here where you're dealing with very limited real estate, either a micro needle, and a micro wire, an up sizing or if you can fit sometimes a 19 gauge ultra-thin chiba/g needle will accept an 035 inch guide wire. So you can go from initial needle puncture to a strong working wire

to effect drainage here. The one thing to keep in mind as I'm sure you're all thinking about when you look at this approach are the emphatic gastric vessels. You always wanna make sure either on the preliminary scan or under

diagnosis scan that you review those caps to make sure you know exactly where the course of emphatic/g gastric are going. Because for a small vessel it can bring all kinds of havoc if you hit it. So you always wanna make sure know exactly where those vessels are. The other thing

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

will you talk about your website that you have no it's not really isn't it no

no I just what I do is and you know it's like I said you try to pay it forward give back so every morning I just scan the Internet and I put articles that may be of interest like you know it could be about skin cancer it could be about

colon cancer I can tell you that I don't know if you're aware of this but a lot of the cancers are going down right the incidence for the Millennials I'm talking people who were twenty and thirty years old because they're on

their phones a lot of them are obese the incidence of colon cancer has jumped up 25% in those people these are 30 year olds with a kid or two kids will get an advanced colon cancer and so those are the kind of things I put up there you

know and then if a drug is taken off the market and this new thing about roundup you know I put that so you can just go to it's called one I am club and it's on Facebook and it just has when I got sick the thing that and nothing against

breast cancer but breast cancers like sucked up all the old marketing you know and there's so I have a logo that includes 28 ribbons because there's 27 other cancers that have a ribbon that don't get as much play so it was like I

wanted so the website address and not the website but the Facebook page addresses all cancers because you know there's childhood cancer that like this was colon cancer month last month was cervical cancer month and so whatever I

can put on there I do some of the articles are I try to scan the articles I guess it's censoring but because I don't want BS on there either you know because there's the thing that Frost's me I gotta have to tell you is when like

what's named from jeopardy when a star gets cancer all of a sudden the Internet is like Oh Tribeca cancer Trebek got cancer proud and and and it just sickens me because

how many people have cancer who are not Trebek pancreatic cancer right you know and then I'll get like one stars mother gets cancer and there's eight articles on that it's like they forget about the people who were out in the public you

know and and so I try to just put that up there so just for educational purposes that's all what it's one I think it's one spelled out I am and it would it what I originally had it was for one-in-a-million because you want to

be that one in a million you know so I hope you enjoyed it thank you [Applause]

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

okay next up this I think this video yep

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

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

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

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

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

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

24 year old patient after a car accident has lower abdominal pain and melena so blood coming out of the rectum here's the CT scan anyone want to take a stab but you can just shout it out

so this time we're looking at the liver right so the liver is the big thing on the right side of the screen and what you can see is the dark hematoma posterior to the liver but you should also notice that big white dots sitting

right in the hematoma all right that's important because that's active bleeding that's the report when you guys when you guys get called in for these cases and someone says oh this you know liver trauma with active

bleeding this is the picture that is spurring that announcement okay this is what active bleeding and the liver looks like again there's a bleeding scale there's an injury scale for a liver trauma we don't need to go into that

slides are available if you want them alright here is the angiogram now again my rule works all right if you see vessels get smaller and then big again something's abnormal so in this particular picture I want you to notice

the catheter sitting in the right hepatic artery the blood is going up into the right lobe of the liver and right near the top of the pictures that big circular kind of blobby thing now this is by definition extravasation

sometimes we use the term pseudoaneurysm to describe this I just want you to appreciate what a pseudoaneurysm means it means that there's a hole in the artery that contrasts or blood is leaking out of that hole and the body is

essentially constraining the bleeding it's not going all over the place it's being constrained that's what we call a pseudoaneurysm all right that's just one way to look at it and geographically so this is an injury to the artery blood is

leaking out of the artery but maybe one layer of a three-layered blood vessel or even just the surrounding tissue is constraining that bleeding alright so what do we want to do for this exactly exactly you're getting it all right so

here we can get our microcatheter all the way out there the closer we get to it the better now in end organs like the liver or the kidney we don't actually have to get all the way out there getting close to it's going to be good

enough but the closer we get to it the better for stopping the bleeding and preserving the function of that organ all right so look how close we literally got right into the injury and then we're able to embolize it that's the goal all

right now the liver is a nice place the treat because as you know there's two sets of blood vessels going to the liver there's the portal veins in the apat ik artery so if we just embolize a little a patek artery the

liver is not going to notice that at all because it still has the portal venous flow bringing blood to that liver but our goal is to get in there preserve as much of the liver that we can and address that injury okay here's another

one is a little bit more rare in that

this is a farm body that migrates so migration of the foreign body towards abdominal organ and it is rare but it can and does happen so here we have a 2 year old with a sewing needle ingestion who they followed for three months

without evidence of expulsion but this kid continued to have intermittent abdominal pain fussiness just overall crankiness and the parents decided that they were tired of just following this so they went for a second opinion and

they awry when they got for their second opinion they did indeed get more x-rays and it showed this and I'll show you in a minute they it showed the sewing needle in the lower abdominal quadrant they could not see it by practice Coupee

excuse me but what they did which in as you read along it didn't look like they had done anywhere else was they did a complete hands-on physical exam as well and they could actually palpate by rectal exam and then determined that it

had migrated and maybe you know maybe the migration had occurred over time and was not there when it was looked at earlier so this child ended up with a mini laparotomy do to the concerns of the migration out of

the lumen the needle was found in the meso : he had a significant recovery and three month post procedure follow-up showed no complication here this one's a little harder to see sorry I'm pointing problems it's the long straight can you

guys say it so again our take-home points although they are rare make em migrate outside if not removed early radiological follow-up as well as physical examination is important to identify potential complications and any

foreign body suggested to have migrated outside of the lumen should be considered for removal without delay because of the potential for traumatic complications okay alright she swallowed

MRA safety is one of our top priorities in our unit we have set up MRI zones zone one being the patient waiting area

zone two is where they change and they get screened zone three is where our control room is and anyone who passes by zone three has to get screened our pet MRI injection room is actually inside zone three and zone four is an MRI

scanner itself we assess risk in our patients for their implants we were iterate to them the importance of bringing their implant card with them just so it's easier for us to assess the compatibility of their their implants

with MRI right now we have the capability of scanning cardiac pacemakers and defibrillators it just needs more coordination with our in-house cardiology service and the implant representative rest assure

expanders and aneurysm clips are so contraindicated inside the skin we tell our patients to remove some items that they are able to remove such as dentures hearing aids piercings and prosthetics if they have it as for radiation safety

we observed the concept of Alera or as low as reasonably achievable you know before we inject the patient with the isotope we keep them comfortable we give them blankets we give them the pillows and we tell them

after they get injected that they are radioactive so we try to limit our exposure to them after they get the injection now we try to keep our distance from them and we have shielding lead shielding within the pet MRI area

now we have lead shield syringes available for the nurses use and we have dedicated a hot hot bath room a hot room and radio pharmacy we Ritter we give these puppies this injection card to the patient after they get the scan and we

were either a to them the importance of this card we have the stories from our patients where after the after they scan gone home and they passed through the tunnels or the bridges that they actually have been pulled over by the

police because the police have very sensitive radioactive detectors there was one patient who may have forgotten his card may have lost his card and he got pulled over and the police had to call our institution to confirm that he

really did have an isotope injected we

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

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

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

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

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

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

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

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

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

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

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

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

unfortunately there is not we need to look at what the patient needs from our services there's not a set role for nurse practitioners we also need to allow the NP to practice to the fullest

extent to optimize quality services what is the or what is the potential for the role in radiology I have talked to nurse practitioners some of them are doing consents and agent P's some of them are scheduling patients some of them are

doing procedures I'm hoping to form a group to get together so that we can go forward and write a standard for the nurse practitioner in radiology radiology nurse practitioner can do perfectly procedural workup performing

procedures coordinate care for interventional radiology patients communicate with health care providers referring services follow-up for inpatient post procedures perform consults pre and post procedure in

clinics for those you fes the kyphoplasty z' provide patient education and counseling administer ionizing radiation interestingly enough up until two months ago I was performing Sentinel notes and a new physicist was

hired and that task was taken away from me stating that I wasn't on the license for the hospital however they now have technologists injecting the Sentinel nodes and also it's very very important that we stay

abreast of policies and are well aware of the new any new implications for change in the ACR the interventional is a SAR etc pre procedure will work up what is it consists of clinical duties histories and physicals obtaining

informed consent ordering lab tests and admission procedures post procedure follow-up is evaluation management prescribing outpatient medication discharge and follow-ups what procedures can nurse practitioners form and what is

it depends on what is approved by your Medical Board listed right on your credentialing form is the procedures that you can be approved for traditionally nurse practitioners perform vascular access procedures all

ports pics central lines dialysis catheters additionally non invasive are the drainage thor's Paris thyroid biopsies lumbar punctures drainage catheters and removals drainage catheter evaluations

etc there's a whole list so the question arises what prevents us from practicing to the fullest of rcent extent what are the barriers to practice lack of role description and understanding of that role lack of knowledge of scope of

practice restrictive legislation and regulation of the role conflicting expectations from physicians certain physicians want you to do certain procedures there's others and then they can be in the same group that

don't want that at all and dominance of the medical profession the AMA has made statements where the physicians don't really believe in nurse practitioners because how could a nurse practitioner function the same way they

do when they go sit through such rigorous training to get their medical degree payer policies billing it's a lot of it is linked to state practice regulations and licensure and Varion scopes of practice what are certain

strategies that we can do to overcome barriers redefined professional boundaries inter and intra professional collaboration team-based work process identify areas of practice improvement vision for the entire team future

practice and Pepa and I'm gonna it's a pepper framework and I just I love this and I think that not only can it be used for pulling this role forward but there's many many instances in our workflow that we could

use it and emotional intelligence so the pepper framework is a nine step

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

angiography came along towards the tail end of my fellowship so around 2011-2012

actually a children's Boston initially and then subsequently done in Penn in adults and this really became as simple as doing a lymph node biopsy basically sticking it on a lymph node while it seems novel it's really

interesting because if you go back to 1931 that's actually when they started doing some of this work when they were actually injecting the lymph nodes with these different tracers and they could see so it's a combination of a little

bit of ingenuity and looking back at our history and we the way that made it a lot easier for everybody this is basically my little setup here and I used some Italian syringes a plastic opaque three way so

that the lapa doll doesn't dissolve through it the medallion syringes hold up a lot better than the typical day we used luer lock stuff I use long propofol type thin bore tubing I attached it to a nine

centimeter long 25 to 27 gauge spinal needle I take the inner styler out of that cheeba so that because it's such a skinny needle that it bends a lot and this way I can put it right into the lymph node without having to connect it

to the tubing and then I can start my injection right away the 2115 cheeba there and that scalpel are really the only other things that I need to get started to do a successful thoracic duct embolization other thing that's really

critical is I always ask my texts and nurses to slap SC D's on the patients and if once we have the SC DS it really speeds up the procedure by an hour to two because you have this constant compression of the Venus and the

lymphatics and the legs forcing more fluid to make your thing to make your case I move along more quickly so something that was more recently adopted at many medical centers and these are the type of images that you get so I

stick my needle into the lymph node and I start this injection you give this beautiful arborization of the lap I doll contrast as it continues to spread and move from one lymph node to another you see there's a central area there that

isn't filling that's actually the lymph node that's already transmitted the lap idol and this was the image that I showed you initially so same image injection injecting of different lymph nodes you can see the transit from one

area to the rest of the chain in the pelvis hepatic lymph angiography is not

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

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

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

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

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

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

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

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

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

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

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

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

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

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

in there okay so foreign bodies she put it where so females may present with

abdominal pain and what we think about with females with abdominal pain we think about constipation gastritis UTIs pyelonephritis or renal stones and we but what about a vaginal foreign body four percent of cases of girls with

genital complaints in the emergency room have been found to have a vaginal foreign body those bought foreign bodies include toilet paper hair ties safety pins pencils candy and more common in three to nine year olds of course in

history you would ask about tampon use but these foreign bodies can my great all the way up through the cervix and the signs and symptoms that they present with our vaginal bleeding dysuria hematuria foul odor and lower

abdominal pain okay so when you're looking at diagnosing vaginal foreign bodies x-rays are really less sensitive to objects that are made of wood and plastic you may not see it on an x-ray ultrasound and MRI are sensitive to

differences in water content and inflammation and again ultrasound can provide dynamic imaging so you may be able to see as that object has migrated CT scan is less sensitive especially if the objects been there for a while and

has retained fluid and the clinical picture and the imaging may not exactly reveal the diagnosis so this case is an 11 year old with menarche she has a history of ADHD she's been complaining of abdominal pain 7 on a scale of 1 to

10 and she's had a fever for two days her pain is worse with activity it's improved when she takes a warm bath she's not as active as usual and her Pio in takis is down a little bit but she has no sore throat no congestion no

coughs s pain nausea vomiting diarrhea no hematuria no dysuria no headache and no rash she's had vaginal bleeding for about two days and suspicious of a UTI her abdominal ultrasound she notes some free fluid in the pelvis and they do a

history t'me and find a golf tee found in her uterus which created an abscess and required a washout and dream and I'll show you some of that okay so we could see here you could see the foreign body noted here on CT scan and here's

the piece of the golf tee so you're able to see that I'm glad I'm doing this before lunch instead of after lunch right

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

and here's the results of the FDA trial

and what's available the ellipsis device

which is a startup company still hasn't been bought by anyone it was developed by an interventional radiologist named Jeff hall if you know Jeff from Richmond Virginia and it's a totally ultrasound mediated placement it only requires one

puncture into a cephalic or a perforating vein and then you go from the vein into the artery and I'll talk about that in a moment then the everline the queue device now cold wave link wave linq device i was formerly a TV a

medical developed here in Austin Texas and recently bought by bard BD both devices were FDA approved over the summer and now this goes back the whole idea of what are we doing here what we're creating what we call a deep

fistula so and that was done in response to failing forearm fistulas the radius of Halleck fissures when they started to fail people would then jump to the upper arm and start creating brachial basilic

transposed basilic vanes already oh so phallic brachial cephalic fistulas in the upper arm and then here a guy by the name of Ken grass in Illinois it's called the grass fistula I think I'm saying that right developed a fish to

where he would hook the deep veins at the forearm to the brachial artery flow would then go from the brachial artery across the fistula up what's known as a perforating vein and that perforating vein selectively would go well

selectively perhaps unselect if we go to either the basilic or the cephalic or perhaps even both and here's a nice anatomic description I don't sorry I do not have a pointer I don't even have a keyboard but if you look there we'll

start up at 11 o'clock you can see there B and C basilic vein cephalic vein or labeled you see that P going straight down from the middle of the clock down to six o'clock that's the perforator okay we all know about perforators in

the legs if you do varicose veins because they're incompetent perforated up until six months ago I never even knew there was a perforating vein there one number two I defy anyone to try to find it in an anatomy book because it

just you know it doesn't I'll show you one picture of it but it's not exactly descriptive of what it does then basically they would take that and cut the perforating vein off of the deep venous system and attach it to the

brachial arteries you can see down there four o'clock so now you have flow from the brachial artery across the perforator and up into the superficial venous system and supplying the lead basilican the cephalic veins

kind of kind of a great idea and in fact they looked at these and they compared upper arm fistula swen maintenance of dialysis with deep fistulas and the the time to use of maturation was about the same about four months there was no

significant difference in outcome among the three types of fistulas brachial cephalic transposed rinky basilic and in fact since we have flow through both both of those veins you know it's may be

tempting to speculate that you can now use both of those things actually for hemodialysis and that's currently done many times two needles one needle and ability and the break in the basilic keeps me breaking

one needle in the basilic one needle in the cephalic and then you can alternate those needles so you don't have the problems of vein injury by frequent cannulation at the same spot well here's the one anatomic picture I ever found

with the perforating vein this is from the sobota Atlas which medical students know very well and you can see right in the middle there it says perforating vein and it's ducking down there below the fashion who knows where the hell

it's going but you don't know it from here and here you can see on ultrasound this is pretty much you know what it looks like that's the perforating vein and I guarantee whew go back and grab your ultrasound machine in your

departments and you all have to do is put it on color when you follow the basilic vein down or the and they'll meet the cephalic vein kind of a V and then just below that you'll see your perforator diving deep towards the

brachial artery alright and so now you'll all know where the action is going on and the you know since I think this procedure really is ideal for interventional radiologists I mean it really leverages everything that we do

you know ultrasound fluoroscopy multiple oblique angulations complex angulation is to position the device correctly I mean this procedure is really made for us so I suspect that some of your your attendings may want to begin a program

like this and if you cover the ORS and you're dealing with vascular surgeons or interventional nephrologist I'm sure they will probably want to get involved and so you know get ready guys here it comes so here is a obviously an

illustration of the the forum you can see there's the brachial artery going down take particular attention to the median nerve you can see this with ultrasound it's a very hyper echoic focal structure but when you're

puncturing that brachial artery load down at the elbow you want to make sure that they see the Brig a break heel and pardon me the median nerve because you can injure it if you put a five or six French sheet through it and that's one

of the potential complications of this procedure but as a radiologist we know ultrasound we can see it and we just have to do a complex needle I'm sure you know angling the ultrasound probe around it so he can get them to

the brachial artery then if you follow the cephalic Emily basilic vein down you can see they meet in the center median cubital vein and then the antecubital median antebrachial vein and then but they don't really show here is the

perforator but the point I wanted you to make it and to make you is them the median nerve is right in your target very often you don't want to tangle it now there's a lot of variation in the cue you know and whenever you get down

to anatomic structures this small which when you're doing these procedures you want to be aware of you can see that some people if you look all the way to the right type for there's no perforating vein and these people are

deemed to be anatomically unsuitable for this type of procedure you have to have a good quality and we'll talk about size usually about two two and a half millimeters perforating vein to get that blood from the brachial or radial or own

or artery up into the superficial system to a point where the fish so it can be cannulated but the anatomy here is variable and so you have to be aware that if you don't see it it just may not be there may just be you know a variant

tip Jennings down in Texas now the only person who knew about perforating veins was Bart - Oh max I talked to him the other day goes yeah I knew it because tip Jennings was doing all these deep fistulas down in Texas when he was down

there but tip is kind of when one of the proponents of deep fist shows why because when the proximal or the the distal radius of how a fistula fails the deep fistula can be made and still you don't have to tangle with the

superficial cephalic or basilic vein and also the deep fish avoids steel people don't steal blood when they have a deep fish to them and just because the the the size two or three millimeters of the perforator I think chronic keeps a check

on the blood flow that actually goes through trying to snip up the action

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

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

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