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The Process of the Prostate Artery Embolization | Nursing Management in Prostate Artery Embolization
The Process of the Prostate Artery Embolization | Nursing Management in Prostate Artery Embolization
atherosclerosischapterdecreasingembolisationembolizationembolizeinfarctionipssmuscleNonepatientprostaterefractorysmoothsymptomstherapy
Case 4a: Renal Trauma | Emoblization: Bleeding and Trauma
Case 4a: Renal Trauma | Emoblization: Bleeding and Trauma
angioangiogramangiographyarteriovenouscenterschaptercoilscontrastembolizationembolizeembolizedextravasationFistulagradehematomahemodynamicallyimageinjurieskidneyNoneparenchymapatientspenetratingpictureposteriorrenalRenal Traumaretroperitoneumscanspleensurgicallytrauma
Summary of Carotid Interventions | Carotid Interventions: CAE, CAS, & TCAR
Summary of Carotid Interventions | Carotid Interventions: CAE, CAS, & TCAR
applycarotidchapterendovascularmedicalpatientsstentingtherapy
Protein Losing Enteropathy | Lymphatic Imaging & Interventions
Protein Losing Enteropathy | Lymphatic Imaging & Interventions
angiographybluecancerscenterschapterdiseasesdisordersembolizeflowfluidhepaticimagingInterventionsintestineleakingliverlymphlymphaticlymphaticsoncologyPathophysiologypatientsproteinthoraxtreatable
MEET Symposia, MEET IO, MEET Aorta, MEET Stroke | AVIR International-IR Sessions at SIR2019 MiddleEast & Africa Focus
MEET Symposia, MEET IO, MEET Aorta, MEET Stroke | AVIR International-IR Sessions at SIR2019 MiddleEast & Africa Focus
chapterdiseaseembolizationinterventionalmeetmeetingneurooncologyspeakerstechvascular
IR in Egypt and Ethiopia | AVIR International-IR Sessions at SIR2019 MiddleEast & Africa Focus
IR in Egypt and Ethiopia | AVIR International-IR Sessions at SIR2019 MiddleEast & Africa Focus
ablationsaccessafricaangiographybillarybulkcardiothoracicchaptercheaperconduitscountriescryocryoablationDialysiseconomyegyptelectroporationembolizationendovascularfibroidfibroidsFistulainterventioninterventionalnanonephrologyneurononvascularoncologyportalpracticeradiologyspecialtysurgeonssurgerysurgicallythrombectomytpavascularvisceralworldwide
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
Case 10: Peritoneal Hematoma | Emoblization: Bleeding and Trauma
activeaneurysmangiogramanteriorarterycatheterchaptercoilcontrastcoronalctasembolizationembolizeembolizedflowgastroduodenalhematomaimageimagingmesentericmicrocatheterNonepathologypatientperitonealPeritoneal hematomapseudoaneurysmvesselvesselsvisceral
Renal Ablation | Interventional Oncology
Renal Ablation | Interventional Oncology
ablationcardiomyopathycentimeterchaptereffusionembolizedfamiliallesionmetastaticparenchymalpatientpleuralrenalspleensurgerytolerated
Hemobilia | Biliary Intervention
Hemobilia | Biliary Intervention
accessangioangiogramarchitecturearteriesarteryaureusbiliarybleedingceliacchaptercollateralizationdefectsdislodgementductembolizefistulasfrequentlygramhepatichilumintercostalinterventionistsliverparenchymalperipheralportalpreppseudoaneurysmremovethrombosestubetubesupsizeveinveinsvessels
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
angiographyangioplastyarterybleedbloodcalcifiedcarotidchapterclaviclecommondebrisdevicedistalembolicembolizationexposurefemoralflowimageincisioninstitutionlabeledpatientprocedureprofileproximalreversalreversesheathstenosisstentstentingstepwisesurgicalsuturedsystemultimatelyveinvenousvessel
Why Do We Need Different Directions For Occlusions? | AVIR CLI Panel
Why Do We Need Different Directions For Occlusions? | AVIR CLI Panel
angiogramarteriesaxialchapterclinicalcomplicationscondyleembolicembolizationenhancementhematomaimagekneemedialmicronnervenumbnessocclusivepainparticlespatientsplantarpoplitealsynovialtibialtumorvessel
Introduction- Nursing Management in Prostate Artery Embolization | Nursing Management in Prostate Artery Embolization
Introduction- Nursing Management in Prostate Artery Embolization | Nursing Management in Prostate Artery Embolization
ablationsallowingarterybasicallycarechapterclinicconsultationsembolizationindicationsNonenursingpatientspractitionersprocessprostatetreatingworkup
PTC/PBD Indications & Contraindications | Biliary Intervention
PTC/PBD Indications & Contraindications | Biliary Intervention
ascitesbariatricbiliarychaptercholecystectomycomplexcontraindicationcystsdiseaseembolizefrequentlylaparoscopicliverpolycysticrelativesurgery
Indirect Angiography | Interventional Oncology
Indirect Angiography | Interventional Oncology
ablateablationablativeaneurysmangioangiographybeamBrachytherapycandidateschapterdefinitivelyembolizationentirehccindirectintentinterdisciplinaryischemiclesionographypatientportalresectionsbrtsurgicaltherapyvein
Case 5: Liver Trauma | Emoblization: Bleeding and Trauma
Case 5: Liver Trauma | Emoblization: Bleeding and Trauma
activeangiogramarterybleedingbloodchaptercoilsembolizationembolizeextravasationhematomainjuryleakingliverLiver TraumamelenamicrocatheterNonenoticeportalposteriorpseudoaneurysmtraumavenousvessels
Cone Beam CT | Interventional Oncology
Cone Beam CT | Interventional Oncology
ablationanatomicangioarteriesarteryartifactbeamchaptercombconecontrastdoseembolicenhancementenhancesesophagealesophagusgastricgastric arteryglucagonhcchepatectomyinfusinglesionliverlysisoncologypatientsegmentstomach
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
General Screening Criteria (specific to bleeding risk) | Risk Mitigation: Periprocedural Screening and Anticoagulation Guidelines to Reduce Interventional Radiology Bleeding Risks
General Screening Criteria (specific to bleeding risk) | Risk Mitigation: Periprocedural Screening and Anticoagulation Guidelines to Reduce Interventional Radiology Bleeding Risks
acuityalertanticoagulantanticoagulationbiopsybleedingcardiacchapterchartdysfunctionhematologicalhistoryhypertensivelivermedicationsNonepatientpatientsplavixprocedureprovidersradiologistsriskstablestentthrombocytopenia
Plastic Bronchitis | Lymphatic Imaging & Interventions
Plastic Bronchitis | Lymphatic Imaging & Interventions
airwaysbronchoscopychaptercopdductembolizegraftlymphlymphaticmichiganpatientspediatricsstentvesselsvibe
Treatment Options | Pelvic Congestion Syndrome
Treatment Options | Pelvic Congestion Syndrome
amplatzblockblockingbloodchaptercoilcoilsembolizationembolizegluegonadalmaterialsoptionspelvicperipherallysclerosantsurgicalsuturetreatingtreatmentvalvesvaricosevaricositiesveinveins
Endovascular AVF creation | Twitter Case Files SIR 2019
Endovascular AVF creation | Twitter Case Files SIR 2019
6fr venous WavelinQ magnetic catheteradvanceadvancesalignarterialbrachialcatheterscenterschaptercreateselectrodeembolizeendovascularengageFistulainsertmaturationpatientpatientsstepultrasoundveinvenavendors
Case 8: Retroperitoneal Hematoma- Cover Stent | Emoblization: Bleeding and Trauma
Case 8: Retroperitoneal Hematoma- Cover Stent | Emoblization: Bleeding and Trauma
angiogramarteryaxialbleedcatheterizationchaptercontrastcoronalCoverage StentembolizationembolizehematomailiaciliacsimageinjuryNoneoptionpatientpseudoaneurysmRetroperitoneal hematomastentstents
Chylous Ascites | Lymphatic Imaging & Interventions
Chylous Ascites | Lymphatic Imaging & Interventions
angiogramcancercentimeterchaptercuredebulkingembolizationembolizeetiologyincidencekidneyleakleakslymphmichiganpatientsperitonealrenalresectionresectionssocietiesstudiestesticulartumorwilms
Scope of IR Procedures in South Africa | South African Interventional Society (SAintS)
Scope of IR Procedures in South Africa | South African Interventional Society (SAintS)
biliarycardiologistscenterschapterinterventionalInterventionsneuroparacentesisproceduressurgeonsvascular
Ablative Radioembolization | Interventional Oncology
Ablative Radioembolization | Interventional Oncology
adjacentadministerarterialbladecancerchaptercompletedosedosesentiregreyinvadinglesionliverlobelobectomynecrosispathologicpatientportalremnantresectionresponsesegmentsurgeontinytreattumorvein
The Case that Launched the Cornell PERT (PE Response Team) | Pulmonary Emoblism Interactive Lecture
The Case that Launched the Cornell PERT (PE Response Team) | Pulmonary Emoblism Interactive Lecture
adventitiaangiogramaortaarteryaspiratedbloodcatheterschapterclotdysfunctionFistulafrontalhemorrhagehypotensionhypoxiaintracraniallobelungPE in right main Pulmonary Arteryperfusionpertpigtailpressorspulmonarypulmonary arteryresectionselectivesheathspinsystolictachycardicthrombustpatranscranialtumorventricle
Bland Embolization | Interventional Oncology
Bland Embolization | Interventional Oncology
ablationablativeadministeringagentangiogramanteriorbeadsblandbloodceliacchapterchemocompleteelutingembolicembolizationembolizedhcchumerusischemialesionmetastaticnecrosispathologicpatientpedicleperformrehabresectionsegmentsequentiallysupplytherapytumor
Case 2: Upper GI Bleed | Emoblization: Bleeding and Trauma
Case 2: Upper GI Bleed | Emoblization: Bleeding and Trauma
abnormalangiogramarteryaxisbleedingbleedsbloodcatheterceliacchaptercoilscontrastembolizationembolizeendoscopyesophagusFistulagastroduodenalhemoptysishepaticmalformationsmesentericNoneportalsuperiortipsupperUpper GI Bleedvaricesvenousvesselvesselsvomiting
Work-up for PAE | Nursing Management in Prostate Artery Embolization
Work-up for PAE | Nursing Management in Prostate Artery Embolization
anesthesiaangiogramarteriesaspirinbladdercancercardiacchaptercliniccolordegreeeducateeffectsembolizationfoleyibuprofenipssmedicationmedicationsmetforminMRINonepatientpatientsprobeprocedureprostaterenalscorespasmsymptomstreattypeurinaryurineurologisturologywarfarin
Surgical AV Fistula  | Pecutaneous Creation of Hemodialysis Fistulas
Surgical AV Fistula | Pecutaneous Creation of Hemodialysis Fistulas
angioplastycannulatedcathetercatheterschapterdeviceDialysisembolizationFistulafistulashemodialysismaturationpatientspercutaneousrefused
Transcript

here's a classic segment seven tumor that has parasitized blood flow from the right inferior phrenic artery, I would absolutely bland embolize via the right inferior phrenic artery with the idea that I'm avoiding non-target distribution of chemoembolic or radioembolic into phrenic branches. Similarly here's an unfortunate patient that ended up

artery embolisation work so I'm going to cut through this like like fancy words so basically what happens is because an infarction of the prostate that

decreases a lot of this excuse me it did subsequent cost is shrinker prostate by decreasing tht and hopefully will she's a prostate he also has to do with the innervation and decreasing the sensitivity of the alpha-1 receptors

which actually does is actually smooth the muscle around a process allowing urine to flow freely so just to give you an example even though patient has a prostate volume 150 grams mute if we were to

shrink it just a little bit it doesn't mean that their symptoms would be relieved actually because the smooth muscle relaxation around the prostate a lot of the symptoms may actually get better so this this procedures indicated

for some of us who may be at high risk for any surgical procedure someone who's refractory to medical therapy or does not want to consume medical therapy or someone who obviously hat with a high IPSS score

the thing with PAE is obviously technically it's very challenging because as you go under proceed the artists get smaller and smaller so you have to consider the elderly who may have some atherosclerosis disease and

there's also risk of non-target embolization where we could potentially embolize the penis or the bladder or direct them as far as strict factors we want to consider patients age someone has diabetes chronic renal failure we

want to make sure that patient doesn't have any recent infection stones or any instrumentation regarding their neurological system so what are the

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

I think it's important to understand what options we have in in treating patients with carotid disease or those

in our practice medical therapy is a mainstay so all these patients regardless that they get t'car carotid stenting or otherwise need to get the best medical therapy there is a role though for each of these surgical

endovascular or a hybrid such as t'car and hopefully you have a better understanding of that option and ultimately if you understand the different techniques then we can apply the best ones depending on the patient's

anatomy or current clinical scenario and and apply that to that patient thank you [Applause]

interrupting something else getting back

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

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

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

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

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

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

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

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

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

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

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

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

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

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

briefly about meet symposia meet symposia is basically a group of meetings or symposia there's meet IO

which is interventional oncology meet a Horta which is a auric work and vascular disease as well as meet stroke which is neuro IR as well as vascular vascular embolization for neuro as well super vascular disease there have been three

annual meetings held in January of every year this is kind of the physician attendance there with a large number of speakers half of these speakers 50 50 of these speakers lasts here three months ago were from were from the u.s. from

the USA they are this meeting is endorsed and supported with presence of leadership from guests from spectrum that's another meeting in the u.s. from SAR with a collaborative meeting as well as iMac which is a Middle Eastern

heavily Egyptian a or tech a or tech meet meeting for for aortic disease next

next is me talking about Egypt and Ethiopia and how I are how IRS practice in Egypt and Ethiopia and I think feather and Musti is gonna talk a little bit about Ethiopia as well he's got a

lot of experience about in about Ethiopia I chose these two countries to show you the kind of the the the the difference between different countries with within Africa Egypt is the 20th economy worldwide by GDP third largest

economy in Africa by some estimates the largest economy in Africa it's about a hundred million people about a little-little and about thirty percent of the population in the u.s. 15 florist's population worldwide and has

about a little over a hundred ir's right now 15 years ago they had less than ten IRS and fifteen years ago they had maybe two to three IRS at a hundred percent nowadays they're exceeding a hundred IRS so tremendous gross in the last 15 years

in the other hand Ethiopia is a very similar sized country but they only have three to five IRS that are not a hundred percent IRS and are still many of them are under training so there are major differences between countries within

within Africa countries that still need a lot of help and a lot of growth and countries that are like ten fifteen years ahead as far as as far as intervention ready intervention radiology

most of the practice in Ethiopia are basic biopsies drainages and vascular access but there is new workshops with with embolization as well as well as well as vascular access in Egypt the the ir practice is heavily into

interventional oncology and cancer that's the bulk that's the bulk of their of their practices you also get very strong neuro intervention radiology and that's mostly most of these are French trained and not

American trains so they're the neuro IRS in Egypt or heavily French and Belgian trains with with french-speaking influence but the bulk of the body iron that's not neuro is mostly cancer and it involves y9e tastes ablations high-end

ablations there's no cryoablation in Egypt there is high-end like like a nano knife reverse electric race electroporation in Egypt as well but there is no cryo you also get a specialty embolization such as fibroids

prostate and embroiders are big in Egypt they're growing very very rapidly especially prostates hemorrhoids and fibroids is an older one but it's still there's still a lot of growth for fibroid embolization zyou FES in Egypt

there's some portal portal intervention there's a lot of need for that but not a lot of IRS are actually doing portal intervention and then there's nonvascular such as billary gu there's also vascular access a lot of

the vascular access is actually done by nephrology and is not done by not not done by r is done by some high RS varicose veins done by vascular surgery and done by IRS as an outpatient there's a lot of visceral angiography as well

renal and transplants stuff so it's pretty high ends they do not do P ad very few IR s and maybe probably two IR s in the country that actually do P ad the the rest of the P ad is actually endovascular PA DS done by vascular

surgery a Horta is done all by vascular surgery and cardiothoracic surgery it's not done it's not done by IR IR s are asked just to help with embolization sometimes help with trying to get a catheter in a certain area but it's

really run by by vascular surgeons but but most more or less it's it's the whole gamut and I'm going to give you a little example of how things are different that when it comes to a Kannamma 'kz there's no dialysis work

they don't do Pfister grams they don't do D clots the reason for that is the vascular surgeons are actually very good at establishing fishless and they usually don't have a

lot of problems with it sometimes if the fistula is from Beau's door narrowed it's surgically revised they do a surgical thrombectomy because it's a lot cheaper it's a lot cheaper than balloons sheaths and and trying to and try a TPA

is very expensive it's a lot cheaper for a surgeon to just clean it out surgically and resuture it there's no there's no inventory there are no expensive consumables so we don't see dialysis as far as fistula or dialysis

conduits at all in Egypt and that's usually a trend in developed in developed countries next we'll talk

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

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

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

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

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

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

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

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

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

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

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

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

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

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

across the abnormality and I think from

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

and you can see on this t1-weighted image that increased area of enhancement which is the area of synovial thickening you actually see this on MRI beforehand and there it is located over the lateral aspect of the knee on the axial image

and so what we're doing sorry in the medial aspect of the knee so what we're doing here on the angiogram is and you solve these leg angiograms where everyone doesn't really care about these Janicki lit arteries they're really

important when you have sfa or popliteal occlusive disease because they serve as a collateral source but otherwise and people have arthritis they can be a real pain and pain in the knee if you will so this is a this is the superior medial

genicular artery it always drapes over the femoral condyle and you'll see here on this image you don't really see very much once we get into the vessel look at this it almost looks like a small about a cellular carcinoma like when you're in

the liver you get this tumor type blush vascularity that's what we're looking for that corresponds to the patient's area of pain and then after embolization this is what it looks like takes a very small amount

of embolic we're using maybe 0.4 2.6 sometimes 1 CC at most of dilute embolic that we're injecting this is another case again before and after if you look here on the right and then on the left you don't really see much until you

select the vessel out once you get into that super medial vessel you can see how much enhancement there is so in our clinical study of 20 patients this is what we did you'll see on the bottom here we used embassy and 75 micron in 9

patients and 1111 patients got a 100 micron and I'll explain why we upsized our particles so initially we wanted to go very small because that's what dr. o Cano had done in Japan but then we wanted to actually up size our particles

and I'll explain this here in our complications so like all clinical studies the purpose of doing really good clinical research is because this is early and we don't know if they're going to be complications and it's always fun

when you're the first one to figure it out and you tell patients I don't really know what's gonna happen and this is what happens so 13 patients had this kind of skin discoloration over their knee now we knew this because we've been

doing knee embolization for about 10 years in bleeding patients not necessarily arthritic patients so we had seen this before but none of these patients in this clinical study went on to have any alteration of the skin and

it resolved in all patients there was some minor side effects from basically medications and one small groin hematoma but there were two patients who developed plantar numbness over their great toe so under their great toe

basically in the medial distribution of their tibial nerve they ended up getting plantar numbness and this is believed at least in our experience to probably be related to non-target embolization to the tibial nerve the tibial nerve

probably gets its blood supply from many of these generic arteries so we decided

so my name is Paul I'm one of the nurse practitioners from UCI Irvine healthcare and what am i one of our minerals in there is basically working on patients for consultations doing the patient rounds writing notes ordering labs etc we also have several clinics that we run

at UCI Medical Center involving patients needing consultations for Libra direct therapies ablations and so forth and one of the more recent clinic that we started running is basically treating patients with BPH and so what we would

know inspiration is basically treating and regarding their symptoms and the procedures pretty much called a prostate artery embolization so the main purpose of this patient excuse me the main purpose of this

topics is basically to provide the general information of what the procedures are about illustrating indications risk and to hopefully help our nursing staff to better take care of these patients sorry so first and

foremost I just wanted to thank my team UC Irvine for allowing me to take some time off of work and enjoying Austin and its many food and object and and allowing me to speak to you guys a little bit about prostate ammo on our

pitchers basically you can't I don't know laser printer but our physicians dr. Karen Nelson she's one of our chief of IR dr. Dan through Fernando dr. Nadine a bitch day and dr. James Castro thesis

he's got daughter Kat Reese is our main doctor that does most of our process embolization our excellent iron nursing team and of course my fellow nurse practitioners who is holding the fort back home Pamela and Takara and watch

and Lou sorry but so our objectives for discussions basically to illustrate the indications and benefits of prostate artery embolization we're going to go over the side effects and risk complications associated with this

procedure and also recognize the value of nursing care going starting from the workup leading to the proper process in trot process and post procedure care sort of a brief outline of what we're gonna be

talking about we're just gonna go over the basic fundamentals of BPH as well as the treatment for PAE and the second portion of this lecture is going over how we walk patients up in clinic what we tell patients and we're gonna go

through the proper care and drop care ask well ask the post-op care and we're going to go through a couple of cases in there it's just to describe to you guys how we care for these special population

no question why would we do it so the

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

thanks everyone appreciate it [Applause] [Music]

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

more rare condition that some of you may not have heard of but certainly something that wasn't familiar to me a

few years ago but basically people present by coughing up these rubbery casts of their Airways and what these rubbery casts are basically is a collection lymphatic food that's dried out and it just slowly fills in the

airways and they cough up these big things obviously an embarrassing thing to happen have happened to you at dinner can certainly affect your quality of life but I had one patient who saved who

saved a napkin and brought it to me to show me it and the clinic and I was like wow that's impressive please throw that away I believe you but you'll see patients congenital heart disease with COPD asthma tuberculosis cystic fibrosis

etc any of these patients can present with this particular issue what we found out by doing some of these mr so if we embolize these lymphatic vessels or find a way to bypass them the patients will have resolution of their symptoms and

it's an amazing change in quality of life it's only been done in adults as well as pediatrics I'll show you guys an example from the University of Michigan we did lymph and geography this gentleman was actually 500 pounds so I

couldn't do a mr on him and you see this weird tuft of lymphatic vessels right around his airway there on the left side bronchoscopy had already shown that that's where he was having his casts I was able to actually puncture him from

his neck and go retrograde he was a bit too big for me to go through the abdomen but he sees lymphatic duct looks all really fairly standard normal-looking anatomy with exception of that tuft of vessels we actually went down with a

sheath we put a stent graft a vibe on stent graft across that area we excluded those or normal vessels and his condition resolved within a month it's something he'd been living with for several years so fairly dramatic outcome

for this patient uncommonly I say we see maybe one of these patients a year but it's actually known - how to treat it and how to work it up it's very critical

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

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

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

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

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

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

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

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

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

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

here so go through a case patient with

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

well switch gears and start talking about Kyllo societies histology the

etiology of Callao societies historically used to be malignancy in tuberculosis first described in the 1600s in a two-year-old who had a tuberculous peritoneal disease more recently now we see it due to aggressive

surgery whether it's renal resections for kidney cancer lymph node resections etc it can also be due to cancer the incidence is climbing rapidly this is just a graph of the incidence at different hospitals from 1930s and 1980s

I can I don't have the data for the 2000s this was a graph that I actually generated from based on several studies just to show you how profound the leak can be in these patients well looking at what we do with

maduk college societies fairly similar to what we do elsewhere we map it out we have three major Studies on that right now and a lot of smaller studies so the total nineteen manuscripts ninety six patients and in those eighty two

patients had to report whether or not they saw a leak they saw a leak in 60 of those eighty two patients and when we saw a leak we were able to cure 70 of them just by doing than paying geography and eighty eight percent when we were

able to actually embolize it so again going from in ninety percent mortality at one year if you have caused societies due to cancer or forty percent for any other cause to cure with the simple procedures is pretty amazing just to

kind of show you an example this was 55 year old gentleman who had removal of his left kidney they found a seven centimeter renal cell carcinoma incidentally while he was being worked up for a kidney stone it had been six

months of constant Kyllo societies and loss of 63 pounds before he saw me here's a lymph angiogram showing fairly typical anatomy until you see this little leak and you see the surgical clips there where his kidney was and all

of the hollow pile spilling around and surrounding his spleen I'm doing this and then we did an embolization right around that area he sent me an email two months ago just before I left the University of Michigan thanking me for

changing his life and saving his life another example this gentleman had had major debulking surgery for for testicular cancer he also has had prior bone metastasis with a hip replacement there and you see a bilateral leaks he

see multiple drains they couldn't control his fluid and we embolize all of these small leaks around his pelvis and also fixed him as well and just she see all the focal areas of leak throughout this was a three year old who'd had a

Wilms tumor resection we're mapping them out and you see the area of leak in the center there and was able to fix this child as well discharged and continued on his merry way cured protein losing

higher procedures that get done in the country so they are from being basics such as being para sentences and in some

centers being quite complex in Euro work and there are centers where these none of all those that IR procedures being available so it's a very unequal distribution of provision of IR services and like I mentioned earlier on vascular

surgeons and cardiologists have basically taken over the peripheral vascular work and iogic work and other known neuro speciality such as bid early interventions for example saying that these two surgeons who are in some

remote centers who are doing their own provision as biliary basic interventions there is one neuro surgeon who went and had neuro imaging and then your interventional training who is now hundred percent doing a mural

intervention so as far as procedures go my day can be in diagnostic work and you might be dreaming you doing a paracentesis the next thing you might be doing some some I our basic IR and on the same day you might be doing a set

procedure so quite varied but not available in all centers as one would want as fine stuff goes the technology

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

let me show you a case of massive PE

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

alone so what do you do we have a

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

really for patient comfort so we're just

today okay go forward so sorry now when it says is there any commercial bias really there's only two companies that have this device so if I speak about each one clearly there's going to be a

little bit of commercial discussion but as I people always ask me which one do you prefer and I always have to tell them quickly you know I'm not a salesman for either company as a matter of fact I'm more

like a test pilot and we're still in the very early stages of this and which device may be better however you wanted to find that or easier to use or what the data is going to show we don't really know yet so but we're fortunate

that we have access to both devices for our patients a couple of things we know and dialysis patients start 80% start with catheters bad okay and catheters bad if you get anything out of this lecture catheters bad about 28 to 53

percent failure to mature means they have a fistula it's physiologically working but it never matures to be able to use for hemodialysis time to maturation three to four months

interventions per year required angioplasty you know embolization you guys know all about this stuff trying to read Evert flow back into the main channel of the fishhook and patients about 30 up to 30

percent just refused once they have our fish to them for whatever reason they refused to have it cannulated you know they don't like the pain it's in an awkward position whatever but the idea of percutaneous

which was may actually put a big dent in that Kathy first-line initiating dialysis with catheters because many times these patients come then they need to houses right away they get a catheter but if we know you know these things

usually except you know for toxic injury like ingesting antifreeze and stuff like that most you know frolla just know these patients are headed towards dialysis well in advance of the time they need it and so these calls stage

four and stage renal disease these patients can get percutaneous fistulas and when it's time then they'll have a running blood access ready and totally avoid the need to have a catheter placed

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