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Hip Arthritis|Corticosteroid Injection|72|Female
Hip Arthritis|Corticosteroid Injection|72|Female
2016approachcircumflexfemoralfemorisfluoroscopicinferiorjointmedialrectusSIRtherapeuticultrasoundweakness
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
Treatment Options- TransCarotid Artery Revascularization- TCAR | Carotid Interventions: CAE, CAS, & TCAR
angiographyangioplastyarterybleedbloodcalcifiedcarotidchapterclaviclecommondebrisdevicedistalembolicembolizationexposurefemoralflowimageincisioninstitutionlabeledpatientprocedureprofileproximalreversalreversesheathstenosisstentstentingstepwisesurgicalsuturedsystemultimatelyveinvenousvessel
Ultrasound-assisted Catheter-directed Thrombolysis | Management of Patients with Acute & Chronic PE
Ultrasound-assisted Catheter-directed Thrombolysis | Management of Patients with Acute & Chronic PE
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Case- Vaginal Foreign Bodies- 5 year old female | OMG: Interesting Cases in Pediatric Radiology
Case- Vaginal Foreign Bodies- 5 year old female | OMG: Interesting Cases in Pediatric Radiology
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Endoleak Case |
Endoleak Case | "Extreme"-ly Obvious IR
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Case- Brain Infarction | Brain Infarct After Gastroesophageal Variceal Embolization
Case- Brain Infarction | Brain Infarct After Gastroesophageal Variceal Embolization
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Introduction to Establishing Periprocedural Screening Guidelines to reduce bleeding risk associated with Image-Guided Theraputic and Diagnostic Procedures | Risk Mitigation: Periprocedural Screening and Anticoagulation Guidelines to Reduce Interventional Radiology Bleeding Risks
Introduction to Establishing Periprocedural Screening Guidelines to reduce bleeding risk associated with Image-Guided Theraputic and Diagnostic Procedures | Risk Mitigation: Periprocedural Screening and Anticoagulation Guidelines to Reduce Interventional Radiology Bleeding Risks
anticoagulantscampuschapterclinicclinicalcoagulationgraduatedguidedguidelineshospitalinpatientinpatientsinterventionallabsmayomedicationsneuroNonenonvascularnursenursingpatientspracticeproceduresradiologistsradiologyrochesterspecialistultrasoundvascular
CME
Update On The Advantages, Limitations And Midterm Results With The Terumo Aortic 3 Branch Arch Device: What Lesions Can It Treat
Update On The Advantages, Limitations And Midterm Results With The Terumo Aortic 3 Branch Arch Device: What Lesions Can It Treat
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Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
anatomicanatomyarterybasilicbrachialcephalicchapterdeepdevelopeddevicefishFistulafistulasflowforearminterventionalmedianneedleneedlesnerveperforatingperforatorprocedureradiologistradiusselectivelysuperficialtexastransposedultrasoundupperveinveinsvenous
HCC and IR oncology treatments | Transforming from Clinical IR to Clinical Trials with Tirapazamine (TPZ)
HCC and IR oncology treatments | Transforming from Clinical IR to Clinical Trials with Tirapazamine (TPZ)
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Question and Answer: Moving from Joint Commission to DNV- Insights | Hot Topics
Question and Answer: Moving from Joint Commission to DNV- Insights | Hot Topics
arizonachaptercommissioncredentialingexperiencedfacilityguidelinesinterventionaljointmedicaidmedicareNonenurseorganization
Case- Vaginal Foreign Bodies- 11 year old female | OMG: Interesting Cases in Pediatric Radiology
Case- Vaginal Foreign Bodies- 11 year old female | OMG: Interesting Cases in Pediatric Radiology
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The Ways to Recanalize the Below the Knee Vessels | AVIR CLI Panel
The Ways to Recanalize the Below the Knee Vessels | AVIR CLI Panel
ablationanalogantibioticarteriesarthritisassessaveragebasicallychapterclinicaldissolveemboembolizationembolusinfarctinjectinvestigationalkneelateralmedialmrispainpalpatepatientpatientsprocedurepublishedradiofrequencyrefractoryresorbablescalestudy
TIPS Case | Extreme IR
TIPS Case | Extreme IR
antibioticsascitesbacteriabilebiliarycatheterchapterclotcolleaguescommunicationcovereddemonstrateddrainageductduodenal stent placementfull videoportalrefractoryshuntsystemthrombolysistipstunnelultrasoundunderwentvein
The Procedure - Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
The Procedure - Creating a Deep Fistula | Pecutaneous Creation of Hemodialysis Fistulas
anastomosisarteryAvenu MedicalballoonbrachialcephalicchaptercreationdeviceEllipsysFistulaflowflowinglinesneedleperforatingperforatorpiccproximalpuncturepuncturedradialsurgicalultrasoundvein
Balloon Pulmonary Angioplasty | Management of Patients with Acute & Chronic PE
Balloon Pulmonary Angioplasty | Management of Patients with Acute & Chronic PE
angiogramangioplastyarteryballoonballooningbandschaptercomplicationscontrastflowHorizonimageimagesluminalNoneocclusionocclusionspatientsproximallypulmonaryradiationrecanstenosisthrombustreatedultrasoundwebs
Putting it all Together and Evaluation - Curriculum Week 3 | Cath Lab Academy: An Adjunct to an Orientation Program Using an Interprofessional Approach
Putting it all Together and Evaluation - Curriculum Week 3 | Cath Lab Academy: An Adjunct to an Orientation Program Using an Interprofessional Approach
adjunctiveAtherectomy DevicebasicallyBoston ScientificchaptercontinuedeviceelectronicequipmentevaluateevaluationsfeedbackinterventionalivusNoneplaqueprogramRotobladersimulatedsimulationstakeholdersultrasoundvendors
Endovascular AVF creation | Twitter Case Files SIR 2019
Endovascular AVF creation | Twitter Case Files SIR 2019
6fr venous WavelinQ magnetic catheteradvanceadvancesalignarterialbrachialcatheterscenterschaptercreateselectrodeembolizeendovascularengageFistulainsertmaturationpatientpatientsstepultrasoundveinvenavendors
Duplex Ultrasound | Determining the Endpoints of CLI Interventions
Duplex Ultrasound | Determining the Endpoints of CLI Interventions
angioplastychaptercolordopplerduplexflowhelpfulimageimagesimagingoccludedpatientssensitivespectraltriphasicultrasoundvelocitywaveform
Q&A Pulmonary Embolism | Management of Patients with Acute & Chronic PE
Q&A Pulmonary Embolism | Management of Patients with Acute & Chronic PE
acuteangiogramassistedcatheterchapterchroniccontrastdiagnosticechocardiogramembolismisisNonepressurepulmonarythrombolysistreatmentultrasound
Case 1 - Non-healing heel wound, Rutherford Cat. 5, previous stroke | Recanalization, Atherectomy | Complex Above Knee Cases with Re-entry Devices and Techniques
Case 1 - Non-healing heel wound, Rutherford Cat. 5, previous stroke | Recanalization, Atherectomy | Complex Above Knee Cases with Re-entry Devices and Techniques
abnormalangioangioplastyarteryAsahiaspectBARDBoston Scientificcatheterchaptercommoncommon femoralcontralateralcritical limb ischemiacrossCROSSER CTO recanalization catheterCSICTO wiresdevicediseasedoppleressentiallyfemoralflowglidewiregramhawk oneHawkoneheeliliacimagingkneelateralleftluminalMedtronicmicromonophasicmultimultiphasicocclusionocclusionsoriginpatientsplaqueposteriorproximalpulserecanalizationrestoredtandemtibialtypicallyViance crossing catheterVictory™ Guidewirewaveformswirewireswoundwounds
Introduction- Foreign body aspiration | OMG: Interesting Cases in Pediatric Radiology
Introduction- Foreign body aspiration | OMG: Interesting Cases in Pediatric Radiology
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Muscoskeletal Ablation | Interventional Oncology
Muscoskeletal Ablation | Interventional Oncology
ablateablatingbonescannulatedcementchaptercryoiliacmalignancymusculoskeletalorthopedicpercutaneoustumor
Transcript

administration. Moving on to the hip, we have a 72 year old female here with a right hip pain. They requested a therapeutic right hip joint injection.

[BLANK_AUDIO] So again, we'll start with an ultrasound approach here. We're gonna use an oblique approach, winding up with that head-neck junction of the femur.

Relevant anatomy here, you'll identify the femoral head femoral neck. You can see acetabular and superiorly there. Overlying the femoral head are iliopsoas tendon, rectus femoris tendon which we try to avoid.

Sometimes if those do get poked in a procedure, patient will have transient leg weakness when they're walking out. It does resolve but it can explain sometimes why patients have a little bit of weakness when they're walking out of a procedure like this.

Other thing to identify is the lateral femoral circumflex artery. It's almost always right in the path that you'd like to take with ultrasound. Usually going superior to it works fine but sometimes we go inferior as well. In the green highlight there you can see the joint capsule,

and it's really got a nice inferior extent which makes targeting that hip joint really nice either with ultrasound or fluoroscopy. Now the femoral vessels that we worry so much about with the fluoroscopic approach usually are quite medial for ultrasound because of the approach we take so you really don't see those.

So here we've got a scenic clip playing it will be playing as I'm talking. And then once you've put the needle on the joint you should start to see fluid flowing over the femoral head real nicely there and you can just kinda see that distending with the hypoechoic and echoic fluid, and at the end you're gonna see something hypoechoic kinda shoot across there,

a little bit of gas there at the end of the syringe there. And sometimes that's just a nice way to show that oh, I was where I thought I was. Now for doing an arthrogram you wanna avoid any gas being injected

in there but just for a therapeutic injection and a couple molecules of gas is not gonna be a problem at all. The same approach can be used for hip aspiration under ultrasound

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

treatment is the ultrasound assisted catheter director thrombolysis or the echos divisor eCos this technique involves a slow infusion again over 12 to 24 hours

but the catheter has ultrasound built into it and that's thought to help disassociate fibrin strands and to help embed the thrombus bed the TPA into the thrombus I think most people have heard of or seeing eCos in the past

again lower doses much like the catheter directed so it's really the same type of procedure except at the end you're hooking up eCos rather than a uniform Craig Mac there is a lot of differences though in the sort of overall patient

experience because eCos as many of you know requires a lot more devices and for the patient's room so they're gonna have more pumps because it requires more fluid it requires more observation it beeps more frequently overnight but what

I will say is that there are studies that are used that have useful information with eCos and those are actually the main studies that have been done although they're all industry-sponsored but they're very

important studies nonetheless so the only device really that exists for this right now that approved is the eCos

five-year-old with excessive vaginal bleeding bleeding has no other symptoms

her she had a normal ultrasound of the lower abdomen there was no evidence of trauma or sexual abuse again very very important part of your history to obtain so they get a decide to do an MRI of her abdomen to see what's going on because

then ultrasound was negative and the metal detector went off when she went in the scanner so they pull her out and they get an x-ray a plain abdominal film that was done later and see a foreign body anybody want to take a guess at

what that might be metal so it definitely definitely shows up whoops those are actually keys to her diary so she was writing in her diary and she didn't want her mother to find that she

was writing so she stuck the keys inside and I guess never took them out again so that was those were two keys so very interesting cases okay let's talk about

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

ultimately we did it so what are

- Thank you very much for the presentation. Here are my disclosures. So, unlike the predecessor, Zenith Alpha has nitinol stents and a modular design, which means that the proximal component has this rather gentle-looking bear stents and downward-looking barbs.

And the distal part has upward-looking barbs. And it is a lower-profile device. We reported our first 42 patients in 2014. And now for this meeting we updated our experience to 167 patients operated in the last five years.

So this includes 89 patients with thoracic aneurysms. 24 patients in was the first step of complex operations for thoracoabdominals. We have 24 cases in the arch, 19 dissections, and 11 cases were redos. And this stent graft can be used as a single stent graft,

in this case most of the instances the proximal component is used or it can be used with both components as you can see. So, during the years we moved from surgical access to percutaneous access and now most of the cases are being done percutaneously

and if this is not the case, it's probably because we need some additional surgical procedures, such as an endarterectomy or in cases of aorto-iliac occlusive disease, which was present in 16% of our patients, we are going to need the angioplasty,

this was performed in 7.7% of cases. And by this means all the stent grafts were managed to be released in the intended position. As far as tortuosity concerned, can be mild, moderate, or severe in 6.6% of cases and also in this severe cases,

with the use of a brachio-femoral wire, we managed to cross the iliac tortuosity in all the cases. Quite a challenging situation was when we have an aortic tortuosity, which is also associated with a previous TEVAR. And also in this instances,

with the help of a brachio-femoral wire, all stent grafts were deployed in intended position. We have also deployed this device both in chronic and acute subacute cases. So this can be the topic for some discussion later on. And in the environment of a hybrid treatment,

with surgical branching of the supoaortic tranch, which is offered to selected patients, we have used this device in the arch in a number of cases, with good results. So as far as the overall 30-day results concerned, we had 97.7% of technical success,

with 1.2% of mortality, and endoleaks was low. And so were reinterventions, stroke rate was 1.2%, and the spinal cord injury was 2.4%. By the way we always flash the graft with CO2 before deployment, so this could be helpful. Similar results are found in the literature,

there are three larger series by Illig, Torsello, and Starnes. And they all reported very good technical success and low mortality. So in conclusion, chairmen and colleagues, Zenith Alpha has extended indications

for narrow access vessels, provide safe passage through calcified and tortuous vessels, minimize deployment and release force, high conformability, it does retain the precision and control of previous generation devices,

however we need a longer term follow up to see this advantages are maintained over time. Thank you very much.

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

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

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

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

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

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

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

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

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

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

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

I'm Nikki Jensen Nicole is what my mother calls me but that's alright thank you all for joining us today I am the clinical resource nas I work in a clinical nurse specialist position I graduated in May so I'll finally be called the clinical nurse specialist

after I passed my boards in nonvascular radiology so at Mayo Clinic Rochester we are kind of split up between I are in our IR practice where we have non vascular procedural Center CT MRI ultrasound guided procedures we'll go

over a list of our standard perform procedures as well as our neuro interventional and vascular interventional practice so Kerri and I work in the non vascular so we do not do any neuro interventional or vascular

vascular interventional procedures so these guidelines are going to focus on your LR CT or ultrasound guided procedures how many of you went to the combined session this morning great this is going to be an overview because what

we saw presented there really reiterates what we are have brought into our practice but then we're also going to share how we created nursing guidelines and how we rolled that into our practice this is Carrie Carrie is a staff nurse

in our department I worked as a staff nurse for seven years prior to this position I've been in this position now for four years and really enjoy it I do want to give a little shout-out to Carrie and I presented or sorry we

published an article in the June 28th volume 37 issue - that really coincides with our presentation today so I would encourage you to read that publication and then you'll get additional information on how we did this yes all

right we have nothing to disclose unfortunately or fortunately right so the purpose of this presentation is to help you all understand the importance of creating reviewing the literature

understanding your for one your coagulation casket as well cascade as well as anticoagulants that are out there or new up-and-coming medications and understanding that yes it's very important to establish and create these

guidelines so that within your practice you don't have differing radiologists that have differing opinions if you're working with doctor so-and-so today you need to worry about these labs if you're working with you know dr. Johnson

tomorrow he doesn't care about the labs we did this to help standardize that to help reduce the amount of questions our nurses have how many times we're interrupting our radiologists but then also we need to take into consideration

the importance of the patients and their different disease processes and we'll be going over that too so it's nice to have established guidelines but then also we need to take into consideration why patients are on certain medications this

here is our list of objectives I'm not going to read them for you you can all read them and we've provided you all with handouts too but really we want to just help kind of explain mechanism of actions and different medications and

how we established our guidelines this here is where Kari and I come from full disclosure we do have snow on the ground so these pictures were not taken before we came we are really enjoying this nice warm weather but for those of you who

are not familiar with the history of Mayo Clinic in Rochester who we have a hundred and fifty plus year tradition of implementing evidence-based care to assure the needs of our patient come first we are divided up into one

downtown campus but we have three different main areas so we have our st. Mary's Hospital this is where Kerry is based out of this is this houses most all of our ICUs as well as most all of our inpatients so we do a lot of

inpatients but we also see outpatients in this hospital Rochester Methodist Hospital this is where our he mock patients typically are we do have one ICU within Hospital as well but then right here my

office is right there this is our Mayo downtown campus so this is where most of our patients come for outside procedures or outpatient diagnostic imaging exams this here is the group that I'm part of the clinical nursing specialist group

within our clinical nursing specialist group there are 77 of us there are five like myself clinical resources as we have not graduated as of yet I'm right there in the middle w

that work in over 70 ambulatory areas in 58 inpatient areas we also support some areas in our Arizona and Florida campuses and then we have Mayo Clinic Health System hospitals that are scattered throughout Iowa

Wisconsin in Minnesota as well I am the only one in radiology across all of our

- Thank you. Thank you again for the invitation, and also my talk concerns the use of new Terumo Aortic stent graft for the arch. And it's the experience of three different countries in Europe. There's no disclosure for this topic.

Just to remind what we have seen, that there is some complication after surgery, with mortality and the stroke rate relatively high. So we try to find some solution. We have seen that we have different options, it could be debranching, but also

we know that there are some complications with this technique, with the type A aortic dissection by retrograde way. And also there's a way popular now, frozen elephant trunk. And you can see on the slide the principle.

But all the patients are not fit for this type of surgery. So different techniques have been developed for endovascular options. And we have seen before the principle of Terumo arch branch endograft.

One of the main advantages is a large window to put the branches in the different carotid and brachiocephalic trunk. And one of the benefit is small, so off-the-shelf technique, with one size for the branch and different size

for the different carotids. This is a more recent experience, it's concerning 15 patients. And you can see the right column that it is. All the patients was considered unfit for conventional surgery.

If we look about more into these for indication, we can see four cases was for zone one, seven cases for zone two, and also four cases for zone three. You can see that the diameter of the ascending aorta, the min is 38,

and for the innominate artery was 15, and then for left carotid was eight. This is one example of what we can obtain with this type of handling of the arch with a complete exclusion of the lesion, and we exclude the left sonography by plyf.

This is another, more complex lesion. It's actually a dissection and the placement of a stent graft in this area. So what are the outcomes of patients? We don't have mortality, one case of hospital mortality.

We don't have any, sorry, we have one stroke, and we can see the different deaths during the follow-up. If we look about the endoleaks, we have one case of type three endoleak started by endovascular technique,

and we have late endoleaks with type one endoleaks. In this situation, it could be very difficult to treat the patient. This is the example of what we can observe at six months with no endoleak and with complete exclusion of the lesion.

But we have seen at one year with some proximal type one endoleak. In this situation, it could be very difficult to exclude this lesion. We cannot propose this for this patient for conventional surgery, so we tried

to find some option. First of all, we tried to fix the other prosthesis to the aortic wall by adjusted technique with a screw, and we can see the fixation of the graft. And later, we go through the,

an arrangement inside the sac, and we put a lot of colors inside so we can see the final results with complete exclusion. So to conclude, I think that this technique is very useful and we can have good success with this option, and there's a very low

rate of disabling stroke and endoleaks. But, of course, we need more information, more data. Thank you very much for your attention.

- The only disclosure is the device I'm about to talk to you about this morning, is investigation in the United States. What we can say about Arch Branch Technology is it is not novel or particularly new. Hundreds of these procedures have been performed worldwide, most of the experiences have been dominated by a cook device

and the Terumo-Aortic formerly known as Bolton Medical devices. There is mattering of other experience through Medtronic and Gore devices. As of July of 2018 over 340 device implants have been performed,

and this series has been dominated by the dual branch device but actually three branch constructions have been performed in 25 cases. For the Terumo-Aortic Arch Branch device the experience is slightly less but still significant over 160 device implants have been performed as of November of this year.

A small number of single branch and large majority of 150 cases of the double branch repairs and only two cases of the three branch repairs both of them, I will discuss today and I performed. The Aortic 3-branch Arch Devices is based on the relay MBS platform with two antegrade branches and

a third retrograde branch which is not illustrated here, pointing downwards towards descending thoracic Aorta. The first case is a 59 year old intensivist who presented to me in 2009 with uncomplicated type B aortic dissection. This was being medically managed until 2014 when he sustained a second dissection at this time.

An acute ruptured type A dissection and sustaining emergent repair with an ascending graft. Serial imaging shortly thereafter demonstrated a very rapid growth of the Distal arch to 5.7 cm. This is side by side comparison of the pre type A dissection and the post type A repair dissection.

What you can see is the enlargement of the distal arch and especially the complex septal anatomy that has transformed as initial type B dissection after the type A repair. So, under FDA Compassion Use provision, as well as other other regulatory conditions

that had to be met. A Terumo or formerly Bolton, Aortic 3-branch Arch Branch device was constructed and in December 2014 this was performed. As you can see in this illustration, the two antegrade branches and a third branch

pointing this way for the for the left subclavian artery. And this is the images, the pre-deployment, post-deployment, and the three branches being inserted. At the one month follow up you can see the three arch branches widely patent and complete thrombosis of the

proximal dissection. Approximately a year later he presented with some symptoms of mild claudication and significant left and right arm gradient. What we noted on the CT Angiogram was there was a kink in the participially

supported segment of the mid portion of this 3-branch graft. There was also progressive enlargement of the distal thoracoabdominal segment. Our plan was to perform the, to repair the proximal segment with a custom made cuff as well as repair the thoracoabdominal segment

with this cook CMD thoracoabdominal device. As a 4 year follow up he's working full time. He's arm pressures are symmetric. Serum creatinine is normal. Complete false lumen thrombosis. All arch branches patent.

The second case I'll go over really quickly. 68 year old man, again with acute type A dissection. 6.1 cm aortic arch. Initial plan was a left carotid-subclavian bypass with a TEVAR using a chimney technique. We changed that plan to employ a 3-branch branch repair.

Can you advance this? And you can see this photo. In this particular case because the pre-operative left carotid-subclavian bypass and the extension of the dissection in to the innominate artery we elected to...

utilize the two antegrade branches for the bi-lateral carotid branches and actually utilize the downgoing branch through the- for the right subclavian artery for later access to the thoracoabdominal aorta. On post op day one once again he presented with

an affective co arctation secondary to a kink within the previous surgical graft, sustaining a secondary intervention and a placement of a balloon expandable stent. Current status. On Unfortunately the result is not as fortunate

as the first case. In 15 months he presented with recurrent fevers, multi-focal CVAs from septic emboli. Essentially bacteria endocarditis and he was deemed inoperable and he died. So in conclusion.

Repair of complex arch pathologies is feasible with the 3-branch Relay arch branch device. Experience obviously is very limited. Proper patient selection important. And the third antegrade branch is useful for later thoracoabdominal access.

Thank you.

and what's available the ellipsis device

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

- Thank you for the opportunity to present this arch device. This is a two module arch device. The main model comes from the innominated to the descending thoracic aorta and has a large fenestration for the ascending model that is fixed with hooks and three centimeters overlapping with the main one.

The beginning fenestration for the left carotid artery was projected but was abandoned for technical issue. The delivery system is precurved, preshaped and this allows an easy positioning of the graft that runs on a through-and-through wire from the

brachial to the femoral axis and you see here how the graft, the main model is deployed with the blood that supported the supraortic vessels. The ascending model is deployed after under rapid pacing.

And this is the compilation angiogram. This is a case from our experience is 6.6 centimeters arch and descending aneurysm. This is the planning we had with the Gore Tag. at the bottom of the implantation and these are the measures.

The plan was a two-stage procedure. First the hemiarch the branching, and then the endovascular procedure. Here the main measure for the graph, the BCT origin, 21 millimeters, the BCT bifurcation, 20 millimeters,

length, 30 millimeters, and the distal landing zone was 35 millimeters. And these are the measures that we choose, because this is supposed to be an off-the-shelf device. Then the measure for the ascending, distal ascending, 35 millimeters,

proximal ascending, 36, length of the outer curve of 9 centimeters, on the inner curve of 5 centimeters, and the ascending model is precurved and we choose a length between the two I cited before. This is the implantation of the graft you see,

the graft in the BCT. Here, the angiography to visualize the bifurcation of the BCT, and the release of the first part of the graft in the BCT. Then the angiography to check the position. And the release of the graft by pushing the graft

to well open the fenestration for the ascending and the ascending model that is released under cardiac pacing. After the orientation of the beat marker. And finally, a kissing angioplasty and this is the completion and geography.

Generally we perform a percutaneous access at auxiliary level and we close it with a progolide checking the closure with sheet that comes from the groin to verify the good occlusion of the auxiliary artery. And this is the completion, the CT post-operative.

Okay. Seven arch aneurysm patients. These are the co-morbidities. We had only one minor stroke in the only patient we treated with the fenestration for the left carotid and symptomology regressed completely.

In the global study, we had 46 implantations, 37 single branch device in the BCT, 18 in the first in men, 19 compassionate. These are the co-morbidities and indications for treatment. All the procedures were successful.

All the patients survived the procedure. 10 patients had a periscope performed to perfuse the left auxiliary artery after a carotid to subclavian bypass instead of a hemiarch, the branching. The mean follow up for 25 patients is now 12 months.

Good technical success and patency. We had two cases of aneurysmal growth and nine re-interventions, mainly for type II and the leak for the LSA and from gutters. The capilomiar shows a survival of 88% at three years.

There were three non-disabling stroke and one major stroke during follow up, and three patients died for unrelated reasons. The re-intervention were mainly due to endo leak, so the first experience was quite good in our experience and thanks a lot.

today's objectives I'll start with reviewing hepatocellular carcinoma HCC

and the current treatment options I'll share the protocol inclusion and exclusion criteria and I will discuss the research treatment protocol briefly and next transitioning to research the preparation taken in the department with

staff members for trial lastly I will talk about what's involved intraoperatively from a nursing standpoint so hepatocellular carcinoma HCC is the most common primary liver manely malignancy and is a leading cause

of cancer-related deaths worldwide cirrhosis is a condition in which there is scarring to the liver causing permanent damage chronic medical conditions such as diabetes mellitus and obesity lead to chronic liver disease

obesity is a risk factor to diabetes and diabetes directly affects the liver because of the essential role the liver plays in glucose metabolism both cirrhosis and chronic liver disease remain the most important risk factor

for the development of HCC a which viral hepatitis and excessive alcohol intake are the leading risk factors of cirrhosis non-alcoholic fatty liver disease and non-alcoholic steatohepatitis which is nash our

conditions in which fat builds up in your liver thus having inflammation and liver cell damage along with fat in your liver these are other risk factors for HCC the incidence of HCC will continue to escalate as hepatitis C and obesity

become more prevalent in the United States so unfortunately the diagnosis of HCC is too often made with advanced liver disease when patients have become symptomatic and have some degree of

liver impairment at this late stage there is virtually no effective treatment that would improve survival in addition the morbidity associated with therapies unacceptably high modalities available for HCC screening include both

radiographic tests and serological markers radiological tests commonly used for surveillance include ultra sonography multi-phase CT and MRI with contrast ultrasound has historically been utilized to identify intrahepatic

lesions since the early 1980s both the photograph above shows a cirrhotic liver versus a normal liver there are visible differences in the portal and hepatic veins between the cirrhotic liver when compared to the non cirrhotic liver so

AFP alpha-fetoprotein has been used as a serum marker for the detection of HCC an AFP level of less than 10 is normal for adults an extremely high level of AFP in your blood greater than 500 could be a sign of liver tumors liver function

tests or lfts look at the part of your liver that is not affected by cancer to see how well your liver is working the lfts will be considered for diagnosis and determining the stage of HCC the tests look for levels of certain

substance in your blood such as bilirubin albumin ALP ast alt and GGT despite advances in prevention techniques screening and new technologies in both diagnosis and treatment incidence and mortality

continue to rise so treatment options for HCC can be divided into three categories surgical options non-surgical options and systemic therapy patients are screened diagnosed and treated accordingly of

these three options interventional radiologists offer the non-surgical approach which include trans arterial embolisation percutaneous ethanol injection radiofrequency ablation and microwave ablation so I want to talk

about the child pu classification the child pious core consists of five clinical measures and is used to assess the prognosis of liver disease and cirrhosis including the required strength of treatment and necessity of

liver transplant the child piu score was originally developed in 1973 to predict surgical outcomes in patients presenting with bleeding esophageal varices today it continues to provide a forecast of the increased increasing severity of

your liver disease and you're expected survival rate the Chao few score is determined by scoring five clinical measures of liver disease the five clinical measures are total bilirubin serum albumin prothrombin time ascites

and hepatic encephalopathy once scores are available in each of the five clinical measures all scores are added and the result is a child piu score their interpretation of the clinical measure is as follows so Class A would

be five to six points lease liver disease with one to five year survival weight at 95 percent Class B seven to nine points moderately severe liver disease one to five year survival rate at seventy five percent and Class C ten

to fifteen points most severe liver disease one to five year survival rate at fifty percent so which child pew scores do I our patients fall into for a research with the CPC and the majority of the HCC child pew scores a and B

seven with the survival rate of one to five years for 95% the best outcomes are achieved when patients are carefully selected for each treatment option regardless of the treatment approach

patients with HCC require a multidisciplinary approach to care to ensure optimal outcomes what we refer to as tumor board tumor board are meetings where specialists from surgery medical oncology radiation oncology

interventional radiology and others collaboratively review a patient's condition and determine the best treatment plan through this multidisciplinary approach patients have access to a diverse team of experts

instead of relying on a single opinion each specialty will have unique contributions to ensure optimal long term outcomes for patients with HCC so there are various algorithms for HCC treatment I actually have one on top of

the other there just to show you that if you're interested in the process you can look it up it's there's a few out there all right so how are the patients selected for treatment like I said tumor board and moving on now to the surgical

options there are two surgical options liver resection and liver transplant surgical resection is currently considered to be the definitive treatment for HCC and the only one that offers the prospect of cure or at least

long-term survival however most patients have unresectable disease at presentation because of poor liver function the overall resect ability rate for HCC is only 10 to 25 percent and even among those who undergo surgical

resection with curative intent there is a recurrence rate of it to 80% at five years post resection survival rates are in the range of 80 to 92% at one year sixty-one to 86 three years and 41 to 74 at five years

the most common sight of post resection recurrence is a remaining liver for patients who are not surgically resectable liver transplant is the only other potentially curative option virtually all patients who are

considered for liver transplant are unresectable because of the degree of underlying liver dysfunction rather than tumor extent down staging using local regional therapies can also be used to increase eligibility for orthotopic

liver transplant while on the transplant list patients disease progress and meeting criteria gets complicated so patients on the transplant list are and do get some other therapies

which I will later discuss so we're surgical resection is not possible for poor liver function liver transplant is a treatment of choice prior to 2008 no systemic therapy was available that demonstrated an improvement in survival

with the publication of two randomized placebo-controlled phase 3 trials the oral multi targeted tyrosine kinase inhibitor sorafenib has become the new standard of treatment for advanced HCC with an increased median survival from

seven point nine months and the placebo group to ten point seven months in the treatment group systemic therapy can be difficult to tolerate because of the side effects dose reduction or treatment interruption is often needed

despite the side-effects treatment is recommended and to be continued into a progression of the tumor is demonstrated the majority of diagnosed patients with HCC present with advanced disease oral therapy has taken two pills twice daily

equaling 400 milligrams B ID so interventional radiology it's like surgery only magic so I I always think about this when patients come in and pre-op beam and they think they're having surgery you know it's well a lot

of benefits to ir what we're doing so interventional radiology is where the magic happens and non-surgical approach procedures are performed percutaneous local ablation include ethanol injection and radiofrequency ablation microwave

ablation is utilized both percutaneously and intraoperatively and lastly there is trans arterial embolisation which depending on the embolization agent can either be chemo bland or radioisotopes percutaneous ethanol injection known as

Pei has a long track record and is very effective in destroying HCC tumors that are less than or equal to 2 centimeters in diameter performed under percutaneous ultrasound guidance a needle is placed into the tumor and absolute alcohol is

injected over recent years radiofrequency ablation referred to as RFA has largely replaced Pei at most centres RFA's also performed percutaneously advancing a specially designed electrode into the tumor and

applying radiofrequency energy to generate a zone of thermal destruction that encompasses the tumor and a 1 centimeter margarine surrounding liver RFA is thus preferable to ethanol injection for patients with solitary

tumors 2 to 4 centimeters in size for tumors smaller than 4 centimeters RFA can achieve initial complete response rates of over 90% in microwave ablation MWA microwaves are created from the needle to create small

regionals regions of heat the heat destroy the liver cancer cells RFA and microwave are effective treatment options for patients who might have difficulty with surgery or those whose tumors are less than one and a half inch

in diameter the success rate for completely eliminating small liver tumors is greater than 85% so can I get a show of hands from the audience on who what facilities are doing chemo embolization everybody pretty much are

you guys doing them next to the gentleman yeah okay so this is gonna be a boring review here alright so trans arterial embolisation a minimally invasive procedure performed to restrict to tumors blood supply it is performed

by advancing and angiography catheter into the branches of the hepatic artery supplying the tumor and injecting an agent mixed with orally contrast followed by a cluding agent known as beads the beads which range from 100 to

300 micrometers in diameter are carried by the circulation into the terminal hepatic arterioles where they lodge and include the vessel resulting in the schema tumor necrosis the procedure is done using moderate sedation patients

are monitored for 23 hours or less for pain and post embolization syndrome trans arterial chemo embolization thus is where the chemo therapeutic agent mixed with beads is injected to the tumor

these particles both blocked the blood supply and induced cytotoxicity attacking the tumor in several ways taste is the treatment of choice when the tumor is greater than four centimeters or there are multiple

lesions within the liver taste takes advantage of the fact that while the liver is refused by both the portal vein and the hepatic artery HCC survives its blood supply almost entirely hepatic artery tastes has been shown to

prolong survival in patients with intermediate stage HCC and objective responses were observed in the majority of patients tear trans arterial radioembolisation is a form of catheter directed internal radiation that

delivers small microspheres with Radio isotopes directly into the tumor y9t microspheres are administered and a procedure similar to taste the procedure has been shown to be safe and effective in cirrhotic patients with HCC the side

effects are usually well title tolerated one major advantage of y9t over taste is that it is indicated in the case of portal vein neoplastic thrombosis while taste traditionally has been considered a contraindication all right so there's

okay okay I have this question which is from a friend of mine she said my organization recently moved away from Joint Commission and is now utilizing DNV DET norske veritas has anyone

experienced this credentialing group and what experiences have you had with them I have not really experienced this group and I'm not very knowledgeable about this so if anybody has information please come up to the the and I see you

nodding you were nodding so come up to the microphone because I'd love to hear more about it it's something new on the horizon it sounds like and it's very good to share this information well that's that's my question

and so we just went away from Joint Commission for two reasons one because they're punitive and number two they cost a lot of money so dnv is another credentialing organization that's recognized by CMS and they are more

proactive for setting you up for success as my understanding well they just came last week the day before I left to come here and my director wasn't around and I'm the only nurse in the department so I had the opportunity to take this

clinical person around she asked me very little of what I did even though that I created my own job she was more interested in knowing about the badges that we have and how we handle our radiation and what we're

doing in our art IR lab which is on vascular world opening at the cath lab in two months so she didn't have a whole lot she said she was impressed with what I did but she didn't ask you what I do so I was kind of looking for feedback

for anybody else has experienced this organization so I've worked in facilities that use both Joint Commission one facility I worked in and another facility that use DMV so I've seen them both they are very similar in

the ways that they go around and look at certain guidelines and structures I will say though that DMV is not as punitive they are much more hey this is what we expect how can we help you these are guidelines and they will work with you

and it's not as I don't want to say scary but I remember when I used to work in a facility with Joint Commission it was like terrifying when they came by what DMV it was not as bad they were much more friendly much more willing to

work with you so that was kind of more my experience with them they asked similar questions to Joint Commission as Joint Commission yet who do they look at the similar aspects do they look at outcomes data look at you know mistakes

current entities go around our interventional room and say oh you have to take these posters down because they're not laminated they have to be you know 18 inches yeah so they do a lot they do a lot of the same guidelines as

Joint Commission they just are more willing to work with you and if I'm understand this correctly if this also gets you FEMA your your your Medicaid and Medicare population reimbursement so so what's the limitation on this or this

this company versus Joint Commission because I in California I've never heard of it yeah I'm what state what state Arizona Arizona and what state okay so I'm not in management background so I don't know

aspect of it but from a staff nurse in a procedural nurse in the two areas I've worked in they were very similar in that aspect thank you thank you DMV was with honor health thank you from New York so this is our fifth year at

DMV so they're very into document control which I love because many times new you have nurses copying documents that are 10 years old and the standards has changed so that's what I love about them and they're also when they visit

they give you a list of the things that you need to improve and they come back the next year and they look at those and see what you have done and what results okay thank you so be on the lookout for D and V maybe you're

possibly replacing Joint Commission's okay so we have a one minute time line

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

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

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

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

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

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

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

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

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

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

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

they travel together so that's what leads to the increased pain and sensitivity so in the knee there have been studies like 2015 we published that study on 13 patients with 24 month follow-up for knee embolization for

bleeding which you may have seen very commonly in your institution but dr. Okun Oh in 2015 published that article on the bottom left 14 patients where he did embolization in the knee for people with arthritis he actually used an

antibiotic not imposing EMBO sphere and any other particle he did use embolus for in a couple patients sorry EMBO zine in a couple of patients but mainly used in antibiotic so many of you know if antibiotics are like crystalline

substances they're like salt so you can't inject them in arteries that's why I have to go into IVs so they use this in Japan to inject and then dissolve so they go into the artery they dissolve and they're resorbable so they cause a

like a light and Baalak effect and then they go away he found that these patients had a decrease in pain after doing knee embolization subsequently he published a paper on 72 patients 95 needs in which he had an

excellent clinical success clinical success was defined as a greater than 50% reduction in knee pain so they had more than 50% reduction in knee pain in 86 percent of the patients at two years 79 percent of these patients still had

knee pain relief that's very impressive results for a procedure which basically takes in about 45 minutes to an hour so we designed a u.s. clinical study we got an investigational device exemption actually Julie's our clinical research

coordinator for this study and these are the inclusion exclusion criteria we basically excluded patients who have rheumatoid arthritis previous surgery and you had to have moderate or severe pain so greater than 50 means basically

greater than five out of ten on a pain scale we use a pain scale of 0 to 100 because it allows you to delineate pain a little bit better and you had to be refractory to something so you had to fail medications injections

radiofrequency ablation you had to fail some other treatment we followed these patients for six months and we got x-rays and MRIs before and then we got MRIs at one month to assess for if there was any non-target embolization likes a

bone infarct after this procedure these are the clinical scales we use to assess they're not really so important as much as it is we're trying to track pain and we're trying to check disability so one is the VA s or visual analog score and

on right is the Womack scale so patients fill this out and you can assess how disabled they are from their knee pain it assesses their function their stiffness and their pain it's a little

bit limiting because of course most patients have bilateral knee pain so we try and assess someone's function and you've improved one knee sometimes them walking up a flight of stairs may not improve significantly but their pain may

improve significantly in that knee when we did our patients these were the baseline demographics and our patients the average age was 65 and you see here the average BMI in our patients is 35 so this is on board or class 1 class 2

obesity if you look at the Japanese study the BMI in that patient that doctor okano had published the average BMI and their patient population was 25 so it gives you a big difference in the patient population we're treating and

that may impact their results how do we actually do the procedure so we palpate the knee and we feel for where the pain is so that's why we have these blue circles on there so we basically palpate the knee and figure

out is the pain medial lateral superior inferior and then we target those two Nicollet arteries and as depicted on this image there are basically 6 to Nicollet arteries that we look for 3 on the medial side 3 on the lateral side

once we know where they have pain we only go there so we're not going to treat the whole knee so people come in and say my whole knee hurts they're not really going to be a good candidate for this procedure you want focal synovitis

or inflammation which is what we're looking for and most people have medial and Lee pain but there are a small subset of patients of lateral pain so this is an example patient from our study says patient had an MRI beforehand

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

- Thank you Dr. Melissano for the kind interaction. TEVAR is the first option, or first line therapy for many pathologies of the thoracic aorta. But, it is not free from complications and two possible complications of the arch are the droop effect and the bird-beak. I was very interested as Gore came up with the new

Active Control System of the graft. The main features of this graft, of this deployment system are that the deployment is staged and controlled in putting in the graft at the intermediate diameter and then to the full diameter. The second important feature is that we can

optionally modify the angulation of the graft once the graft is in place. Was very, very interesting. This short video shows how it works. You see the graft at the intermediate diameter, we can modify the angulation also during this stage

but it's not really used, and then the expansion of the graft at the full diameter and the modification of the angulation, if we wished. This was one of the first cases done at our institution. A patient with an aneurysm after Type B dissection. You see the graft in place and you see the graft after

partial deployment and full deployment. Perhaps you can appreciate, also, a gap between the graft and the lesser curvature of the arch, which could be corrected with the angulation. As you can see here, at the completion angiography we have an ideal positioning of the graft inside the arch.

Our experience consisted only on 43 cases done during the last months. Mostly thoracic aneurysm, torn abdominal aneurysm, and patients with Type B aortic dissection. The results were impressive. No mortality, technical success, 100%,

but we had four cases with problems at the access probably due to the large bore delivery system as you can see here. No conversion, so far and no neurological injury in this patient group. We have some patients who came up for the six months follow-up and you see here we detected one Type 1b endoleak,

corrected immediately with a new graft. Type II endoleak which should be observed. This was our experience, but Gore has organized all the registry, the Surpass Registry, which is a prospective, single-arm, post market registry including 125 patients and all these patients

have been already included in these 20 centers in seven different countries in Europe. This was the pathology included, very thorough and generous, and also the landing zone was very different, including zone two down to zone five. The mean device used per patient were 1.3.

In conclusion, ladies and gentlemen, the Active Control System of the well known CTAG is a really unique system to achieve an ideal positioning of the graft. We don't need to reduce the blood pressure aggressively during the deployment because of the intermediate diameter

reached and the graft angulation can be adjusted in the arch. But, it's not reversible. Thank you very much for your attention.

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

and here's the results of the FDA trial

talk here with something that's new on the horizon believe it or not it was actually on the horizon 20 years ago and then it went away because there were a lot of patients that were treated with a

lot of complications and it's making a resurgence and this is balloon pulmonary angioplasty or BPA for short so this is an intervention which may be feasible in non-operative candidates so I mentioned to the Jamison classification earlier

type 1 and type 2 disease should be treated with surgery again it should be treated is curative but patients with type 2 and a half or 3 disease can be treated with balloon pulmonary angioplasty in the right in the right

frame which means that a surgeon has said I cannot operate on this a medical doctor has said boy they're not going to get better with their medicine let's try something else well this is that something else and that's what involves

everyone in this room so this is these are usually staged interventions with potentially high radiation and contrast dose if you think about it it's like Venis recan and a pulmonary AVM all-in-one so it's a potentially a long

complex procedure with a lot of contrast and a lot of radiation but it can provide a lot of benefit to these patients I'm going to talk about the comp potential complications at the end which is one reason why not

everyone should do these all the time so this is a pulmonary angiogram from the literature when you're injecting a selective pulmonary artery you can see that this patient has multiple stenosis there's no real good flow there the

vessels look shriveled up like I mentioned to you before you can get a balloon across it and balloon the areas and then you can see afterwards so the image a on the left is before an image D is afterwards believe it or not this are

in the most experienced hands because the most experienced hands are for palm the BP AR in Japan they do hundreds of cases of these a year at each hospital I've personally only done five so but this is a something that I'm very

interested in and you can see how how much benefit it has for that patient another way you can see these are the webs and the bands that I mentioned to you earlier so what's interesting is that if you look on the first set of

images on the top and the images on the bottom those are the same patients it's the same view before top rows before and the bottom rows after balloon pulmonary angioplasty so the first image is a pulmonary angiogram where if you kind of

see this there's there's some area areas of haziness those are the webs and bands the image on the the middle is the blown-up views and you can see those areas and then the image on the right is intravascular ultrasound which I use

every day in my practice it's a catheter with an ultrasound on it and when you look at it on the top image image see you can see a lot of thrombus you're actually not seeing flow and on image F on the bottom you're seeing red which is

the blood flow so these patients can actually improve the luminal diameter bye-bye ballooning them you can treat occlusions again image on the left shows you a pulmonary artery with a basically an occlusion proximally and then after

you reek analyze it and balloon it you can see that they can get much more

basically putting it all together we go into basically a lot of our adjunctive tools so are a lot of our interventional equipment so I've as rotablator a threat

to me devices etc and so we really rely heavily on our vendors for the support and they're great to work with they love coming in they left to teach and actually and it's also a little bit of a break from for the learners for other

than listening to Alice and I so they like kind of having the vendors come in and they get a chance to play with the equipment as well and then our last day we do basically a wrap-up we'd do it the same quiz at the very beginning and then

we do a final simulation exercise which we have some pictures for as well and then they finish up with their clinical component okay so here are some examples some pictures that we took with our learners

experiencing and playing with the equipment the simulated equipment that our vendors brought in so this is some of the learners I think that's the Arth rectum a device so they did bring a simulated or threat

to me device and so the learners got to play with it got to understand it obviously our techs and nurses are not doing the procedure the physicians are so they never have a chance to actually play with the equipment or or use the

equipment on a real patient so this was kind of an eye-opener for them understanding how the Arthur ectomy works and how it D bulks and how it takes away calcium so that was a fun experience for them and our second

picture is just an example of an Ibis when we brought in our ibis vendors identifying what plaque looks like in an artery and through the intravascular ultrasound right so learning where the plaque is located if the descent Rick it

is not so there's so many different components of our inner vascular ultrasound that they actually learned a lot from as well so a couple examples of that so this is just a live picture of our learners playing with the Arthur

ectomy device I think that's the rotablator and they've improved their rotablator so it's not the nitrous tank that weighs three tons coming in the room we did so they did improve that so again just an example of them using the

simulated equipment and I think they really enjoyed that so again we wanted to really evaluate our learners we also wanted to evaluate our programs so again like I mentioned we did a pre post test and so and afterwards we did a

statistical analysis of their scores to determine really did this make a difference at least in their knowledge and what we found was it was statistically significant as evidenced by the P level of being less than point

zero zero one we also include doing pop quizzes pretty much every week and maybe every other day and so I know that they hated it but it actually helped us to really put into place where we needed to focus and what we needed to

review so that really helped us a lot and then again simulation and we go into that a little bit more too so again with the program overall we really looked at participant feedback through electronic evaluations we also did a start-stop

continue exercise at the very on our very last day because we wanted to get real-time feedback and so now that we've been through it about a year I think we may stop doing that however we will continue to do at least the electronic

evaluations at the end of the course and our learners were very satisfied with this program so a 3.97 out of 4 on a Likert scale really it's telling us that they really enjoy this program and they gave us very valuable feedback we also

got preceptor feedback and we also did a debriefing with what we call our governance team so basically a lot of the stakeholders that I mentioned before especially our operational leaders and our chief medical officer really going

into that and finding out what is it that we needed to really improve how can we continue to support etc and and everything else like that so very

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

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

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

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

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

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

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

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

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

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

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

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

months CT a very sensitive and specific

happy to take any questions or in

ultrasound we don't usually use contrast but one of the procedures were doing for the treatment management of a pulmonary embolism is the ultrasound assisted Rumble Isis do we need contrast so for the thrombolysis is the catheter itself

so you still need to give contrast two to do the procedure but while the catheter is running you don't need to give any contrast four for that is that what you're we don't usually use contrast for ultrasound but

all right when you're treating how will you know that it sliced the clot is less what you frequently do is check the pressures so that catheter allows you to check the pressure and so once you start a patient so you do a pulmonary

angiogram which requires contrast and you put the ultrasound assisted thrombolysis catheter in the eCos catheter then after 24 hours or 12 hours you can measure a pressure directly through that catheter and if the

patient's pressure is reduced you don't have to give them anymore injections yeah and if we are using ultrasound for treatment is it possible to do it for diagnostic purposes No so not for non the prominent artists for

diagnostic imaging unless you're doing an echocardiogram which is technically ultrasound in the heart but for treatment otherwise you need you will need to inject some dye oh thank you

hi I'm Katrina I'm NGH I have one more question okay for your patients with chronic PE do most of them begin with acute PE or if they very separate sort of presentations that's that's a great question so all of them

had acute PE because you can't have chronic without acute but a lot of them are not ever caught so you'll have these patients who had PE that was silent that maybe one day they woke up and had a little bit of chest pain and then it

went away couple days later they thought they had a bronchitis or a cold and then you find out five years later that they had a huge PE that didn't affect them so badly and then they have these chronic findings they usually show up to their

family practice doctor again with hey I just can't walk as far as I can I have a little heaviness they rule them out from a heart attack but it turns out that they have CTF so you you all of them had a Q PE but it takes a lot of time and

effort to find out whether they truly have chronic PE so it's usually in a delayed fashion thank you all right well thank you guys again appreciate it [Applause]

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

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

- I have no disclosures. - So the eye lens is a highly radiosensitive tissue. And the radiation damage is a cataract, this is a cancer-like pathology resulting from mutating events. It's a posterior sub-capsular cataract. And in several studies we have seen quite a large number of interventionalists or vascular surgeons or cardiologists

showing this exact type of posterior lens changes, characteristic of radiation exposure. About half of the interventionalists in this study. The risk increases with duration of work years and decreases with regular use of protection. So the conclusion in this paper was

that radiation injuries to the lens can be avoided. By, for example, reducing the dose. So this is obvious that we should do in every way we can do it. And there are many steps shown in this excellent paper published in the European Journal of Vascular Surgery.

And, on top of that, of course, use radiation shields. And I've been focused today on different eye shields. So we tested the eye dose reduction with several commercially-available protection glasses and shields during realistic endovascular procedures in an experimental setting,

using phantoms and dosimeters at the front of the eyes, the left and the right eyes. And this was an EVAR protocol using a Siemens C-arm. So we tested the more modern sports glasses. The reduction to the left eye was only 15 to 50 percent, or in some glasses just 10 to 15 percent.

So much, much lower than what's promised in the brochure. The fit over glasses protected best, especially if you don't use them over personal glasses. So this is because of the, it's if there is just a small gap between the cheek and the glasses, there's scattered radiation pulsing in there.

And it also scatters on your face up to the eye lens. We also tested visors and you can see the effect of having them at a correct angle. They should be downward-angled, and you have a pretty good protection. But the best of all was the ceiling-mounted shield,

if it's properly used with a very high reduction, 90 to 95 percent. So this is an image from our hospital. I'm in the middle with these fit-over glasses that we have all now beginning to use. So in this paper, it was nicely shown that the position

of the shield also is very important. So it should be very tight to the patient and close to the femoral access. Other protective measures like these surgical drapes, we use them and there is a good additive reduction of radiation exposure

to the chest and hands, shown by this paper. But no one has ever related the reduction to the head or the eye. And the latest addition in our center is this zero-gravity suit that has been shown to significantly reduce radiation exposure

to the whole body, including the head and the eyes. So I think this is a very important new device. In this study, from the London group, we can see that adherence to use these kinds of shields is depressingly low. Use of lead-protective glasses was only 36 percent

among the operators and ceiling-mounted leaded shields, no one uses them, at that time at least. So, in conclusion, there are several radiation protection eyeglasses used today. They offer a highly limited dose reduction, giving a false sense of security.

A proper use of ceiling mounted lead shields is essential for adequate protection to the eye lens. And the protection eyeglasses and visors should only be used as a complement. And consider also using additional devices as full-body protection to maximize your protection, thank you.

good morning everybody and I'm always excited when there's pediatric content anywhere so when Nancy Michelle and I were we're talking we were trying to figure out a topic and I had some experience with some foreign bodies in MRI and such in my experience so we

thought it would be interesting to talk about interesting cases in pediatric radiology okay our objectives for today are to identify potential risk factors that present in Pediatric Radiology patients discuss some pre screening

assessments for common pediatric comorbid conditions using a case base case based methodology and reviews and radiologic images of unique pediatric cases so we know that kids have a tendency to put things into small

objects into their mouths and other or orifices their nose their ears their vaginas so we are going to be discussing some cases throughout this presentation and we know that kids not only ingest objects but they also insert them and

they may actually inhale them as well most of these objects will pass spontaneously 10 to 20 percent of those that they swallow will require removal by endoscopy and about 1% require surgical removal and why is this a

problem with kids we know that kids are in the oral phase of development so they their teeth are not formed so they have inadequate dentition so they can't chew things so those pieces of hotdog those peanuts and and such are difficult for

them to chew which we know is the first phase of digestion their epiglottis is higher so it can make it more difficult for them to swallow and they have immature swallowing coordination so hence things are more likely to get

stuck so the incidence of foreign bodies is about six months to four years of age makes sense there's a slight predominance of males I can tell you I have a son and a daughter my daughter never put anything in her mouth or nose

or whatever but my son was certainly broke that record there's a slight predominance of males the most common objects are coins earrings marbles barrettes and rocks and objects that are typically longer than five centimeters

or greater than two centimeters in diameter are less likely to pass through the pylorus which makes sense and most pass within four to six days but some take up to four weeks of ingestion so why do we need radiologic imaging so

x-rays we know that the object would have to be radio opaque to be visualized on x-ray we know there's a challenge in cooperating for expiratory films and I'll talk about that in a couple of more slides we want to avoid CT scan if

possible because of the radio the exposure but ultrasound is really up and coming in terms of determining the location and the status of the object and provides dynamic imaging when you're thinking about foreign body foreign body

ingestion so ingestion versus aspiration foreign body aspiration is the fifth leading cause of death among one to three year olds and the primary cause of unintentional death in infants so the initial choking episode may be

unwitnessed it doesn't take very long for it for a six-month-old who's sitting up to grab something and put it in his mouth and toys pieces of toys account for ninety percent of these cases there's often a delay in diagnosing

these cases in patients that have a history of asthma croup or pneumonia because they always COFF so when they have an episode of coughing say oh it just must be the start of an asthma flare not thinking about foreign body

aspiration in the mix and of course early and up too late complications maybe it's fixing cardiac arrest dis Nia and laryngeal edema because as I said the epiglottis is high those Airways are narrow so there can be swelling

they swallow or ingest something and not

ablating things in the bones well musculoskeletal blasian we're fortunate within our practice that we have a doctor councilman Rochester who's

a probably one of the biggest world's experts on this and these are his cases that he shared but you can see when you have small little lesions and bones that are painful you can place probes in them and you freeze them the tumor dies and

musculoskeletal things remain intact what about when you have cases like this where there's a fracture going through the iliac bone on the left with an infiltrate of malignancy well you can cryo blade it and what's cool about is

you can using CT guidance do percutaneous cannulated pins and screws and a cement o plasti ver bladed cavity and when you're done the patient who initially couldn't walk now can and whose pain scale went down to one so I

think that's that's very important to realize the potential of image-guided medicine this is something that previously would have had to been done in the orthopedic lab so you know I think this is extending options where

otherwise it would have been difficult same thing applies to the spine you can ablate and fill them with cement so

- [Lindsay] I would like to discuss three aspects of radiation safety that hopefully will set the basis for subsequent talks in this session. These are my financial disclosures, none of which are relevant to this talk. Over 100 years ago, radiologists developed finger and hand damage, because they were using

their own hands to adjust the radiation prior to diagnostic studies. Now we are seeing disturbing levels of radiation-induced injury, such as posterior cataract in interventionists. The knowledge of radiation biology, has evolved,

to the point that we can say there are no safe levels of radiation. That's because each of us have individual thresholds to radiation damage. Furthermore, eyes and brain are much more radiosensitive, than was previously thought.

The second concept I would like to discuss is that our protective devices are likely giving us a false sense of security. First we'll talk about aprons, because of ergonomic concerns, protective aprons use various lightweight materials in place of lead.

And they are sold on the basis of being easier on the back, but rarely is there any discussion, of their effectiveness as being a barrier to radiation. When they are looked at independently, there is considerable variable, variability and their effectiveness.

In one study, the thicker of the lightweight aprons, equivalent to 0.5 mm of lead, stopped only up to 1.6% of radiation at 70 kV and 6.7% at 100 kV, from striking our less radiosensitive, but highly-valued anatomies. Lead glasses have even more variability.

In one independent study, glasses claiming the same equivalence varied in degree of attenuation by 35-95% when the beam is directed directly at the glasses. This effect is compounded by the shape of the glasses and the position of one's head in relation to the source.

The traditional glasses with side panel, the ones that make you look like your granddad, are most effective for all geometries, and more commonly used and stylish sport-style glasses are less effective. Caps and hoods are a subject of debate.

An optimized setting using phantoms, a leaded surgical cap only reduced whole brain dose by 3.3%, the leaded cap with side drape by 55%. Again, the effect is dependent on head position in relation to the source. Remember, this is an optimized situation.

In real life, these numbers will be even lower. You will hear later in this session about the benefit of ceiling shields. We will have also added protection extending to the floor. More importantly, remember that if you double the distance that you stand from the source of scatter,

you can 1/4 of the dose, three times 1/9. So if you don't need to stand next to the tube step away. The third and final thing I'd like to discuss is that knowledge and technique are essential. The main source of exposure to you and your staff is scatter radiation.

When the primary beam strikes the table, the patient and the detector, it is scattered circumferentially, most markedly, on the tube side. Practical means to reduce your dose is really effectively described in this article

from JVS in 2012. One of the maneuvers that really increases the dose is tube angulation. When angling the tube, you're effectively making the patient much (mumbles) causing the machine to increase the dose.

LAO angulation markedly increases the dose to anyone standing on the patient's right. In addition, when angling the tube it makes it harder to use various barriers, therefore compounding the effect of angulation. This effect of LAO angulation and how the scatter

is greater than RAO angulation to someone standing on the right was quantified, again in the same article in JVS. So the take home messages I would like you to take from this talk are firstly, there are no safe doses of radiation.

Secondly, all measures to reduce radiation are additive. Just having new equipment does not really suffice. And finally, have all of your protective devices tested by your own physicist. Don't believe what the brochures say. Thank you for your attention.

- Mister Chairman, ladies and gentlemen. Good morning. I am excited to present some of the data on the new device here. These are my disclosure. There are opportunities to improve current TEVAR devices. One of that is to have a smaller device,

is a rapid deployment that is precise, and wider possibilities to have multiple size matrix to adapt to single patient anatomy. The Valiant device actually tried to meet all these unmet needs, and nowadays the Navion has been designed on the platform

of the Valiant Captivia device with a completely different solution. First of all, it's four French smaller than the Valiant Captivia, and now it's 18 French in outer diameter for the smallest sizes available.

The device has been redesigned with a shorter tip and longer length of the shaft to approach more proximal diseases, and the delivery system deploys the graft in one step that is very easy to accomplish and precise.

The fabric has been changed with nowadays the Navion having the multi-filament weave of the Endurant that already demonstrates conformability, flexibility, and long-term durability of the material. It's coming with a wide matrix of options available. In terms of length, up to 225 mm.

Diameters as small as 20 mm, and tapered device to treat particular anatomical needs. But probably the most important innovation is the possibility to have two proximal configuration options: the FreeFlo and the CoveredSeal.

Both tied to the tip of the device with the tip-capture mechanism that ensures proximal deployment of the graft that is very accurate. This graft is being under trial in a global trial

that included 100 patients all over the world. The first 87 patients have been submitted for primary endpoint analysis. 40% of the patients were females. High risk patients showed here by the ASA class III and IV. Most of the patients presented

with a fusiform or saccular aneurysm, and the baseline anatomy is quite typical for these kinds of patients, but most of the patients have the very tortuous indices, both at the level of the access artery tortuosity and the thoracic aorta tortuosity.

Three-fourths of the patients had been treated with a FreeFlo proximal end of the graft, while one-fourth with the CoveredSeal. Complete coverage of the left subclavian occurred in one-fifth of the patients. Almost all had been revascularized.

Procedure was quite short, less than one and half hour, percutaneous access in the majority of cases. There were no access or deployment failures in this series. And coming to the key clinical endpoints, there were two mortality reported out of 87 patients.

One was due to the retrograde type A dissection at day one, and one was not device related almost at the end of the first month. Secondary procedures were again two. One was in the case of retrograde type A dissection, and the second one in a patient

that had an arch rupture due to septicemia. Type 1a endoleak was reported in only one case, and it was felt to be no adverse event associated so was kept under surveillance without any intervention. Major Adverse Events occurred in 28% of the cases. Notably four patients had a stroke

that was mild and not disabling, regressing in two weeks. Only one case of spinal cord ischaemia that resolved by drainage and therapy in 20 days. In summary, we can say that the design enhancement of Valiant Navion improved upon current generation TEVAR.

Acute performance is quite encouraging: no access or deployment failure, low procedural and fluoro times, low rate of endoleaks, Major Adverse Events in the range expected for this procedure.

Nowadays the graft is USA FDA approved as well as in Europe CE mark. And of course we have to wait the five years results.

- Thank you very much, Gustavo, you read the abstract so now my task is to convince you that this very counter-intuitive technique actually works, you are familiar with Petticoat, cover stent to close a proximal entry tear and then uncover stents, bear stents, downstream. This what it would look like when we open up

the bare stent, you know dissect the aorta. So here's a case example, acute type B with malperfusion, the true lumen is sickle shaped, virtually occluded. So we use Petticoat, and we end up with a nice reopening of the true lumen, it is tagged here in green, however if you look more closely you see that here

wrapping around the true lumen there is a perfused false lumen. This is not an exception, not a complication, this is what happens in most cases, because there are always reentries in the celiac portion of the aorta.

So the Stablise concept was introduced by Australian group of Nixon, Peter Mossop in 2012, after you do the Petticoat, you are going to voluntarily balloon inside both the stent graft and the bare stents in order to disrupt, to fracture the lamel, obtain a single-channeled aorta.

This is what it looks like at TEE, after deployment of the stent graft, you see the stent graft does not open up completely, there is still some false lumen here, but after the ballooning, it is completely open. So the results were immediately very, very good, however technique did not gain a lot of consensus,

mainly because people were afraid of rupturing the aorta, they dissect the aorta. So here's a Stabilise case, once again, acute setting, malperfusion, we do a carotid subclavian bypass because we are going to cover the subclavian artery, we deploy

the cover stent graft, then with one stent overlap, we deploy two bare stent devices all the way down to the iliacs and then we start ballooning from the second stent down, so you see Coda balloon is used here, but only inside the cover stent with fabric.

And then more distally we are using a valvuloplastic balloon, which is noncompliant, and decides to be not larger than the aorta. So, I need probably to go here, this is the final result, you can see from the cross-sections that the dissection is completely gone and

the aorta is practically healed. So you might need also to address reentries at the iliac levels, attention if you have vessels that only come from the false lumen, we want to protect them during the ballooning, so we have a sheath inside this target vessel, and we are

going to use a stent afterwards to avoid fragments of the intima to get into the ostium of the artery. And this is a one-year control, so as you can see there is a complete remodeling of the aorta, the aorta is no longer dissected, it's a single channel vessel, here we can see stents in two vessels that came

from the false lumen, so very satisfactory. Once again, please remember, we use compliant latex balloons only inside the the cover stent graft, and in the bare stents we use non-compliant balloons. We have published our first cases, you can find more details in the journal paper, so in conclusion,

dear colleagues, Stabilise does work, however we do need to collect high-quality data and the international registry is the way to do this, we have the Stabilise registry which is approved by our ethical committee, we have this group of initial friends that are participating,

however this registry is physician initiated, it's on a voluntary base, it is not supported by industry, so we need all the possible help in order to get patients as quickly as possible, please join, just contact us at this email, we'd be more than happy to include everybody who is

doing this technique according to this protocol, in order to have hard data as soon as possible, thank you very much for your attention.

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