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IVC Filter (Fibrin cap)|IVC Filter Retrieval||Male
IVC Filter (Fibrin cap)|IVC Filter Retrieval||Male
2016adjunctiveendoscopicexcimerfiltersforcepsfrenchlaseropteaserigidsheathSIR
Single Branch Carotid Ch/TEVAR With Cervical Bypasses: A Simple Solution For Some Complex Aortic Arch Lesions: Technical Tips And Results
Single Branch Carotid Ch/TEVAR With Cervical Bypasses: A Simple Solution For Some Complex Aortic Arch Lesions: Technical Tips And Results
accessaccurateaorticarcharterycarotidcarotid arteryCarotid ChimneychallengingchimneyChimney graftcommoncommonlycoveragedeployeddeploymentdevicedissectionselectiveembolizationemergentlyendograftendoleakendovascularexpandableleftmaximummorbidityocclusionpatientsperformedpersistentpublicationsretrogradesealsheathstentssubclaviansupraclavicularTEVARtherapeuticthoracictype
Extensive Heel Gangrene With Advanced Arterial Disease: How To Achieve Limb Salvage: The Achilles Tendon Is Expendable And Patients Can Walk Well Without It
Extensive Heel Gangrene With Advanced Arterial Disease: How To Achieve Limb Salvage: The Achilles Tendon Is Expendable And Patients Can Walk Well Without It
achillesadjunctiveadjunctsAllograftAllograft Amniotic membraneambulateBi-Layer Wound matrixBi-Layered Living Cell TherapybrachialdorsalendovascularexcisionheelincisionischemicmicrovascularmodalitiesneuropathynoninvasiveocclusiveoptimizedoptimizingOsteomyelitis / Heel Ulceration / Exposed Tendon / Sever PAD / DMpartialPartial or TotalpatientpatientsperforatingperipheralperonealPost Intervention in-direct Revascularizationposteriorposteromedialresectionrevascularizationrevascularizeskinspectrumtendontherapeutictibialtightlyulcerulcerationunderwentvascularwound
Importance Of Maintaining Or Restoring Deep Femoral Artery Flow In Open And Endo Revascularizations For CLTI
Importance Of Maintaining Or Restoring Deep Femoral Artery Flow In Open And Endo Revascularizations For CLTI
amputationangioplastyarteryballoonclaudicationcombinedconfigurationsdeependovascularextremityfemoralfemoral arterygroinhealhybridiliacinflowinfrainguinalischemicisolatedlimbocclusionOcclusion of DFApainpatencypatientpercutaneousperfusionpoplitealpreventprofundaproximalrestrevascularizesalvageseromastenosisstentingstumpsystemictransluminaltreatableVeithwound
Pitfalls Of Percutaneous EVAR (PEVAR) And How To Avoid Them
Pitfalls Of Percutaneous EVAR (PEVAR) And How To Avoid Them
AbbottaccessanesthesiaAngio-Seal (Terumo Medical Corporation) - Closure deviceangiogramangiosealanteriorarteriotomybifurcationboreclampclosuredeployedEndologixevarfailedfailurefemoralgelfoamhemostasislengthmicropunctureobservedoperativePerclose ProGlidepercutaneousPEVARpredictorsprogliderandomizescarringSuture-Mediated Closure (SMC) Systemtechniquetherapeuticveitvenousvessel
Endoscopic vs. Open Vein Harvest For Bypasses: What Are The Advantages And Disadvantages Of Each
Endoscopic vs. Open Vein Harvest For Bypasses: What Are The Advantages And Disadvantages Of Each
advantagesautologousbypasscardiaccomorbidcomplicationsdecreasedecreaseddisadvantagesendoscopicendovascularextremityharvestincisionincreasedinexperiencedlaborligatedlowerpatencypatientspercutaneousperformedprimaryrisksaphenoussurgicalsuturevascularveinVeithwoundwounds
Right Axillary Access For Complex EVARs And TEVARs: Advantages, Technical Tips And Preventing Strokes
Right Axillary Access For Complex EVARs And TEVARs: Advantages, Technical Tips And Preventing Strokes
accessaorticarcharteryaxillaryCHEVARchimneydevicesendovascularextremityfenestratedFEVARFEVARChminimizemortalitypatientRt Axillary Artery ConduitsheathsheathsstrokesutureTEVARvisceralzone
New ESVS Guidelines For Treatment Of Occlusive Disease Of The Celiac Trunk And SMA: What Do They Tell Us About The Best Current Treatment
New ESVS Guidelines For Treatment Of Occlusive Disease Of The Celiac Trunk And SMA: What Do They Tell Us About The Best Current Treatment
acuteaneurysmangiographyarteriarterialbowelclinicianembolicembolusendovascularESVSguidelinesimagingischaemialactatemesentericrecommendationrepairrevascularisationthrombotic
Surgical Creation Of A Moncusp Valve
Surgical Creation Of A Moncusp Valve
applycompetingcontralateraldeependovascularfibroticflapflowhemodynamicmalfunctioningmobilemodelingMono-cuspid neovalveMono-cuspid Stent PrototypeparietalreconstructionrefluxstentthrombosisvalveValvuloplastyveinvenouswall
The PREPIC Trial: Fact Or Fiction
The PREPIC Trial: Fact Or Fiction
anticoagulatedanticoagulationBoston ScientificCardial VCF / LGM filter / Bird's nest filter / Warfarin / LMWHdatadifferenceDVTembolismfilterfiltersgreenfieldincidencemulticenterpatientsprepicpublishedpulmonaryrandomizationrandomizedrecurrentremainedriskstudysymptomatictherapeuticunderpoweredunfractionatedVena Cava Filterversus
NaHCO3 Plus Hydration Decreases Acute Kidney Failure After EVAR: Based On A Pilot RCT (The HYDRA Trial) Comparing It To Hydration Alone: Why Is It Different From Other Negative NaHCO3 RCTs
NaHCO3 Plus Hydration Decreases Acute Kidney Failure After EVAR: Based On A Pilot RCT (The HYDRA Trial) Comparing It To Hydration Alone: Why Is It Different From Other Negative NaHCO3 RCTs
bicarbonateboluscardiovascularcombinationcomparingcoronarydoseevarhydrationHypertensionintralowmechanismspatientsperipheralpreviousrandomizedreducingrenalsalinesodiumstandardTherapeutic / Diagnostictrialtrialswillingness
Value And Limitations Of Cryopreserved Allografts For The Treatment Of Arterial Prosthetic Graft Infections
Value And Limitations Of Cryopreserved Allografts For The Treatment Of Arterial Prosthetic Graft Infections
adjunctiveaneurysmaorticarterialautologousbleedingcellulitisclosurecomplicationcomplicationsCryopreserved Allograftdeviceetiologyextremityfemoralgraftinfectedinfectioninfectionsinfectiousintraoperativelateligationlimbmycoticpatientspercutaneousperipheralprimaryprofundaprostheticpseudoaneurysmpseudoaneurysmsresectionscanseedingstenttherapeutictreatedulceratedvisceral
Gutter Endoleaks On Completion Angiography With Ch/EVAR: When To Ignore; How To Prevent; When And How To Treat
Gutter Endoleaks On Completion Angiography With Ch/EVAR: When To Ignore; How To Prevent; When And How To Treat
aneurysmaorticchimneyChimney EVARChimney graftdisappearedendograftendoleakendoleaksgraftsnitinoloccludeoversizingparallelpatternscansealingshrinkageskeletonSnorkelstenttherapeuticthoracoabdominaltreattypezone
Estimation Of Long-Term Aortic Risk After EVAR: The LEAR Model: How Can It Guide And Modulate Surveillance Protocols
Estimation Of Long-Term Aortic Risk After EVAR: The LEAR Model: How Can It Guide And Modulate Surveillance Protocols
aneurysmaorticcentimeterdeviceendoleaksevarlearlowoutcomespatientpatientspredictorsregulatoryriskshrinkagestentsuprarenalSurveillanceVeith
DEBATE: All SFA Lesions Can Be Treated Endovascularly: Should They Be: Open Bypass Should Rarely Be Used
DEBATE: All SFA Lesions Can Be Treated Endovascularly: Should They Be: Open Bypass Should Rarely Be Used
AbbottangiogramballooncanalizationdiameterendovascularevarfemoropoplitealhematomaintroducerlesionsocclusionpatencyperformPeripheral stent systempoplitealpunctureretrogradestentsubintimalSuperatechniquetherapeuticthrombosistotaltreatVeith
What Morphological Changes On CT After EVAR Predict The Need For Re-Interventions: From The DREAM Trial
What Morphological Changes On CT After EVAR Predict The Need For Re-Interventions: From The DREAM Trial
analysisaneurysmangulationaorticdiameterendograftendoleakendoleaksendovascularevariliaclengthlimbmaximalneckpatientspredictpredictivepredictspreoperativeproximalreinterventionsscanssecondaryshrinkagestenosisstenttherapeuticthrombus
Elevation Or Retunneling For Second Stage Basilic Vein Transposition
Elevation Or Retunneling For Second Stage Basilic Vein Transposition
anastomosisarterialbasiliccomparablecomparedcumulativedatafavoredFistulafistulasgraftsjournalmaturationOne & Two Stage procedurespatenciespatencyprimaryrangeratesstagestagedstratifiedSuperficializationsuperiorTrans-positiontransectiontransposedtranspositiontunnelingvascularveinveinsversus
Rapid Transport For Acute Aortic Syndrome Patients: When Should It Be Used And When Not
Rapid Transport For Acute Aortic Syndrome Patients: When Should It Be Used And When Not
abdominalacuteaneurysmsaorticbasicallycenterscomorbiditycreatininedissectionsevarevarsfactorsinpatientinstitutionlowermortalitypatientsphysiologicpreoperativerapidrenalrupturedstudysyndromestransfertransferredtransferstransportunivariatevascularVeith
Is Drug Neuroprotection After Thrombectomy For Acute Stroke Or Other Ischemic Cerebral Insults Feasible: Future Prospects
Is Drug Neuroprotection After Thrombectomy For Acute Stroke Or Other Ischemic Cerebral Insults Feasible: Future Prospects
acuteadvanceanteriorcarotidcerebralcollateralsdeliveryintracranialmechanicalneuroprotection agentsneuroprotectiveofferedpatientpatientsPenumbrapotentpreservestrokethrombectomyThromectomytpatreat
How Best To Treat Pediatric Vascular Injuries
How Best To Treat Pediatric Vascular Injuries
adjunctsangiographyarterialaxialbismuthbluntbrachialcannulationcenterschildrencommoncontralateralendovascularextremityiatrogenicinjuriesinjuryinterpositionischemiclimbmechanismminimalmortalitypediatricpenetratingradialrepairrepairedsaphenoussinghstentsuturestraumatruncaltypevascularVeithversus
Long-Term Results Of Carotid Subclavian Bypasses In Conjunction With TEVAR: Complications And How To Avoid Them
Long-Term Results Of Carotid Subclavian Bypasses In Conjunction With TEVAR: Complications And How To Avoid Them
anteriorarterybypasscarotidcervicalcirculationcomparisoncomplicationscordcoronarydiaphragmdysfunctionendovasculargraftlandingleftLSCAnerveoriginoutcomespatencypatientsperfusionphrenicposteriorproximalpseudoaneurysmsptferesolvedrevascularizationreviewrisksspinalstentstudysubclaviansupraclavicularTEVARtherapeuticthoracicundergoingvascularvertebral
How To Use Hybrid Operating Rooms Optimally Beyond Vascular Procedures: How The Availability Of Mobile C-Arms Can Help
How To Use Hybrid Operating Rooms Optimally Beyond Vascular Procedures: How The Availability Of Mobile C-Arms Can Help
accessAscending Aortic Repair - Suture line DehiscenceaugmentbasicallyDirect Percutaneous Puncture - Percutaneous EmbolizationembolizationembolizefusionguidancehybridimagingincisionlaserlocalizationlungmodalitypatientscannedscannerTherapeutic / Diagnostictraumavascular
Why Open Endarterectomy Is The Best Treatment For Common Femoral Artery Lesions: It Is Still The Gold Standard In Most Cases Despite What You May Read And Hear
Why Open Endarterectomy Is The Best Treatment For Common Femoral Artery Lesions: It Is Still The Gold Standard In Most Cases Despite What You May Read And Hear
amputationarterycommoncommon femoralembolizationendarterectomyendovascularfemoralfemoral arteryhematomaInterventionsmehtamorbiditymortalitypatencypatientsperioperativeprimaryrestenosisrevascularizationrotationalstentstentingstentssuperficialsurgicalsurvivalTECCO
Near Infrared Spectrometry (NIRS) Monitoring Of Spinal Muscles To Reflect SCI With TAAA Repairs: How It Works And Early Experience
Near Infrared Spectrometry (NIRS) Monitoring Of Spinal Muscles To Reflect SCI With TAAA Repairs: How It Works And Early Experience
arteriesBEVARclinicalcollateralcorddopplerdorsalevarexperimentallaserlumbarmentoringmidlineMIS²ACEmonitoringnetworkneurologicocclusionoxygenationpatientreflectssegmentalsetupspectroscopyspinalspinestenttechnologytherapeuticvalidation
The Novate Sentry Trial With A Novel Bio-Convertible IVC Filter: Follow-Up At 2 Years
The Novate Sentry Trial With A Novel Bio-Convertible IVC Filter: Follow-Up At 2 Years
adjudicatedanticoagulationarmsbioabsorbableBioconvertible IVC filterBTG Interventional MedicinecavalclinicalcomparescomplicationscontraindicationdeviceDVTendpointfavorablyfilterfilteringfiltersfracturehydrolysisimagedimplantocclusionorthopedicovinepatientspercentperforationretrievalriskSentrysymptomatictherapeuticthrombosistransientvenogramvenograms
New Devices For False Lumen Obliteration With TBADs: Indications And Results
New Devices For False Lumen Obliteration With TBADs: Indications And Results
aneurysmangiographyaortaballooningCcentimeterdilatorendograftendovascularEndovascular DevicefenestratedgraftiliacimplantedlumenoccludeoccluderoccludersoccludesremodelingstentStent graftstentstechniqueTEVARtherapeuticthoracicthoracoabdominalVeithy-plugyplug
Surgical vs. Endovascular Management Of Cephalic Arch Syndrome
Surgical vs. Endovascular Management Of Cephalic Arch Syndrome
adjunctsanatomicangioplastyarchballoonballoonsbrachiocephaliccephalicdeploymentfistulasfunctionalgoregraftgraftingInterventionspatencypredictorsprimaryradiocephalicrecurrentstenosesstenosisstentStent graftstentingsuperiorsurgicaltranspositionviabahn
Technical Tips For The Management Of Cervical And Mediastinal Iatrogenic Artery Injuries: How To Avoid Disasters
Technical Tips For The Management Of Cervical And Mediastinal Iatrogenic Artery Injuries: How To Avoid Disasters
9F Sheath in Lt SCAAbbottaccessarterybrachialcarotidcatheterCordisDual Access (Rt Femora + SC sheath) ttt with suture mediated proglid over 0.035 inch wireendovascularfemoralfrenchgraftiatrogenicimaginginjuriesleftPer-Close suture mediated ProgliderangingsheathstentsubclaviantreatedvarietyvascularvenousvertebralVessel Closure Devicewire
Computational Seal Zone Mechanics Model For Predicting EVAR Failure In Neck Fixation And Seal: Value And Correlation With Real Results
Computational Seal Zone Mechanics Model For Predicting EVAR Failure In Neck Fixation And Seal: Value And Correlation With Real Results
adhesionanalysisaorticchallengingdevicedisplacementendograftevaluateevarfiniteinterfacelossmechanismspredictpreventproximalRupture AAAscansealseparationtechnologytherapeuticvectorwallzone
Intraop Completion Control Study by Duplex or Angiography is a MUST After CEA
Intraop Completion Control Study by Duplex or Angiography is a MUST After CEA
authorscarotidCASCEAclinicalcompletioncrestdatadecreasediagnosticduplexendarterectomyindicationsintraoperativemanuscriptmonitoringmultivariateneurologicpatientsrandomizedrateselectiveshuntstrokestudyunivariatevascular
A New System For Treating Prosthetic Arterial And Aortic Graft Infections
A New System For Treating Prosthetic Arterial And Aortic Graft Infections
abdominalanastomosisaneurysmbiofilmcomorbiditydebridementendovascularenterococcusexplantfasterfavorFemoro-femoral PTFE Bypass infectionfoamgraftinfectedinfectioninstillationintracavitarymalemortalitynegativeNPWTobservationalpatientpreservepressureprostheticptferadiologistremovalspecimensurgicaltherapythoracictreatmentvascularwound
Transcript

>> See companion case, another filter with a dense cap. And since we've been talking about forceps, how many of you use endobronchial forceps here? Okay.

What's the type of forceps you use? I think the most common one was made by a company called Bryant which is now Lymol Medical but there's many different colors to the handle. And also, what's been described as endoscopic forceps. Do most use rigid endobronchial forceps?

[BLANK_AUDIO] >> Some people yes and no. Anybody not using rigid wanna tell us what they're using? [BLANK_AUDIO] [INAUDIBLE] in an angled sheath because the forceps comes and it's centered. [INAUDIBLE] >> So what's the brand,

Ron? >> [INAUDIBLE] Oh [INAUDIBLE] >> So there's quite a few options on the forceps it sounds like. >> When you use forceps, typically

how many of you are using a 12 French sheath or something smaller? Anybody? What about a 16 French sheath? >> Bigger and bigger. 20, dry seal.

[UNKNOWN] 20, dry seal, anything bigger? [BLANK_AUDIO] >> I think one of the things that today I would convey probably the most important thing is that if you're gonna get into the advanced sort of adjunctive technique thing, get forceps. It has made the biggest impact on being able to retrieve stuck filters

without a doubt. There's no doubt, and it's cheap, you can buy these forceps for very little money, at least the stiff and endobronchial ones are re-sterilizable. And they have made a huge impact on the ability to get these stuck

filters out. There was an interesting abstract a few days ago from Penn where, and these were for the closed cell, what they call the closed cell filters like the Tulip and OptEase and things like that. They were taking them out with forceps and a 16 inch French sheath and not

requiring the excimer laser so and I think that would be interesting to kinda follow through. We still use the laser for some of these, but I agree I think that bigger sheaths is a good message here. I think that for these complex ones I think a 16 French sheath is a really good place to start and employing forceps and getting comfortable with them cause there's

a little bit of a learning curve with forceps. [BLANK_AUDIO]

- Thanks Dr. Weaver. Thank you Dr. Reed for the invitation, once again, to this great meeting. These are my disclosures. So, open surgical repair of descending aortic arch disease still carries some significant morbidity and mortality.

And obviously TEVAR as we have mentioned in many of the presentations has become the treatment of choice for appropriate thoracic lesions, but still has some significant limitations of seal in the aortic arch and more techniques are being developed to address that.

Right now, we also need to cover the left subclavian artery and encroach or cover the left common carotid artery for optimal seal, if that's the area that we're trying to address. So zone 2, which is the one that's,

it is most commonly used as seal for the aortic arch requires accurate device deployment to maximize the seal and really avoid ultimately, coverage of the left common carotid artery and have to address it as an emergency. Seal, in many of these cases is not maximized

due to the concern of occlusion of the left common carotid artery and many of the devices are deployed without obtaining maximum seal in that particular area. Failure of accurate deployment often leads to a type IA endoleak or inadvertent coverage

of the left common carotid artery which can become a significant problem. The most common hybrid procedures in this group of patients include the use of TEVAR, a carotid-subclavian reconstruction and left common carotid artery stenting,

which is hopefully mostly planned, but many of the times, especially when you're starting, it may be completely unplanned. The left common carotid chimney has been increasingly used to obtain a better seal

in this particular group of patients with challenging arches, but there's still significant concerns, including patients having super-vascular complications, stroke, Type A retrograde dissections and a persistent Type IA endoleak

which can be very challenging to be able to correct. There's limited data to discuss this specific topic, but some of the recent publications included a series of 11 to 13 years of treatment with a variety of chimneys.

And these publications suggest that the left common carotid chimneys are the most commonly used chimneys in the aortic arch, being used 76% to 89% of the time in these series. We can also look at these and the technical success

is very good. Mortality's very low. The stroke rate is quite variable depending on the series and chimney patency's very good. But we still have a relatively high persistent

Type IA endoleak on these procedures. So what can we do to try to improve the results that we have? And some of these techniques are clearly applicable for elective or emergency procedures. In the elective setting,

an open left carotid access and subclavian access can be obtained via a supraclavicular approach. And then a subclavian transposition or a carotid-subclavian bypass can be performed in preparation for the endovascular repair. Following that reconstruction,

retrograde access to left common carotid artery can be very helpful with a 7 French sheath and this can be used for diagnostic and therapeutic purposes at the same time. The 7 French sheath can easily accommodate most of the available covered and uncovered

balloon expandable stents if the situation arises that it's necessary. Alignment of the TEVAR is critical with maximum seal and accurate placement of the TEVAR at this location is paramount to be able to have a good result.

At that point, the left common carotid artery chimney can be deployed under control of the left common carotid artery. To avoid any embolization, the carotid can be flushed, primary repaired, and the subclavian can be addressed

if there is concern of a persistent retrograde leak with embolization with a plug or other devices. The order can be changed for the procedure to be able to be done emergently as it is in this 46 year old policeman with hypertension and a ruptured thoracic aneurism.

The patient had the left common carotid access first, the device deployed appropriately, and the carotid-subclavian bypass performed in a more elective fashion after the rupture had been addressed. So, in conclusion, carotid chimney's and TEVAR

combination is a frequently used to obtain additional seal on the aortic arch, with pretty good results. Early retrograde left common carotid access allows safe TEVAR deployment with maximum seal,

and the procedure can be safely performed with low morbidity and mortality if we select the patients appropriately. Thank you very much.

- Good morning. It's a pleasure to be here today. I'd really like to thank Dr. Veith, once again, for this opportunity. It's always an honor to be here. I have no disclosures. Heel ulceration is certainly challenging,

particularly when the patients have peripheral vascular disease. These patients suffer from significant morbidity and mortality and its real economic burden to society. The peripheral vascular disease patients

have fivefold and increased risk of ulceration, and diabetics in particular have neuropathy and microvascular disease, which sets them up as well for failure. There are many difficulties, particularly poor patient compliance

with offloading, malnutrition, and limitations of the bony coverage of that location. Here you can see the heel anatomy. The heel, in and of itself, while standing or with ambulation,

has tightly packed adipose compartments that provide shock absorption during gait initiation. There is some limitation to the blood supply since the lateral aspect of the heel is supplied by the perforating branches

of the peroneal artery, and the heel pad is supplied by the posterior tibial artery branches. The heel is intolerant of ischemia, particularly posteriorly. They lack subcutaneous tissue.

It's an end-arterial plexus, and they succumb to pressure, friction, and shear forces. Dorsal aspect of the posterior heel, you can see here, lacks abundant fat compartments. It's poorly vascularized,

and the skin is tightly bound to underlying deep fascia. When we see these patients, we need to asses whether or not the depth extends to bone. Doing the probe to bone test

using X-ray, CT, or MRI can be very helpful. If we see an abcess, it needs to be drained. Debride necrotic tissue. Use of broad spectrum antibiotics until you have an appropriate culture

and can narrow the spectrum is the way to go. Assess the degree of vascular disease with noninvasive testing, and once you know that you need to intervene, you can move forward with angiography. Revascularization is really operator dependent.

You can choose an endovascular or open route. The bottom line is the goal is inline flow to the foot. We prefer direct revascularization to the respective angiosome if possible, rather than indirect. Calcanectomy can be utilized,

and you can actually go by angiosome boundaries to determine your incisions. The surgical incision can include excision of the ulcer, a posterior or posteromedial approach, a hockey stick, or even a plantar based incision. This is an example of a posterior heel ulcer

that I recently managed with ulcer excision, flap development, partial calcanectomy, and use of bi-layered wound matrix, as well as wound VAC. After three weeks, then this patient underwent skin grafting,

and is in the route to heal. The challenge also is offloading these patients, whether you use a total contact cast or a knee roller or some other modality, even a wheelchair. A lot of times it's hard to get them to be compliant.

Optimizing nutrition is also critical, and use of adjunctive hyperbaric oxygen therapy has been shown to be effective in some cases. Bone and tendon coverage can be performed with bi-layered wound matrix. Use of other skin grafting,

bi-layered living cell therapy, or other adjuncts such as allograft amniotic membrane have been utilized and are very effective. There's some other modalities listed here that I won't go into. This is a case of an 81 year old

with osteomyelitis, peripheral vascular disease, and diabetes mellitus. You can see that the patient has multi-level occlusive disease, and the patient's toe brachial index is less than .1. Fortunately, I was able to revascularize this patient,

although an indirect revascularization route. His TBI improved to .61. He underwent a partial calcanectomy, application of a wound VAC. We applied bi-layer wound matrix, and then he had a skin graft,

and even when part of the skin graft sloughed, he underwent bi-layer living cell therapy, which helped heal this wound. He did very well. This is a 69 year old with renal failure, high risk patient, diabetes, neuropathy,

peripheral vascular disease. He was optimized medically, yet still failed to heal. He then underwent revascularization. It got infected. He required operative treatment,

partial calcanectomy, and partial closure. Over a number of months, he did finally heal. Resection of the Achilles tendon had also been required. Here you can see he's healed finally. Overall, function and mobility can be maintained,

and these patients can ambulate without much difficulty. In conclusion, managing this, ischemic ulcers are challenging. I've mentioned that there's marginal blood supply, difficulties with offloading, malnutrition, neuropathy, and arterial insufficiency.

I would advocate that partial or total calcanectomy is an option, with or without Achilles tendon resection, in the presence of osteomyelitis, and one needs to consider revascularization early on and consider a distal target, preferentially in the angiosome distribution

of the posterior tibial or peroneal vessels. Healing and walking can be maintained with resection of the Achilles tendon and partial resection of the os calcis. Thank you so much. (audience applauding)

- Mr. Chairman, ladies and gentlemen, good morning. I'd like to thank Dr. Veith for the opportunity to present at this great meeting. I have nothing to disclose. Since Dr. DeBakey published the first paper 60 years ago, the surgical importance of deep femoral artery has been well investigated and documented.

It can be used as a reliable inflow for low extremity bypass in certain circumstances. To revascularize the disease, the deep femoral artery can improve rest pain, prevent or delay the amputation, and help to heal amputation stump.

So, in this slide, the group patient that they used deep femoral artery as a inflow for infrainguinal bypass. And 10-year limb salvage was achieved in over 90% of patients. So, different techniques and configurations

of deep femoral artery angioplasty have been well described, and we've been using this in a daily basis. So, there's really not much new to discuss about this. Next couple minutes, I'd like to focus on endovascular invention 'cause I lot I think is still unclear.

Dr. Bath did a systemic review, which included 20 articles. Nearly total 900 limbs were treated with balloon angioplasty with or without the stenting. At two years, the primary patency was greater than 70%. And as you can see here, limb salvage at two years, close to, or is over 98% with very low re-intervention rate.

So, those great outcomes was based on combined common femoral and deep femoral intervention. So what about isolated deep femoral artery percutaneous intervention? Does that work or not? So, this study include 15 patient

who were high risk to have open surgery, underwent isolated percutaneous deep femoral artery intervention. As you can see, at three years, limb salvage was greater than 95%. The study also showed isolated percutaneous transluminal

angioplasty of deep femoral artery can convert ischemic rest pain to claudication. It can also help heal the stump wound to prevent hip disarticulation. Here's one of my patient. As you can see, tes-tee-lee-shun with near

or total occlusion of proximal deep femoral artery presented with extreme low-extremity rest pain. We did a balloon angioplasty. And her ABI was increased from 0.8 to 0.53, and rest pain disappeared. Another patient transferred from outside the facility

was not healing stump wound on the left side with significant disease as you can see based on the angiogram. We did a hybrid procedure including stenting of the iliac artery and the open angioplasty of common femoral artery and the profunda femoral artery.

Significantly improved the perfusion to the stump and healed wound. The indications for isolated or combined deep femoral artery revascularization. For those patient presented with disabling claudication or rest pain with a proximal

or treatable deep femoral artery stenosis greater than 50% if their SFA or femoral popliteal artery disease is unsuitable for open or endovascular treatment, they're a high risk for open surgery. And had the previous history of multiple groin exploration, groin wound complications with seroma or a fungal infection

or had a muscle flap coverage, et cetera. And that this patient should go to have intervascular intervention. Or patient had a failed femoral pop or femoral-distal bypass like this patient had, and we should treat this patient.

So in summary, open profundaplasty remains the gold standard treatment. Isolated endovascular deep femoral artery intervention is sufficient for rest pain. May not be good enough for major wound healing, but it will help heal the amputation stump

to prevent hip disarticulation. Thank you for much for your attention.

- Thank you very much and I would like to thank Dr. Veit for the kind invitation, this is really great meeting. Those are my disclosures. Percutaneous EVAR has been first reported in the late 1990's. However, for many reasons it has not been embraced

by the vascular community, despite the fact that it has been shown that the procedure can be done under local anesthesia and it decreases OR time, time to ambulation, wound complication and length of stay. There are three landmark papers which actually change this trend and make PEVAR more popular.

All of these three papers concluded that failure or observed failure of PEVAR are observed and addressed in the OR which is a key issue. And there was no late failures. Another paper which is really very prominent

is a prospective randomize study that's reported by Endologix and published in 2014. Which revealed that PEVAR closure of the arteriotomy is not inferior to open cut down. Basically, this paper also made it possible for the FDA to approve the device, the ProGlide device,

for closure of large bore arteriotomies, up to 26 in the arterial system and 29 in the venous system. We introduced percutaneous access first policy in our institution 2012. And recently we analyzed our results of 272 elective EVAR performed during the 2012 to 2016.

And we attempted PEVAR in 206 cases. And were successful in 92% of cases. But the question was what happened with the patient that failed PEVAR? And what we found that was significantly higher thrombosis, vessel thrombosis,

as well as blood loss, more than 500 cc in the failed PEVAR group. Similarly, there was longer operative time and post-operative length of stay was significantly longer. However, in this relatively small group of patients who we scheduled for cut-down due to different reasons,

we found that actually there was no difference between the PEVAR and the cut-down, failed PEVAR and cut-down in the terms of blood loss, thrombosis of the vessel, operative time and post-operative length of stay. So what are the predictors of ProGlide failure?

Small vessel calcification, particularly anterior wall calcification, prior cut-down and scarring of the groin, high femoral bifurcation and use of large bore sheaths, as well as morbid obesity. So how can we avoid failures?

I think that the key issue is access. So we recommend that all access now or we demand from our fellow that when we're going to do the operation with them, cut-down during fluoroscopy on the ultra-sound guidance, using micropuncture kits and access angiogram is actually mandatory.

But what happened when there is a lack of hemostasis once we've deployed two PEVARs? Number one, we try not to use more than three ProGlide on each side. Once the three ProGlide failed we use the angioseal. There's a new technique that we can have body wire

and deployed angioseal and still have an access. We also developed a technique that we pack the access site routinely with gelfoam and thrombin. And also we use so-called pull and clamp technique, shown here. Basically what it is, we pull the string of the ProGlide

and clamp it on the skin level. This is actually a very very very good technique. So in conclusion, PEVAR first approach strategy successful in more than 90% of cases, reduced operative time and postoperative length of stay, the failure occurred more commonly when the PEVAR

was completed outside of IFU, and there was no differences in outcome between failed PEVAR and planned femoral cut-down. Thank you.

- Good morning. I'd like to thank Dr. Veith and Symposium for my opportunity to speak. I have no disclosures. So the in Endovascular Surgery, there is decrease open surgical bypass. But, bypass is still required for many patients with PAD.

Autologous vein is preferred for increase patency lower infection rate. And, Traditional Open Vein Harvest does require lengthy incisions. In 1996 cardiac surgery reported Endoscopic Vein Harvest. So the early prospective randomized trial

in the cardiac literature, did report wound complications from Open Vein Harvest to be as high as 19-20%, and decreased down to 4% with Endoscopic Vein Harvest. Lopes et al, initially, reported increase risk of 12-18 month graft failure and increased three year mortality.

But, there were many small studies that show no effect on patency and decreased wound complications. So, in 2005, Endoscopic Vein Harvest was recommended as standard of care in cardiac surgical patients. So what about our field? The advantages of Open Vein Harvest,

we all know how to do it. There's no learning curve. It's performed under direct visualization. Side branches are ligated with suture and divided sharply. Long term patency of the bypass is established. Disadvantages of the Open Vein Harvest,

large wound or many skip wounds has an increased morbidity. PAD patients have an increased risk for wound complications compared to the cardiac patients as high as 22-44%. The poor healing can be due to ischemia, diabetes, renal failure, and other comorbid conditions.

These can include hematoma, dehiscense, infection, and increased length of stay. So the advantages of Endoscopic Vein Harvest, is that there's no long incisions, they can be performed via one or two small incisions. Limiting the size of an incision

decreases wound complications. It's the standard of care in cardiac surgery, and there's an overall lower morbidity. The disadvantages of is that there's a learning curve. Electro-cautery is used to divide the branches, you need longer vein compared to cardiac surgery.

There's concern about inferior primary patency, and there are variable wound complications reported. So recent PAD data, there, in 2014, a review of the Society of Vascular Surgery registry, of 5000 patients, showed that continuous Open Vein Harvest

was performed 49% of the time and a Endo Vein Harvest about 13% of the time. The primary patency was 70%, for Continuous versus just under 59% for Endoscopic, and that was significant. Endoscopic Vein Harvest was found to be an independent risk factor for a lower one year

primary patency, in the study. And, the length of stay due to wounds was not significantly different. So, systematic review of Endoscopic Vein Harvest data in the lower extremity bypass from '96 to 2013 did show that this technique may reduce

primary patency with no change in wound complications. Reasons for decreased primary patency, inexperienced operator, increased electrocautery injury to the vein. Increase in vein manipulation, you can't do the no touch technique,

like you could do with an Open Harvest. You need a longer conduit. So, I do believe there's a roll for this, in the vascular surgeon's armamentarium. I would recommend, how I use it in my practices is, I'm fairly inexperienced with Endoscopic Vein Harvest,

so I do work with the cardiac PA's. With increased percutaneous procedures, my practice has seen decreased Saphenous Vein Bypasses, so, I've less volume to master the technique. If the PA is not available, or the conduit is small, I recommend an Open Vein Harvest.

The PA can decrease the labor required during these cases. So, it's sometimes nice to have help with these long cases. Close surveillance follow up with Non-Invasive Arterial Imaging is mandatory every three months for the first year at least. Thank you.

- Good morning everybody. Here are my disclosures. So, upper extremity access is an important adjunct for some of the complex endovascular work that we do. It's necessary for chimney approaches, it's necessary for fenestrated at times. Intermittently for TEVAR, and for

what I like to call FEVARCh which is when you combine fenestrated repair with a chimney apporach for thoracoabdominals here in the U.S. Where we're more limited with the devices that we have available in our institutions for most of us. This shows you for a TEVAR with a patient

with an aortic occlusion through a right infracrevicular approach, we're able to place a conduit and then a 22-french dryseal sheath in order to place a TEVAR in a patient with a penetrating ulcer that had ruptured, and had an occluded aorta.

In addition, you can use this for complex techniques in the ascending aorta. Here you see a patient who had a prior heart transplant, developed a pseudoaneurysm in his suture line. We come in through a left axillary approach with our stiff wire.

We have a diagnostic catheter through the femoral. We're able to place a couple cuffs in an off-label fashion to treat this with a technically good result. For FEVARCh, as I mentioned, it's a good combination for a fenestrated repair.

Here you have a type IV thoraco fenestrated in place with a chimney in the left renal, we get additional seal zone up above the celiac this way. Here you see the vessels cannulated. And then with a nice type IV repaired in endovascular fashion, using a combination of techniques.

But the questions always arise. Which side? Which vessel? What's the stroke risk? How can we try to be as conscientious as possible to minimize those risks? Excuse me. So, anecdotally the right side has been less safe,

or concerned that it causes more troubles, but we feel like it's easier to work from the right side. Sorry. When you look at the image intensifier as it's coming in from the patient's left, we can all be together on the patient's right. We don't have to work underneath the image intensifier,

and felt like right was a better approach. So, can we minimize stroke risk for either side, but can we minimize stroke risk in general? So, what we typically do is tuck both arms, makes lateral imaging a lot easier to do rather than having an arm out.

Our anesthesiologist, although we try not to help them too much, but it actually makes it easier for them to have both arms available. When we look at which vessel is the best to use to try to do these techniques, we felt that the subclavian artery is a big challenge,

just the way it is above the clavicle, to be able to get multiple devices through there. We usually feel that the brachial artery's too small. Especially if you're going to place more than one sheath. So we like to call, at our institution, the Goldilocks phenomenon for those of you

who know that story, and the axillary artery is just right. And that's the one that we use. When we use only one or two sheaths we just do a direct puncture. Usually through a previously placed pledgeted stitch. It's a fairly easy exposure just through the pec major.

Split that muscle then divide the pec minor, and can get there relatively easily. This is what that looks like. You can see after a sheath's been removed, a pledgeted suture has been tied down and we get good hemostasis this way.

If we're going to use more than two sheaths, we prefer an axillary conduit, and here you see that approach. We use the self-sealing graft. Whenever I have more than two sheaths in, I always label the sheaths because

I can't remember what's in what vessel. So, you can see yes, I made there, I have another one labeled right renal, just so I can remember which sheath is in which vessel. We always navigate the arch first now. So we get all of our sheaths across the arch

before we selective catheterize the visceral vessels. We think this partly helps minimize that risk. Obviously, any arch manipulation is a concern, but if we can get everything done at once and then we can focus on the visceral segment. We feel like that's a better approach and seems

to be better for what we've done in our experience. So here's our results over the past five-ish years or so. Almost 400 aortic interventions total, with 72 of them requiring some sort of upper extremity access for different procedures. One for placement of zone zero device, which I showed you,

sac embolization, and two for imaging. We have these number of patients, and then all these chimney grafts that have been placed in different vessels. Here's the patients with different number of branches. Our access you can see here, with the majority

being done through right axillary approach. The technical success was high, mortality rate was reasonable in this group of patients. With the strokes being listed there. One rupture, which is treated with a covered stent. The strokes, two were ischemic,

one hemorrhagic, and one mixed. When you compare the group to our initial group, more women, longer hospital stay, more of the patients had prior aortic interventions, and the mortality rate was higher. So in conclusion, we think that

this is technically feasible to do. That right side is just as safe as left side, and that potentially the right side is better for type III arches. Thank you very much.

- Thank you so much. I have no disclosures. These guidelines were published a year ago and they are open access. You can download the PDF and you can also download the app and the app was launched two months ago

and four of the ESVS guidelines are in that app. As you see, we had three American co-authors of this document, so we have very high expertise that we managed to gather.

Now the ESVS Mesenteric Guidelines have all conditions in one document because it's not always obvious if it's acute, chronic, acute-on-chron if it's arteri

if there's an underlying aneurysm or a dissection. And we thought it a benefit for the clinician to have all in one single document. It's 51 pages, 64 recommendations, more than 300 references and we use the

ESC grading system. As you will understand, it's impossible to describe this document in four minutes but I will give you some highlights regarding one of the chapters, the Acute arterial mesenteric ischaemia chapter.

We have four recommendations on how to diagnose this condition. We found that D-dimer is highly sensitive so that a normal D-dimer value excludes the condition but it's also unfortunately unspecific. There's a common misconception that lactate is

useful in this situation. Lactate becomes elevated very late when the patient is dying. It's not a good test for diagnosing acute mesenteric ischaemia earlier. And this is a strong recommendation against that.

We also ask everyone uses the CTA angiography these days and that is of course the mainstay of diagnoses as you can see on this image. Regarding treatment, we found that in patients with acute mesenteric arterial ischaemia open or endovascular revascularisation

should preferably be done before bowel surgery. This is of course an important strategic recommendation when we work together with general surgeons. We also concluded that completion imaging is important. And this is maybe one of the reasons why endovascular repair tends to do better than

open repair in these patients. There was no other better way of judging the bowel viability than clinical judgment a no-brainer is that these patients need antibiotics and it's also a strong recommendation to do second look laparotomoy.

We found that endovascular treatment is first therapy if you suspect thrombotic occlusion. They had better survival than the open repair, where as in the embolic situation, we found no difference in outcome.

So you can do both open or endo for embolus, like in this 85 year old man from Uppsala where we did a thrombus, or the embolus aspiration. Regarding follow up, we found that it was beneficial to do imaging follow-up after stenting, and also secondary prevention is important.

So in conclusion, ladies and gentlemen, the ESVS Guidelines can be downloaded freely. There are lots of recommendations regarding diagnosis, treatment, and follow-up. And they are most useful when the diagnosis is difficult and when indication for treatment is less obvious.

Please read the other chapters, too and please come to Hamburg next year for the ESVS meeting. Thank You

- Thank you (mumbles). The purpose of deep venous valve repair is to correct the reflux. And we have different type of reflux. We know we have primary, secondary, the much more frequent and the rear valve agenesia. In primary deep venous incompetence,

valves are usually present but they are malfunctioning and the internal valvuloplasty is undoubtedly the best option. If we have a valve we can repair it and the results are undoubtedly the better of all deep vein surgery reconstruction

but when we are in the congenital absence of valve which is probably the worst situation or we are in post-thrombotic syndrome where cusps are fully destroyed, the situation is totally different. In this situation, we need alternative technique

to provide a reflux correction that may be transposition, new valve or valve transplants. The mono cuspid valve is an option between those and we can obtain it by parietal dissection. We use the fibrotic tissue determined by the

sickening of the PTS event obtaining a kind of flap that we call valve but as you can realize is absolutely something different from a native valve. The morphology may change depending on the wall feature and the wall thickness

but we have to manage the failure of the mono cuspid valve which is mainly due to the readhesion of the flap which is caused by the fact that if we have only a mono cuspid valve, we need a deeper pocket to reach the contralateral wall so bicuspid valve we have

smaller cusps in mono cuspid we have a larger one. And how can we prevent readhesion? In our first moment we can apply a technical element which is to stabilize the valve in the semi-open position in order not to have the collapse of the valve with itself and then we had decide to apply an hemodynamic element.

Whenever possible, the valve is created in front of a vein confluence. In this way we can obtain a kind of competing flow, a better washout and a more mobile flap. This is undoubtedly a situation that is not present in nature but helps in providing non-collapse

and non-thrombotic events in the cusp itself. In fact, if we look at the mathematical modeling in the flow on valve you can see how it does work in a bicuspid but when we are in a mono cuspid, you see that in the bottom of the flap

we have no flow and here there is the risk of thrombosis and here there is the risk of collapse. If we go to a competing flow pattern, the flap is washed out alternatively from one side to the other side and this suggest us the idea to go through a mono cuspid

valve which is not just opens forward during but is endovascular and in fact that's what we are working on. Undoubtedly open surgery at the present is the only available solution but we realized that obviously to have the possibility

to have an endovascular approach may be totally different. As you can understand we move out from the concept to mimic nature. We are not able to provide the same anatomy, the same structure of a valve and we have to put

in the field the possibility to have no thrombosis and much more mobile flap. This is the lesson we learn from many years of surgery. The problem is the mobile flap and the thrombosis inside the flap itself. The final result of a valve reconstruction

disregarding the type of method we apply is to obtain an anti-reflux mechanism. It is not a valve, it is just an anti-reflux mechanism but it can be a great opportunity for patient presenting a deep vein reflux that strongly affected their quality of life.

Thank you.

- Afternoon. It's a privilege to be presenting this today. I have no disclosures. If you look at this, this is a picture of the last 10 IVC filters approved by the FDA. You'll notice that they all have some mechanism of removal most commonly hooks.

You may ask yourself, why is that? And the reason for this is basically one or two studies. Basically the PREPIC study which was originally published in 1998 with two-year data, followed by a publication in Circulation with eight-year data.

Now the PREPIC itself, the study itself was the first prospective, randomized trial comparing anticoagulation to IVC filters. It was performed from 1991 to 1995 in France. 400 patients with DVT that were considered at risk for PE were enrolled.

And they were randomized at first either unfractionated versus fractionated heparins, and then IVC filter versus no IVC filter. And the filters used are demonstrated here, the Greenfield, the Cardinal, LGM, and Bird's Nest. And all patients were anticoagulated with warfarin

at the time of discharge whenever possible. Primary outcome was pulmonary embolism. The secondary outcomes were DVT, death, major filter complications, and major bleeding. And again, the data was published at two and eight years. So the two-year results, the PREPIC study,

they presented first some data on unfractionated versus fractionated heparin, but then this table. And this table shows basically that there was no difference in symptomatic PE between groups. But there was a difference in recurrent DVT

with patients having a filter in place having a higher incidence of DVT than those that did not. And the thought was that this presence of the filter increased the risk of DVT. Now the data at eight years, published in Circulation, did show a difference between symptomatic pulmonary embolism

with patients having a filter having a lower incidence of recurrent PE. However, the symptomatic DVT remained elevated in patients that had filters in place. And this was statistically significant. Of note, there was a fairly significant number of patients

that had cable thrombosis in the group that had filters that may have contributed to this number. So if you want to be critical about the study, there are a few things that are a little bit unperfect I guess you could say. It's now thought as a study of filter randomization

in patients with DVT, but it was actually also a study looking at unfractionated and low molecular weight heparins. And this lends itself to be a fairly weak study designed to make conclusions on IVC filters, the performance of IVC filters, and it's underpowered really to make a definitive conclusion.

The other problem with this study is that there's a wide variety of filters, I mean a Bird's Nest and the Greenfield, they're very different filters. And that lack of standardization I think is problematic. These filters both can have different rates

of IVC thrombosis, which can affect the data. So the statistical analysis was less than perfect. They should have corrected for multiple comparisons which they did not. And it also showed that PE can occur remotely, and if you don't have a filter in place,

it's probably not protective, obviously. So a PREPIC study was recently published, the PREPIC 2 in 2015. And this asks the question, do patients with acute PE at high risk of recurrence benefit from IVC filter in addition to anticoagulation?

So it was a multicenter trial in France. They had about 400 patients that were randomized, half into filters, half into no filters. Their risk factors are listed, and they're quite broad. And all filters were removed at three months. And they had follow up at three and six months.

And this is the data. The data at three months shows that there was no difference in recurrent PE between the patients with filters and the patient without filters. And at six months this remained the same. And there was no difference in DVT

between groups at six months. So fact or fiction? Well I think the PREPIC studies are mostly fact with maybe a little bit of fiction thrown in. The data from PREPIC suggests that patients with IVC filters have an increased risk of DVT long term,

but a decreased risk of PE long term. PREPIC 2 suggests that IVC filters may not decrease the risk of PE in high-risk patients, and did not show an association between filters and recurrent DVT at six and three months. Thank you.

- Thank you very much, chairman and ladies and gentlemen. The funding of this trial was from The Academy of Medical Sciences and The Royal College of Surgeons of England. AKI due to the influence EVAR is actually more common than we all think. This is being shown by prospective studies and registries.

Why is it important? Well, it's associated with a higher intra or inter hospital mortality, cardiovascular events and also long term cardiovascular events and longterm mortality. As even more common and complex, EVAR, and this can range from 22% up to 32%.

These are some of our cases, some of our first, including FEN astrate EVAR in 2010 Thoraco-Abdominal Branch repair 2016 and Fen astrated TEVAR 2018. These are longer procedures, usually with more contrast and direct ventilation after removing arteries.

What are the mechanisms for acute kidney injuries due to infer-renal EVAR? While this involves use of contrast, systemic inflammatory response syndrome, due to ischemic re-perfusion injury, manipulation of the thrombus, aorta and catheterizations which will ------ alpha

and also from high prophalinemia. There is no high-quality evidence for AKI prevention in EVAR. What about Sodium Bicarbonate? Well it's been well know to reduce what been used commonly to reduce CIN in high risk patients in perrifical and

corona graphy. There are two main mechanisms as to how this works. Firstly, from reducing renal tubular ischemia. Secondly, by reducing oxygen deprived free radical formation in the tubules. What is the evidence?

Well this is a met analysis, comparing Sodium Bicarbonate directly with hydration with normal saline, as shown in the orange box. There is no difference. We can look at the population ll

mostly CKD patients or diabetic patients, certainly Hartmann's patients but they are not EVAR patients. They are coronary patients or peripheral an-graphy patients. In addition, serum bicarbonate and the urine pH was not reported so we do not know how effective the Bicarbonate was in these RCT's.

The authors went on to look other outcomes including needful hemo dialysis, cardiac events, the mortality and they found no difference but they concluded the strength of this evidence was low and insufficient. A further Meta-analysis this time published in BMJ this time comes in favor of bicarbonate

but again this is comparing bicarbonate with saline no use of combination therapy. There are again no use of EVAR patients and these patients all have a low eGFR. The preserved trial, a large trial published earlier this year in the New England Journal again using various

treatments again comparing sodium bicarbonates and saline again no difference. But again this compares bicarbonate direct with saline with no combination therapies. In addition, there were no EVAR patients, and these are low eGFR patients.

The met-analysis also showed that by using bicarbonates as a bolus dose rather than a continuous infusion, which was actually the way they used bicarbonates in most of these patients might be better. And using a higher dose of bicarbonate may also be better as shown in this Japanese paper.

So we come to HYDRA trial. They're using a high dose bicarbonate in combination with hydration to protect renal function. We did a UK wide survey of anesthetists of day to day and they felt the best volume expander they would like to use was Hartmann's solution.

So we randomized patients between standard hydration with Hartmann's solution verses standard hydration Hartmann's plus high dose bicarbonate per operatively and low slow intravenous infusion bicarbonate during the surgery. Importantly, with these patients,

we kept the map within 80% of baseline, 90% of the time in contrary to all the RCT's coronary and angeo-porphyry. We're going to skip that slide. This is the inclusion criteria, any patient undergoing infra EVAR, with any renal disfunction,

the primary area you must look at is recruitment and the second area you must look at is AKI. We screened 109 patients of which, 58% were randomized and there were only 2 crossovers. There was a willingness for patients to participate and there was also a willingness for PET 4 Clinitions to

recruit as well. This is the demographics, which is typical of aortic patients they are all on by a few MRSA patients, have normal renal function. Most of the patients wear statins and anti pace agent, only 13% were diabetic.

The patients were matched in terms of hypertension and also fluid hydration pre-operatively measures of via impedance. Here are the results of the trial. The AKI instance in the standard hydration group was like 3% and 7.1% with standard hydration plus bicarbonate. And it was similar in terms of organotrophic support into

and postop and also contrast volume used. It's a safe regime with none of the patients suffering as a result of using bicarbonate. So to conclude, to answer professor Veith's question, about how was this trial different to all the other trials? Well, certainly the previous trials have compared

bicarbonate with saline, there's lack of combination studies that involve mostly coronary an peripheral procedures, not EVAR. And the the most only included patient with low eGFR. HYDRA is different, this is not a regime using high dose bolus of sodium bicarb combined with standard hydration.

It shows promise of reducing AKO. This is an EVAR specific pilot RCT. Again, Unlike previous trials using bicarbonate, 90% of the patients had normal or mild impaired renal function. And unlike previous trials, there's more aggressive management of hypertension intra and postoperatively.

Thank you for listening.

- So I'm going to be talking about allografts for peripheral graft infections. This is a femoral artery that's been replaced after a closure device infection and complication, and we've bypassed to the SFA and profunda femoris. These are my disclosures. So peripheral arterial infectious processes,

well the etiology either is primary or secondary. Primary can be from bacteremic states and seeding of ulcerated plaque or thrombus. Secondary reasons for infections can be the vast usage of percutaneous closure devices that really have flooded the market these days.

Prosthetic graft infections after either a bypass or patch in the femoral artery. So early onset infections usually are from break in sterility. Secondary infections can be from either wound breakdowns or late seeding of the prosthetic graft.

The presentation for these patients can be relatively minor such as cellulitis or draining sinus, or much more dramatic, such as sepsis or pseudoaneurysm or mycotic aneurysm. On the CT scan we can see infected mycotic aneurysm after infected closure device and bleeding complications.

The treatment is broad in range. Ligation is obviously one option, but it leads to a very high risk of major limb amputation. So ideally some form of reconstruction, either extra-anatomic through clean planes,

antibiotic graft as we heard from the previous speaker, the use of autologous replacement with deep vein, or we become big proponents of the use of cryopreserved arterial allografts for reconstruction. And much of this stems from our work from about 10 years ago, where we looked

at the use of aortic cryopreserved grafts for aortic graft infections. This was published about 10 years ago but we looked at a small series of patients with aortic infections. You can see the CT scan of an infected stent graft

and associated aneurysm. And then the intraoperative photo after we've resected the stent graft and replaced that segment of the aorta with a cryopreserved aortic segment. So using that as a springboard,

we then decided to look at the outcomes using these types of conduits, arterial conduits, for peripheral arterial reconstructions in contaminated or infected surgical fields. So retrospective review at our tertiary care center, we looked at roughly 60 patients over a 15-year period

and excluded any aortic-based reconstructions. So these are all peripheral reconstructions. Mean follow-up was 28 months. As you would expect, the distribution of treatment zones were primarily in the lower extremities, so 51 cases.

As you can see, there's a list of all the different types of cases that we treated. But then there were a few upper extremity visceral and then carotid. I've shown this slide before at this meeting in the past, with a carotid patch infection

that was treated after it had a blow-out, and it's obviously a infected aneurysm, and this was treated with resection and a cryopreserved arterial segment. Looking at our outcomes, the 30-day outcome showed a mortality rate of 9%.

The 30-day conduit-related complication rate was surprisingly low at 14%. We had four patients that had bleeding complications, four patients with recurrent infectious complications. All eight of those patients required a return back to the operating room for correction.

The late conduit-related complication rate was only 16%. As listed here, you can see there's only one case of reinfection, three cases of graft thrombosis, surprisingly only one major limb amputation, two pseudoaneurysms and one late bleeding complication.

And graphically depicted, you can see here, this area here is looking at the less than 30 days, this is primarily when the complications occur. When you get to six months, fewer complications, and then beyond six months, the primary complications that we would see are either thrombosis of the graft

or the development of late pseudoaneurysms, again relatively low. So in summary, I think peripheral arterial infectious complications can be treated with a cryopreserved arterial allografts. The advantage is it's a single stage operation,

maintains in-line flow, there's a low incidence of repeat infection. I think it's also important to mention that the majority of these patients had adjunctive muscle flap coverage to cover the large soft tissue defect

at the time of the operation. So I think that this is a valuable alternative conduit in a setting of peripheral arterial infections. Thank you.

- Thank you, Tim, and thank you, Frank, for giving me the opportunity to address this specific problem of the gutter endoleaks, which has been described up to 30% after ChEVAR and parallel grafting. But I have to say that in the most papers, not only gutter endoleaks were included,

but also new onset of type Ia endoleak. One paper coming from Stanford addressed specifically the question, how we should deal with the gutter-related type Ia endoleak, and they conclude that in the vast majority of the cases, these gutter endoleaks disappear

and the situation is benign. And based on my own experience, I can confirm this. This is one of the first cases treated with parallel grafts for symptomatic thoracoabdominal aneurysm. And I was a bit concerned as I saw this endoleak at the end of the angiography,

but the lady didn't have any pains and also no option for open or for other type of repair, so we waited. We waited and we saw that the endoleak disappeared after one month. And we saw also shrinkage of the aneurysm after one year.

So now, the next question was how to prevent this. And from the PERICLES registry, but also from the PROTAGORAS, we learned how to deal with this and how to prevent. And it's extremely important to oversize enough the aortic stent graft,

more than treating with the EVAR, normal EVAR. We should reach a sealing zone of at least 15, 20 millimeters. And we should avoid also to use more than two chimney grafts in such patients. The greater the number of the chimney used,

the higher is the risk of type Ia endoleak. And last but not least, we should use the right stent graft. And you see here the CT scan after using a flexible nitinol skeleton endograft on the left, and the gutters if you use a very stiff,

stainless steel skeleton in such situations. The last question was how to treat these patients. And based on the PERICLES, again, we should distinguish three different patterns. One is due to an excessive oversizing of the graft with infolding.

I have only one case, one professor of pathology, treated six years ago now without any endoleak due to this problem. The most are due to an undersized aortic endograft. And in the pattern C, we have an insufficient sealing zone and migration of the graft.

Now, we should consider the pattern B. And with an undersized aortic endograft and if the gutter is small, one possible solution would be to treat this patient with coiling, using coils or Onyx to occlude this gutter endoleaks,

like in this patient. And for the pattern C, if the sealing zone is insufficient, well, we should extend the sealing zone using the chimney parallel technique, as you can see in this case. So in conclusion, ladies and gentle,

gutters are usually benign and more than 95% disappeared in the follow-up. But in case of persistence, we should evaluate the CT scan exactly. And in case of oversizing and not enough oversizing and not enough length,

we should treat this patient accordingly. Thank you very much for your attention.

- Thank you very much and thank you Dr. Veith for the kind invite. Here's my disclosures, clearly relevant to this talk. So we know that after EVAR, it's around the 20% aortic complication rate after five years in treating type one and three Endoleaks prevents subsequent

secondary aortic rupture. Surveillance after EVAR is therefore mandatory. But it's possible that device-specific outcomes and surveillance protocols may improve the durability of EVAR over time. You're all familiar with this graph for 15 year results

in terms of re-intervention from the EVAR-1 trials. Whether you look at all cause and all re-interventions or life threatening re-interventions, at any time point, EVAR fares worse than open repair. But we know that the risk of re-intervention is different

in different patients. And if you combine pre-operative risk factors in terms of demographics and morphology, things are happening during the operations such as the use of adjuncts,

or having to treat intro-operative endoleak, and what happens to the aortic sac post-operatively, you can come up with a risk-prediction tool for how patients fare in the longer term. So the LEAR model was developed on the Engage Registry and validated on some post-market registries,

PAS, IDE, and the trials in France. And this gives a predictive risk model. Essentially, this combines patients into a low risk group that would have standard surveillance, and a higher risk group, that would have a surveillance plus

or enhanced surveillanced model. And you get individual patient-specific risk profiles. This is a patient with around a seven centimeter aneurysm at the time of repair that shows sac shrinkage over the first year and a half, post-operatively. And you can see that there's really a very low risk

of re-intervention out to five years. These little arrow bars up here. For a patient that has good pre-operative morphology and whose aneurysm shrinks out to a year, they're going to have a very low risk of re-intervention. This patient, conversely, had a smaller aneurysm,

but it grew from the time of the operation, and out to two and a half years, it's about a centimeter increase in the sac. And they're going to have a much higher risk of re-intervention and probably don't need the same level of surveillance as the first patient.

and probably need a much higher rate of surveillance. So not only can we have individualized predictors of risk for patients, but this is the regulatory aspect to it as well.

Multiple scenario testing can be undertaken. And these are improved not only with the pre-operative data, but as you've seen with one-year data, and this can tie in with IFU development and also for advising policy such as NICE, which you'll have heard a lot about during the conference.

So this is just one example. If you take a patient with a sixty-five millimeter aneurysm, eighteen millimeter iliac, and the suprarenal angle at sixty degrees. If you breach two or more of these factors in red, we have the pre-operative prediction.

Around 20% of cases will be in the high risk group. The high risk patients have about a 50-55% freedom from device for related problems at five years. And the low risk group, so if you don't breach those groups, 75% chance of freedom from intervention.

In the green, if you then add in a stent at one year, you can see that still around 20% of patients remain in the high risk group. But in the low risk group, you now have 85% of patients won't need a re-intervention at five years,

and less of a movement in the high risk group. So this can clearly inform IFU. And here you see the Kaplan-Meier curves, those same groups based pre-operatively, and at one year. In conclusion, LEAR can provide

a device specific estimation of EVAR outcome out to five years. It can be based on pre-operative variables alone by one year. Duplex surveillance helps predict risk. It's clearly of regulatory interest in the outcomes of EVAR.

And an E-portal is being developed for dissemination. Thank you very much.

- Thank you very much, Mr. Chairman. Thank you Frank Veith for the invitation, talking about, "SFA lesions can be treated endovascularly: "Should they be?" I do not have any potential conflict of interest for this presentation, and I would like to share with you. We have two ways: Is it technically feasible

to perform always reverse canalization by endovascular technique, and the SFA, and should we do it? And I would like to immediately conclude by it's possible for me to treat all the lesions by endovascular technique in the SFA and popliteal lesion, and for me, I think, for us it's always the first choice.

So, next: What we do to really need an SFA re-canalization and a SFA repair? To be well armed with guides and catheter to perform re-canalization, and it's necessary how to get by unusual ways:

retrograde puncture of each over. And the difficulty is to know if we perform subintimal re-canalization or not, and the success of this technique is always the reentry. So for me, I think it's very important to have a right and clear process when

you perform a re-canalization, and to treat by endovascular therapy, SFA, and popliteal lesion, and I think we can perform a first dilation with POVAR with a balloon superior of 1 mm, compared to the diameter of the SFA.

And it's very important to perform an inflation during three minutes and to follow with a slow deflation and a gentle removal. And stent to the diameter of the SFA, and maybe it's important to use, in certain cases of the DEB.

So the success keys: Is a good experience of re-canalization, a good knowledge of the devices, and a preparation of the vessel. For me, it's very important and the quality of the angiogram tube,

so I would like to share you some example. Here is the example, and a thrombosis occlusion of the whole SFA, and for me you can see on the angiogram the results and it's very important to have a disparation of the decrease of the collateral injection

on the angiogram. This is a case with a total occlusion of SFA in the stent And you can see on the angiogram thrombosis of the stent at the anterior, and I performed for this patient retrograde puncture inside the stent,

and I take the guide wire with the retrograde puncture with the snare and I treat the artery. So, to avoid an hematoma at the puncture it's necessary to inflate before the balloon inside the stent

after the re-canalization, and to remove the introducer and to let the inflation during five minutes. And so, another cases with the total occlusion of the SFA and a very good result, and a very difficult case with a lot of calcification, and it's possible to perform SFA endovascular repair with these techniques.

Okay, and a case, total occlusion SFA, popliteal artery, and the leg artery, and we perform a re-canalization and we use a third-generation stent, Supera, and to have a very good result. And in terms of results, what do the studies say? Analysis of endovascular therapy for femoropopliteal disease

with the Supera stent in Journal of Vascular Surgery shows primary patency is very good, at 90% at one year. Another study, the study with my colleagues, we've used a third-generation of stent with a very good result at 24 months. And open surgery and the estimated

five-year primary patency was 64%. Okay, and in conclusion: For me, "There is no impregna "There are only badly attacked citadels." Thank you very much for your attention.

- Thank you Mr. Chairman, good morning ladies and gentlemen. So that was a great setting of the stage for understanding that we need to prevent reinterventions of course. So we looked at the data from the DREAM trial. We're all aware that we can try

to predict secondary interventions using preoperative CT parameters of EVAR patients. This is from the EVAR one trial, from Thomas Wyss. We can look at the aortic neck, greater angulation and more calcification.

And the common iliac artery, thrombus or tortuosity, are all features that are associated with the likelihood of reinterventions. We also know that we can use postoperative CT scans to predict reinterventions. But, as a matter of fact, of course,

secondary sac growth is a reason for reintervention, so that is really too late to predict it. There are a lot of reinterventions. This is from our long term analysis from DREAM, and as you can see the freedom, survival freedom of reinterventions in the endovascular repair group

is around 62% at 12 years. So one in three patients do get confronted with some sort of reintervention. Now what can be predicted? We thought that the proximal neck reinterventions would possibly be predicted

by type 1a Endoleaks and migration and iliac thrombosis by configurational changes, stenosis and kinks. So the hypothesis was: The increase of the neck diameter predicts proximal type 1 Endoleak and migration, not farfetched.

And aneurysm shrinkage maybe predicts iliac limb occlusion. Now in the DREAM trial, we had a pretty solid follow-up and all patients had CT scans for the first 24 months, so the idea was really to use

those case record forms to try to predict the longer term reinterventions after four, five, six years. These are all the measurements that we had. For this little study, and it is preliminary analysis now,

but I will be presenting the maximal neck diameter at the proximal anastomosis. The aneurysm diameter, the sac diameter, and the length of the remaining sac after EVAR. Baseline characteristics. And these are the re-interventions.

For any indications, we had 143 secondary interventions. 99 of those were following EVAR in 54 patients. By further breaking it down, we found 18 reinterventions for proximal neck complications, and 19 reinterventions

for thrombo-occlusive limb complications. So those are the complications we are trying to predict. So when you put everything in a graph, like the graphs from the EVAR 1 trial, you get these curves,

and this is the neck diameter in patients without neck reintervention, zero, one month, six months, 12, 18, and 24 months. There's a general increase of the diameter that we know.

But notice it, there are a lot of patients that have an increase here, and never had any reintervention. We had a couple of reinterventions in the long run, and all of these spaces seem to be staying relatively stable,

so that's not helping much. This is the same information for the aortic length reinterventions. So statistical analysis of these amounts of data and longitudinal measures is not that easy. So here we are looking at

the neck diameters compared for all patients with 12 month full follow-up, 18 and 24. You see there's really nothing happening. The only thing is that we found the sac diameter after EVAR seems to be decreasing more for patients who have had reinterventions

at their iliac limbs for thrombo-occlusive disease. That is something we recognize from the literature, and especially from these stent grafts in the early 2000s. So conclusion, Mr. Chairman, ladies and gentlemen, CT changes in the first two months after EVAR

predict not a lot. Neck diameter was not predictive for neck-reinterventions. Sac diameter seems to be associated with iliac limb reinterventions, and aneurysm length was not predictive

of iliac limb reinterventions. Thank you very much.

- Thank you so much. We have no disclosures. So I think everybody would agree that the transposed basilic vein fistula is one of the most important fistulas that we currently operate with. There are many technical considerations

related to the fistula. One is whether to do one or two stage. Your local criteria may define how you do this, but, and some may do it arbitrarily. But some people would suggest that anything less than 4 mm would be a two stage,

and any one greater than 4 mm may be a one stage. The option of harvesting can be open or endovascular. The option of gaining a suitable access site can be transposition or superficialization. And the final arterial anastomosis, if you're not superficializing can either be

a new arterial anastomosis or a venovenous anastomosis. For the purposes of this talk, transposition is the dissection, transection and re tunneling of the basilic vein to the superior aspect of the arm, either as a primary or staged procedure. Superficialization is the dissection and elevation

of the basilic vein to the superior aspect of the upper arm, which may be done primarily, but most commonly is done as a staged procedure. The natural history of basilic veins with regard to nontransposed veins is very successful. And this more recent article would suggest

as you can see from the upper bands in both grafts that either transposed or non-transposed is superior to grafts in current environment. When one looks at two-stage basilic veins, they appear to be more durable and cost-effective than one-stage procedures with significantly higher

patency rates and lower rates of failure along comparable risk stratified groups from an article from the Journal of Vascular Surgery. Meta-ana, there are several meta-analysis and this one shows that between one and two stages there is really no difference in the failure and the patency rates.

The second one would suggest there is no overall difference in maturation rate, or in postoperative complication rates. With the patency rates primary assisted or secondary comparable in the majority of the papers published. And the very last one, again based on the data from the first two, also suggests there is evidence

that two stage basilic vein fistulas have higher maturation rates compared to the single stage. But I think that's probably true if one really realizes that the first stage may eliminate a lot of the poor biology that may have interfered with the one stage. But what we're really talking about is superficialization

versus transposition, which is the most favorite method. Or is there a favorite method? The early data has always suggested that transposition was superior, both in primary and in secondary patency, compared to superficialization. However, the data is contrary, as one can see,

in this paper, which showed the reverse, which is that superficialization is much superior to transposition, and in the primary patency range quite significantly. This paper reverses that theme again. So for each year that you go to the Journal of Vascular Surgery,

one gets a different data set that comes out. The final paper that was published recently at the Eastern Vascular suggested strongly that the second stage does consume more resources, when one does transposition versus superficialization. But more interestingly also found that these patients

who had the transposition had a greater high-grade re-stenosis problem at the venovenous or the veno-arterial anastomosis. Another point that they did make was that superficialization appeared to lead to faster maturation, compared to the transposition and thus they favored

superficialization over transposition. If one was to do a very rough meta-analysis and take the range of primary patencies and accumulative patencies from those papers that compare the two techniques that I've just described. Superficialization at about 12 months

for its primary patency will run about 57% range, 50-60 and transposition 53%, with a range of 49-80. So in the range of transposition area, there is a lot of people that may not be a well matched population, which may make meta-analysis in this area somewhat questionable.

But, if you get good results, you get good results. The cumulative patency, however, comes out to be closer in both groups at 78% for superficialization and 80% for transposition. So basilic vein transposition is a successful configuration. One or two stage procedures appear

to carry equally successful outcomes when appropriate selection criteria are used and the one the surgeon is most favored to use and is comfortable with. Primary patency of superficialization despite some papers, if one looks across the entire literature is equivalent to transposition.

Cumulative patency of superficialization is equivalent to transposition. And there is, appears to be no apparent difference in complications, maturation, or access duration. Thank you so much.

- Thank you, and thank you Dr. Veith for the opportunity to present. So, acute aortic syndromes are difficult to treat and a challenge for any surgeon. In regionalization of care of acute aortic syndromes is now a topic of significant conversation. The thoughts are that you can move these patients

to an appropriate hospital infrastructure with surgical expertise and a team that's familiar with treating them. Higher volumes, better outcomes. It's a proven concept in trauma care. Logistics of time, distance, transfer mortality,

and cost are issues of concern. This is a study from the Nationwide Inpatient Sample which basically demonstrates the more volume, the lower mortality for ruptured abdominal aortic aneurysms. And this is a study from Clem Darling

and his Albany Group demonstrating that with their large practice, that if they could get patients transferred to their central hospital, that they had a higher incidence of EVAR with lower mortality. Basically, transfer equaled more EVARs and a

lower mortality for ruptured abdominal aortic aneurysms. Matt Mell looked at interfacility transfer mortality in patients with ruptured abdominal aortic aneurysms to try to see if actually, transfer improved mortality. The take home message was, operative transferred patients

did do better once they reached the institution of destination, however they had a significant mortality during transfer that basically negated that benefit. And transport time, interestingly did not affect mortality. So, regional aortic management, I think,

is something that is quite valuable. As mentioned, access to specialized centers decrease overall mortality and morbidity potentially. In transfer mortality a factor, transport time does not appear to be. So, we set up a rapid transport system

at Keck Medical Center. Basically predicated on 24/7 coverage, and we would transfer any patient within two hours to our institution that called our hotline. This is the number of transfers that we've had over the past three years.

About 250 acute aortic transfers at any given... On a year, about 20 to 30 a month. This is a study that we looked at, that transport process. 183 patients, this is early on in our experience. We did have two that expired en route. There's a listing of the various

pathologies that we treated. These patients were transferred from all over Southern California, including up to Central California, and we had one patient that came from Nevada. The overall mortality is listed here. Ruptured aortic aneurysms had the highest mortality.

We had a very, very good mortality with acute aortic dissections as you can see. We did a univariate and multivariate analysis to look at factors that might have affected transfer mortality and what we found was the SVS score greater than eight

had a very, very significant impact on overall mortality for patients that were transferred. What is a society for vascular surgery comorbidity score? It's basically an equation using cardiac pulmonary renal hypertension and age. The asterisks, cardiac, renal, and age

are important as I will show subsequently. So, Ben Starnes did a very elegant study that was just reported in the Journal of Vascular Surgery where he tried to create a preoperative risk score for prediction of mortality after ruptured abdominal aortic aneurysms.

He found four factors and did an ROC curve. Basically, age greater than 76, creatinine greater than two, blood pressure less than 70, or PH less than 7.2. As you can see, as those factors accumulated there was step-wise increased mortality up to 100% with four factors.

So, rapid transport to regional aortic centers does facilitate the care of acute aortic syndromes. Transfer mortality is a factor, however. Transport mode, time, distance are not associated with mortality. Decision making to deny and accept transfer is evolving

but I think renal status, age, physiologic insult are important factors that have been identified to determine whether transfer should be performed or not. Thank you very much.

- Well, thank you Frank and Enrico for the privilege of the podium and it's the diehards here right now. (laughs) So my only disclosure, this is based on start up biotech company that we have formed and novel technology really it's just a year old

but I'm going to take you very briefly through history very quickly. Hippocrates in 420 B.C. described stroke for the first time as apoplexy, someone be struck down by violence. And if you look at the history of stroke,

and trying to advance here. Let me see if there's a keyboard. - [Woman] Wait, wait, wait, wait. - [Man] No, there's no keyboard. - [Woman] It has to be opposite you. - [Man] Left, left now.

- Yeah, thank you. Are we good? (laughs) So it's not until the 80s that really risk factors for stroke therapy were identified, particularly hypertension, blood pressure control,

and so on and so forth. And as we go, could you advance for me please? Thank you, it's not until the 90s that we know about the randomized carotid trials, and advance next slide please, really '96 the era of tPA that was

revolutionary for acute stroke therapy. In the early 2000s, stroke centers, like the one that we have in the South East Louisiana and New Orleans really help to coordinate specialists treating stroke. Next slide please.

In 2015, the very famous HERMES trial, the compilation of five trials for mechanical thrombectomy of intracranial middle and anterior cerebral described the patients that could benefit and we will go on into details, but the great benefit, the number needed to treat

was really five to get an effect. Next slide. This year, "wake up" strokes, the extension of the timeline was extended to 24 hours, increase in potentially the number of patients that could be treated with this technology.

Next please. And the question is really how can one preserve the penumbra further to treat the many many patients that are still not offered mechanical thrombectomy and even the ones that are, to get a much better outcome because not everyone

returns to a normal function. Next, so the future I think is going to be delivery of a potent neuroprotection strategy to the penumbra through the stroke to be able to preserve function and recover the penumbra from ongoing death.

Next slide. So that's really the history of stroke. Advance to the next please. Here what you can see, this is a patient of mine that came in with an acute carotid occlusion that we did an emergency carotid endarterectomy

with an neuro interventionalist after passage of aspiration catheter, you can see opening of the middle cerebral M1 and M2 branches. The difference now compared to five, eight, 10 years ago is that now we have catheters in the middle cerebral artery,

the anterior cerebral artery. After tPA and thrombectomy for the super-selective, delivery of a potent neuroprotective agent and by being able to deliver it super-selectively, bioavailability issues can be resolved, systemic side effects could be minimized.

Of course, it's important to remember that penumbra is really tissue at risk, that's progression towards infarction. And everybody is really different as to when this occurs. And it's truly all based on collaterals.

So "Time is brain" that we hear over and over again, at this meeting there were a lot of talks about "Time is brain" is really incorrect. It's really "Collaterals are brain" and the penumbra is really completely based on what God gives us when we're born, which is really

how good are the collaterals. So the question is how can the penumbra be preserved after further mechanical thrombectomy? And I think that the solution is going to be with potent neuroprotection delivery to the penumbra. These are two papers that we published in late 2017

in Nature, in science journals Scientific Reports and Science Advances by our group demonstrating a novel class of molecules that are potent neuroprotective molecules, and we will go into details, but we can discuss it if there's interest, but that's just one candidate.

Because after all, when we imaged the penumbra in acute stroke centers, again, it's all about collaterals and I'll give you an example. The top panel is a patient that comes in with a good collaterals, this is a M1 branch occlusion. In these three phases which are taken at

five second intervals, this patient is probably going to be offered therapy. The patients that come in with intermediate or poor collaterals may or may not receive therapy, or this patient may be a no-go. And you could think that if neuroprotection delivery

to the penumbra is able to be done, that these patients may be offered therapy which they currently are not. And even this patient that's offered therapy, might then leave with a moderate disability, may have a much better functional

independence upon discharge. When one queries active clinical trials, there's nothing on intra arterial delivery of a potent neuroprotection following thrombectomy. These are two trials, an IV infusion, peripheral infusion, and one on just verapamil to prevent vasospasm.

So there's a large large need for delivery of a potent neuroprotection following thrombectomy. In conclusion, we're in the door now where we can do mechanical thrombectomy for intracranial thrombus, obviously concomitant to what we do in the carotid bifurcation is rare,

but those patients do present. There's still a large number of patients that are still not actively treated, some estimate 50 to 60% with typical mechanical thrombectomy. And one can speculate how ideally delivery of a potent neuroprotection to this area could

help treat 50, 60% of patients that are being denied currently, and even those that are being treated could have a much better recovery. I'd like to thank you, Frank for the meeting, and to Jackie for the great organization.

- Good afternoon, Dr. Veith, organizer. Thank you very much for the kind invitation. I have nothing to disclose. In the United States, the most common cause of mortality after one year of age is trauma. So, thankfully the pediatric vascular trauma

is only a very small minority, and it happens in less that 1% of all the pediatric traumas. But, when it happens it contributes significantly to the mortality. In most developed countries, the iatrogenic

arterial injuries are the most common type of vascular injuries that you have in non-iatrogenic arterial injuries, however are more common in war zone area. And it's very complex injuries that these children suffer from.

In a recent study that we published using the national trauma data bank, the mortality rate was about 7.9% of the children who suffer from vascular injuries. And the most common mechanism of injury were firearm and motor vehicle accidents. In the US, the most common type of injury is the blunt type

of injury. As far as the risk factors for mortality, you can see some of them that are significantly affecting mortality, but one of them is the mechanism of injury, blunt versus penetrating and the penetrating is the risk factor for

mortality. As far as the anatomical and physiological consideration for treatment, they are very similar to adults. Their injury can cause disruption all the way to a spasm, or obstruction of the vessel and for vasiospasm and minimal disruption, conservative therapy is usually adequate.

Sometimes you can use papevrin or nitroglycerin. Of significant concern in children is traumatic AV fissure that needs to be repaired as soon as possible. For hard signs, when you diagnose these things, of course when there is a bleeding, there is no question that you need to go repair.

When there are no hard signs, especially in the blunt type of injuries, we depend both on physical exams and diagnostic tools. AVI in children is actually not very useful, so instead of that investigators are just using what is called an Injured Extremity Index, which you measure one leg

versus the other, and if there is also less than 0.88 or less than 0.90, depending on the age of the children, is considered abnormal. Pulse Oximetry, the Duplex Ultrasound, CTA are all very helpful. Angiography is actually quite risky in these children,

and should be avoided. Surgical exploration, of course, when it's needed can give very good results. As far as the management, well they are very similar to adults, in the sense that you need to expose the artery, control the bleeding, an then restore circulation to the

end organ. And some of the adjuncts that are using in adult trauma can be useful, such as use of temporary shunts, that you can use a pediatric feeding tube, heparin, if there are no contraindications, liberal use of fasciotomy and in the vascular technique that my partner, Dr. Singh will be

talking about. Perhaps the most common cause of PVI in young children in developed countries are iatrogenic injuries and most of the time they are minimal injuries. But in ECMO cannulation, 20-50% are injuries due to

ECMO have been reported in both femoral or carotid injuries. So, in the centers are they are doing it because of the concern about limb ischemia, as well as cognitive issues. They routinely repair the ECMO cannulation site.

For non-iatrogenic types, if is very common in the children that are above six years of age. Again, you follow the same principal as adult, except that these arteries are severely spastic and interposition graft must accommodate both axial and radial growths of these arteries, as well as the limb that it's been

repaired in. Primary repair sometimes requires interrupted sutures and Dr. Bismuth is going to be talking about some of that. Contralateral greater saphenous vein is a reasonable option, but this patient needs to be followed very, very closely.

The most common type of injury is upper extremity and Dr. McCurdy is going to be talking about this. Blunt arterial injury to the brachial artery is very common. It can cause ischemic contracture and sometimes amputation.

In the children that they have no pulse, is if there are signs of neurosensory deficit and extremity is cold, exploration is indicated, but if the extremity is pulseless, pink hand expectant treatment is reasonable. As far as the injuries, the most common, the deadliest injuries are related to the truncal injuries and the

mechanism severity of this injury dictates the treatment. Blunt aortic injuries are actually quite uncommon and endovascular options are limited. This is an example of one that was done by Dr Veith and you can see the arrow when the stent was placed and then moved.

So these children, the long-term results of endovascular option is unknown. So in summary, you basically follow many tenets of adult vascular trauma. Special consideration for repair has to do with the fact that you need to accommodate longitudinal

and radial growth and also endovascular options are limited. Ultimately, you need a collaborative effort of many specialists in taking care of these children. Thank you.

- Our group has looked at the outcomes of patients undergoing carotid-subclavian bypass in the setting of thoracic endovascular repair. These are my obligatory disclosures, none of which are relevant to this study. By way of introduction, coverage of the left subclavian artery origin

is required in 10-50% of patients undergoing TEVAR, to achieve an adequate proximal landing zone. The left subclavian artery may contribute to critical vascular beds in addition to the left upper extremity, including the posterior cerebral circulation,

the coronary circulation if a LIMA graft is present, and the spinal cord, via vertebral collaterals. Therefore the potential risks of inadequate left subclavian perfusion include not only arm ischemia, but also posterior circulation stroke,

spinal cord ischemia, and coronary insufficiency. Although these risks are of low frequency, the SVS as early as 2010 published guidelines advocating a policy of liberal left subclavian revascularization during TEVAR

requiring left subclavian origin coverage. Until recently, the only approved way to maintain perfusion of the left subclavian artery during TEVAR, with a zone 2 or more proximal landing zone, was a cervical bypass or transposition procedure. As thoracic side-branch devices become more available,

we thought it might be useful to review our experience with cervical bypass for comparison with these newer endovascular strategies. This study was a retrospective review of our aortic disease database, and identified 112 out of 579 TEVARs

that had undergone carotid subclavian bypass. We used the standard operative technique, through a short, supraclavicular incision, the subclavian arteries exposed by division of the anterior scalene muscle, and a short 8 millimeter PTFE graft is placed

between the common carotid and the subclavian arteries, usually contemporaneous with the TEVAR procedure. The most important finding of this review regarded phrenic nerve dysfunction. To exam this, all pre- and post-TEVAR chest x-rays were reviewed for evidence of diaphragm elevation.

The study population was typical for patients undergoing TEVAR. The most frequent indication for bypass was for spinal cord protection, and nearly 80% of cases were elective. We found that 25 % of patients had some evidence

of phrenic nerve dysfunction, though many resolved over time. Other nerve injury and vascular graft complications occurred with much less frequency. This slide illustrates the grading of diaphragm elevation into mild and severe categories,

and notes that over half of the injuries did resolve over time. Vascular complications were rare, and usually treated with a corrective endovascular procedure. Of three graft occlusions, only one required repeat bypass.

Two pseudoaneurysms were treated endovascularly. Actuarial graft, primary graft patency, was 97% after five years. In summary then, the report examines early and late outcomes for carotid subclavian bypass, in the setting of TEVAR. We found an unexpectedly high rate

of phrenic nerve dysfunction postoperatively, although over half resolved spontaneously. There was a very low incidence of vascular complications, and a high long-term patency rate. We suggest that this study may provide a benchmark for comparison

with emerging branch thoracic endovascular devices. Thank you.

- So Beyond Vascular procedures, I guess we've conquered all the vascular procedures, now we're going to conquer the world, so let me take a little bit of time to say that these are my conflicts, while doing that, I think it's important that we encourage people to access the hybrid rooms,

It's much more important that the tar-verse done in the Hybrid Room, rather than moving on to the CAT labs, so we have some idea basically of what's going on. That certainly compresses the Hybrid Room availability, but you can't argue for more resources

if the Hybrid Room is running half-empty for example, the only way you get it is by opening this up and so things like laser lead extractions or tar-verse are predominantly still done basically in our hybrid rooms, and we try to make access for them. I don't need to go through this,

you've now think that Doctor Shirttail made a convincing argument for 3D imaging and 3D acquisition. I think the fundamental next revolution in surgery, Every subspecialty is the availability of 3D imaging in the operating room.

We have lead the way in that in vascular surgery, but you think how this could revolutionize urology, general surgery, neurosurgery, and so I think it's very important that we battle for imaging control. Don't give your administration the idea that

you're going to settle for a C-arm, that's the beginning of the end if you do that, this okay to augment use C-arms to augment your practice, but if you're a finishing fellow, you make sure you go to a place that's going to give you access to full hybrid room,

otherwise, you are the subservient imagers compared to radiologists and cardiologists. We need that access to this high quality room. And the new buzzword you're going to hear about is Multi Modality Imaging Suites, this combination of imaging suites that are

being put together, top left deserves with MR, we think MR is the cardiovascular imaging modality of the future, there's a whole group at NIH working at MR Guided Interventions which we're interested in, and the bottom right is the CT-scan in a hybrid op

in a hybrid room, this is actually from MD Anderson. And I think this is actually the Trauma Room of the future, makes no sense to me to take a patient from an emergency room to a CT scanner to an and-jure suite to an operator it's the most dangerous thing we do

with a trauma patient and I think this is actually a position statement from the Trauma Society we're involved in, talk about how important it is to co-localize this imaging, and I think the trauma room of the future is going to be an and-jure suite

down with a CT scanner built into it, and you need to be flexible. Now, the Empire Strikes Back in terms of cloud-based fusion in that Siemans actually just released a portable C-arm that does cone-beam CT. C-arm's basically a rapidly improving,

and I think a lot of these things are going to be available to you at reduced cost. So let me move on and basically just show a couple of examples. What you learn are techniques, then what you do is look for applications to apply this, and so we've been doing

translumbar embolization using fusion and imaging guidance, and this is a case of one of my partners, he'd done an ascending repair, and the patient came back three weeks later and said he had sudden-onset chest pain and the CT-scan showed that there was a

sutured line dehiscence which is a little alarming. I tried to embolize that endovascular, could not get to that tiny little orifice, and so we decided to watch it, it got worse, and bigger, over the course of a week, so clearly we had to go ahead and basically and fix this,

and we opted to use this, using a new guidance system and going directly parasternal. You can do fusion of blood vessels or bones, you can do it off anything you can see on flu-roid, here we actually fused off the sternal wires and this allows you to see if there's

respiratory motion, you can measure in the workstation the depth really to the target was almost four and a half centimeters straight back from the second sternal wire and that allowed us really using this image guidance system when you set up what's called the bullseye view,

you look straight down the barrel of a needle, and then the laser turns on and the undersurface of the hybrid room shows you where to stick the needle. This is something that we'd refined from doing localization of lung nodules

and I'll show you that next. And so this is the system using the C-star, we use the breast, and the localization needle, and we can actually basically advance that straight into that cavity, and you can see once you get in it,

we confirmed it by injecting into it, you can see the pseudo-aneurism, you can see the immediate stain of hematoma and then we simply embolize that directly. This is probably safer than going endovascular because that little neck protects about

the embolization from actually taking place, and you can see what the complete snan-ja-gram actually looked like, we had a pig tail in the aura so we could co-linearly check what was going on and we used docto-gramming make sure we don't have embolization.

This patient now basically about three months follow-up and this is a nice way to completely dissolve by avoiding really doing this. Let me give you another example, this actually one came from our transplant surgeon he wanted to put in a vas,

he said this patient is really sick, so well, by definition they're usually pretty sick, they say we need to make a small incision and target this and so what we did was we scanned the vas, that's the hardware device you're looking at here. These have to be

oriented with the inlet nozzle looking directly into the orifice of the mitro wall, and so we scanned the heart with, what you see is what you get with these devices, they're not deformed, we take a cell phone and implant it in your chest,

still going to look like a cell phone. And so what we did, image fusion was then used with two completely different data sets, it mimicking the procedure, and we lined this up basically with a mitro valve, we then used that same imaging guidance system

I was showing you, made a little incision really doing onto the apex of the heart, and to the eur-aph for the return cannula, and this is basically what it looked like, and you can actually check the efficacy of this by scanning the patient post operatively

and see whether or not you executed on this basically the same way, and so this was all basically developed basing off Lung Nodule Localization Techniques with that we've kind of fairly extensively published, use with men can base one of our thoracic surgeons

so I'd encourage you to look at other opportunities by which you can help other specialties, 'cause I think this 3D imaging is going to transform what our capabilities actually are. Thank you very much indeed for your attention.

- Thank you. Historically, common femoral endarterectomy is a safe procedure. In this quick publication that we did several years ago, showed a 1.5% 30 day mortality rate. Morbidity included 6.3% superficial surgical site infection.

Other major morbidity was pretty low. High-risk patients we identified as those that were functionally dependent, dyspnea, obesity, steroid use, and diabetes. A study from Massachusetts General Hospital their experience showed 100% technical success.

Length of stay was three days. Primary patency of five years at 91% and assisted primary patency at five years 100%. Very little perioperative morbidity and mortality. As you know, open treatment has been the standard of care

over time the goal standard for a common femoral disease, traditionally it's been thought of as a no stent zone. However, there are increased interventions of the common femoral and deep femoral arteries. This is a picture that shows inflection point there.

Why people are concerned about placing stents there. Here's a picture of atherectomy. Irritational atherectomy, the common femoral artery. Here's another image example of a rotational atherectomy, of the common femoral artery.

And here's an image of a stent there, going across the stent there. This is a case I had of potential option for stenting the common femoral artery large (mumbles) of the hematoma from the cardiologist. It was easily fixed

with a 2.5 length BioBond. Which I thought would have very little deformability. (mumbles) was so short in the area there. This is another example of a complete blow out of the common femoral artery. Something that was much better

treated with a stent that I thought over here. What's the data on the stenting of the endovascular of the common femoral arteries interventions? So, there mostly small single centers. What is the retrospective view of 40 cases?

That shows a restenosis rate of 19.5% at 12 months. Revascularization 14.1 % at 12 months. Another one by Dr. Mehta shows restenosis was observed in 20% of the patients and 10% underwent open revision. A case from Dr. Calligaro using cover stents

shows very good primary patency. We sought to use Vascular Quality Initiative to look at endovascular intervention of the common femoral artery. As you can see here, we've identified a thousand patients that have common femoral interventions, with or without,

deep femoral artery interventions. Indications were mostly for claudication. Interventions include three-quarters having angioplasty, 35% having a stent, and 20% almost having atherectomy. Overall technical success was high, a 91%.

Thirty day mortality was exactly the same as in this clip data for open repair 1.6%. Complications were mostly access site hematoma with a low amount distal embolization had previously reported. Single center was up to 4%.

Overall, our freedom for patency or loss or death was 83% at one year. Predicted mostly by tissue loss and case urgency. Re-intervention free survival was 85% at one year, which does notably include stent as independent risk factor for this.

Amputation free survival was 93% at one year, which factors here, but also stent was predictive of amputation. Overall, we concluded that patency is lower than historical common femoral interventions. Mortality was pretty much exactly the same

that has been reported previously. And long term analysis is needed to access durability. There's also a study from France looking at randomizing stenting versus open repair of the common femoral artery. And who needs to get through it quickly?

More or less it showed no difference in outcomes. No different in AVIs. Higher morbidity in the open group most (mumbles) superficial surgical wound infections and (mumbles). The one thing that has hit in the text of the article

a group of mostly (mumbles) was one patient had a major amputation despite having a patent common femoral artery stent. There's no real follow up this, no details of this, I would just caution of both this and VQI paper showing increased risk amputation with stenting.

Thank you.

- Now we are delighted that there's apparently two things that we came up with years ago proved useful. This is the Near-Infrared Spectroscopy slide by Joe Bavaria from UPENN providing patient data on delayed paraplegia. That's a problem that we see in open NN (mumbles) very frequently.

How does the NIRS work? And again to this illustrative picture and now imagine the spinal cord sitting here in the spine canal and there's no more blood flow and this is the end result. When you know the oxygenation in the collateral network

and there was the problem with this technology that had been attempted 12 years back already, in Houston, I bet they put the NIRS optodes in the midline and the light cannot penetrate bone so it didn't work. But if you put it on the collateral network

and you measure the oxygen in this area, you obviously know it in the spinal canal. Dorsal view, again, so this is position of the optodes and this is oxygen content way interested in it. This is another cast just to illustrate

how these segmentals are regionally connected into the spinal canal, obviously. Experimental validation and pilot series in the next two minutes. Experimental cross clamping, this is the setup so years mentoring Laser Doppler Flow

to a real time evaluation of what you measure with your infrared setup in the animal lab and we see here, correlation is very nice between the lumbar NIRS, optodes, and the actual lumbar spinal cord oxygenation measured by Laser Doppler which is evaluated

with other techniques. Very nice to see the corelation between the two. So lumbar collateral network NIRS directly reflects spinal cord tissue oxygenation. After we have proven that step, next step was serial segmental artery occlusion.

As this is a technology that we or the strategy that we using, obviously want to know with our monitoring works for that. You see here, experimental setup basically the same. Starts with anesthesia, exposure of the segmentals. Now an open approach

and then you get 120 minutes surveillance period. You got a drop or dip in the NIRS measurements. Interestingly in the experimental setup in the recovery group, you see here that the new logical function comes back after the procedure and the NIRS comes back after the procedure.

Paraplegic group, all segmentals sacrificed NIRS, drops after the procedure in the first couple days, and the neurologic function does not recover. So experimental evidence that actually works. Nice corelation, again, so the experimental validation proves that lumbar NIRS

reflects lumbar spinal cord oxygenation and reacts to occlusion, of segmental arteries in real-time, but careful it's only regional so where ever you put your optodes, this is the area where you can monitor

your collateral network associated dip when you coil or include the segmental arteries. First clinical results published a couple years ago, I think you have all seen this video. Optodes are putting in the back of the patient, same setup for endo and open

and then we take the monitors theory and we have real-time monitoring on oversights midline here, this is (mumbles). Concept validation from 2016 with the first clinical data and now we're working on the clinical evaluation

of the use of this technology in EVAR and in clinical coil-embolization. 11 patients have been included so far for the EVAR group and you see here, it is very sensitive when you put stent in, stent deployment, but we have to still work so to speak

on the area that we have to monitor. There's a lot of work to do and probably also device modifications are necessary. MISACE, last couple words, on this you see pretty stable, NIRS all over the time course and actually this is nothing we wouldn't have expected

because the patient obviously were protected from spine cord anesthesia. So also here but sometimes we see a significant drop and this is when you should be careful and that's when you usually stop the procedure. So in conclusion, minor changes

in Collateral Network oxygenation have been seen in EVAR in this preliminary results using the nearest technology and to establish one very nice ... Nicely how clinical practice is already guided at his institution.

There's no immediate complete occlusion of covered segmental arteries and there's ongoing study in very heterogeneous patient group. There's no relevant changes with the chlorine technology so far,

but that, just to remind you, is the purpose of this technology, that we do not harm the patient during the preparation period. Thank you very much for your attention.

- It's my pleasure on behalf of the Sentury Trial investigators to present the two year data on the BTG Novate Sentry filter. These are my disclosures. Well, as we have heard this afternoon, it's no surprise to anyone the topic of IVC filter placement is controversial.

We know that IVC filters can protect patients by preventing PE. We also know that retrievable filters that are not retrieved have been reported to have, be associated with some complications. And we talked about FDA advisory,

obviously that has resulted somewhat in a decrease in filter use in this country. Obviously complication rates we've also heard about increase with implant time and include tilting, migration, fracture, perforation and embolization. And retrieval success reduces with implant time.

What's not controversial, and we have heard also about this, is the frequency of PE in this country and the expense associated with it. Obviously, survival benefits have been shown in appropriate populations, that are selected based on known indications. And existing retrieval technology, unfortunately,

as we've heard from Dr. Askandari, has not met the needs of patients when up to 40 to 50 percent are not coming back for retrieval. That was sort of the impetus behind the design of the Sentry Bioconvertible IVC Filter, which is designed to protect patients at transient risk

from PE and reduce complications of existing technologies. It employs a stable frame with filter arms held together by a bioabsorbable filament and designed to provide PE protection during a transient risk period, reduce IVC filter complications, including tilting, migration, fracture, perforation and embolization.

And this just shows an example in vitro and with a CT scan of the filter in the so-called filtering configuration. The filter then automatically bioconverts after the PE risk period is past. That's guaranteed to be in the

filtering position for at least 60 days. It bioconverts by hydrolysis of the bioabsorbable element, which allows the filter arms to retract to the IVC wall, leaving a patent lumen and reducing the risk for IVC occlusion or thrombosis later on, and obviously, the cost of IFC filter retrieval.

Here you can see filters that are in the bioconverted configuration. This just shows the deployment. It's a simple pin and pull seven French delivery system. These stable arms allow this to be placed almost always without any tilting

and is quite easy and accurate to deploy. This is in an ovine modeled pre-clinical study shows in a bioconverted configuration all of the filter elements become endothelialized and in this angioscopic view, really can't even see any of the filter elements.

This is again sort of predicated on something that I believe we're not all that familiar with and that's when the timing of PE occurs. And you can see here, from the trauma literature, orthopedic literature, other literature, on 500,000 patients and in these groups you can see

that over 90 percent of PEs take place in less than 10 days after an initial event and 99 percent of PEs within 20 days. That led the FDA to write a position decision analysis paper, which recommend filter retrieval between

29 and 54 days after implantation. So, on s, 23 sites, 63 operators. You can see this was a relatively imaging-intense protocol with 24 month CT Venogram and CT Venograms also at one month and six months.

Long term follow up, 94 percent of the eligible subjects were imaged at 24 months. You can see that 67.5 percent of the subjects had current PE and/or DVT at the time of enrollment, and 100 percent had contraindication to anticoagulation for some or all of the protection period.

In terms of the composite primary endpoint, there was a high degree of technical success, 100 percent of the patients received the device. 100 percent freedom from new symptomatic PE to 60 days. Two patients had symptomatic caval thrombosis at 8

by angiojet, one by EKOS. And there was no tilting, migration, embolization, fracture or perforation. At 12 months there were no new symptomatic PEs and there were no device related complications out to 12 months.

And at 24 months, two new symptomatic PEs, days 581 and 632,in patients with fully bioconverted filters. There were no device related out to 24 months. Both of these were adjudicated by a clinical events committee as not being device related.

And again, you can see that the bioconversion rate of 96.5 percent compares favorably to published retrieval rates, and we've talked about that. So, in conclusion, the primary endpoint at six months was met with clinical success of 97.4 percent. No new symptomatic PEs at 12 months.

2.4 new symptomatic PEs at 24 months, but no tilting, migration, perforation, fracture or embolization. And the 96.5 percent bioconversion rate compares favorably to published retrieval rates. Thanks very much.

- Thank you (mumbles) and thank you Dr. Veith for the kind invitation to participate in this amazing meeting. This is work from Hamburg mainly and we all know that TEVAR is the first endovascular treatment of choice but a third of our patients will fail to remodel and that's due to the consistent and persistent

flow in the false lumen over the re-entrance in the thoracoabdominal aorta. Therefore it makes sense to try to divide the compartments of the aorta and try to occlude flow in the false lumen and this can be tried by several means as coils, plug and glue

but also iliac occluders but they all have the disadvantage that they don't get over 24 mm which is usually not enough to occlude the false lumen. Therefore my colleague, Tilo Kolbel came up with this first idea with using

a pre-bulged stent graft at the midportion which after ballooning disrupts the dissection membrane and opposes the outer wall and therefore occludes backflow into the aneurysm sac in the thoracic segment, but the most convenient

and easy to use tool is the candy-plug which is a double tapered endograft with a midsegment that is 18 mm and once implanted in the false lumen at the level of the supraceliac aorta it occludes the backflow in the false lumen in the thoracic aorta

and we have seen very good remodeling with this approach. You see here a patient who completely regressed over three years and it also answers the question how it behaves with respect to true and false lumen. The true lumen always wins and because once

the false lumen thrombosis and the true lumen also has the arterial pressure it does prevail. These are the results from Hamburg with an experience of 33 patients and also the international experience with the CMD device that has been implanted in more than 20 cases worldwide

and we can see that the interprocedural technical success is extremely high, 100% with no irrelevant complications and also a complete false lumen that is very high, up to 95%. This is the evolvement of the candy-plug

over the years. It started as a surgeon modified graft just making a tie around one of the stents evolving to a CMD and then the last generation candy-plug II that came up 2017 and the difference, or the new aspect

of the candy-plug II is that it has a sleeve inside and therefore you can retrieve the dilator without having to put another central occluder or a plug in the central portion. Therefore when the dilator is outside of the sleeve the backflow occludes the sleeve

and you don't have to do anything else, but you have to be careful not to dislodge the whole stent graft while retrieving the dilator. This is a case of a patient with post (mumbles) dissection.

This is the technique of how we do it, access to the false lumen and deployment of the stent graft in the false lumen next to the true lumen stent graft being conscious of the fact that you don't go below the edge of the true lumen endograft

to avoid (mumbles) and the final angiography showing no backflow in the aneurysm. This is how we measure and it's quite simple. You just need about a centimeter in the supraceliac aorta where it's not massively dilated and then you just do an over-sizing

in the false lumen according to the Croissant technique as Ste-phan He-lo-sa has described by 10 to 30% and what is very important is that in these cases you don't burn any bridges. You can still have a good treatment

of the thoracic component and come back and do the fenestrated branch repair for the thoracoabdominal aorta if you have to. Thank you very much for your attention. (applause)

- So I'd like to thank Dr. Ascher, Dr. Sidawy, Dr. Veith, and the organizers for allowing us to present some data. We have no disclosures. The cephalic arch is defined as two centimeters from the confluence of the cephalic vein to either the auxiliary/subclavian vein. Stenosis in this area occurs about 39%

in brachiocephalic fistulas and about 2% in radiocephalic fistulas. Several pre-existing diseases can lead to the stenosis. High flows have been documented to lead to the stenosis. Acute angles. And also there is a valve within the area.

They're generally short, focal in nature, and they're associated with a high rate of thrombosis after intervention. They have been associated with turbulent flow. Associated with pre-existing thickening.

If you do anatomic analysis, about 20% of all the cephalic veins will have that. This tight anatomical angle linked to the muscle that surrounds it associated with this one particular peculiar valve, about three millimeters from the confluence.

And it's interesting, it's common in non-diabetics. Predictors if you are looking for it, other than ultrasound which may not find it, is calcium-phosphate product, platelet count that's high, and access flow.

If one looks at interventions that have commonly been reported, one will find that both angioplasty and stenting of this area has a relatively low primary patency with no really discrimination between using just the balloon or stent.

The cumulative patency is higher, but really again, deployment of an angioplasty balloon or deployment of a stent makes really no significant difference. This has been associated with residual stenosis

greater than 30% as one reason it fails, and also the presence of diabetes. And so there is this sort of conundrum where it's present in more non-diabetics, but yet diabetics have more of a problem. This has led to people looking to other alternatives,

including stent grafts. And in this particular paper, they did not look at primary stent grafting for a cephalic arch stenosis, but mainly treating the recurrent stenosis. And you can see clearly that the top line in the graph,

the stent graft has a superior outcome. And this is from their paper, showing as all good paper figures should show, a perfect outcome for the intervention. Another paper looked at a randomized trial in this area and also found that stent grafts,

at least in the short period of time, just given the numbers at risk in this study, which was out after months, also had a significant change in the patency. And in their own words, they changed their practice and now stent graft

rather than use either angioplasty or bare-metal stents. I will tell you that cutting balloons have been used. And I will tell you that drug-eluting balloons have been used. The data is too small and inconclusive to make a difference. We chose a different view.

We asked a simple question. Whether or not these stenoses could be best treated with angioplasty, bare-metal stenting, or two other adjuncts that are certainly related, which is either a transposition or a bypass.

And what we found is that the surgical results definitely give greater long-term patency and greater functional results. And you can see that whether you choose either a transposition or a bypass, you will get superior primary results.

And you will also get superior secondary results. And this is gladly also associated with less recurrent interventions in the ongoing period. So in conclusion, cephalic arch remains a significant cause of brachiocephalic AV malfunction.

Angioplasty, across the literature, has poor outcomes. Stent grafting offers the best outcomes rather than bare-metal stenting. We have insufficient data with other modalities, drug-eluting stents, drug-eluting balloons,

cutting balloons. In the correct patient, surgical options will offer superior long-term results and functional results. And thus, in the good, well-selected patient, surgical interventions should be considered

earlier in this treatment rather than moving ahead with angioplasty stent and then stent graft. Thank you so much.

- These are my disclosures. So central venous access is frequently employed throughout the world for a variety of purposes. These catheters range anywhere between seven and 11 French sheaths. And it's recognized, even in the best case scenario, that there are iatrogenic arterial injuries

that can occur, ranging between three to 5%. And even a smaller proportion of patients will present after complications from access with either a pseudoaneurysm, fistula formation, dissection, or distal embolization. In thinking about these, as you see these as consultations

on your service, our thoughts are to think about it in four primary things. Number one is the anatomic location, and I think imaging is very helpful. This is a vas cath in the carotid artery. The second is th

how long the device has been dwelling in the carotid or the subclavian circulation. Assessment for thrombus around the catheter, and then obviously the size of the hole and the size of the catheter.

Several years ago we undertook a retrospective review and looked at this, and we looked at all carotid, subclavian, and innominate iatrogenic injuries, and we excluded all the injuries that were treated, that were manifest early and treated with just manual compression.

It's a small cohort of patients, we had 12 cases. Eight were treated with a variety of endovascular techniques and four were treated with open surgery. So, to illustrate our approach, I thought what I would do is just show you four cases on how we treated some of these types of problems.

The first one is a 75 year-old gentleman who's three days status post a coronary bypass graft with a LIMA graft to his LAD. He had a cordis catheter in his chest on the left side, which was discovered to be in the left subclavian artery as opposed to the vein.

So this nine French sheath, this is the imaging showing where the entry site is, just underneath the clavicle. You can see the vertebral and the IMA are both patent. And this is an angiogram from a catheter with which was placed in the femoral artery at the time that we were going to take care of this

with a four French catheter. For this case, we had duel access, so we had access from the groin with a sheath and a wire in place in case we needed to treat this from below. Then from above, we rewired the cordis catheter,

placed a suture-mediated closure device, sutured it down, left the wire in place, and shot this angiogram, which you can see very clearly has now taken care of the bleeding site. There's some pinching here after the wire was removed,

this abated without any difficulty. Second case is a 26 year-old woman with a diagnosis of vascular EDS. She presented to the operating room for a small bowel obstruction. Anesthesia has tried to attempt to put a central venous

catheter access in there. There unfortunately was an injury to the right subclavian vein. After she recovered from her operation, on cross sectional imaging you can see that she has this large pseudoaneurysm

coming from the subclavian artery on this axial cut and also on the sagittal view. Because she's a vascular EDS patient, we did this open brachial approach. We placed a stent graft across the area of injury to exclude the aneurism.

And you can see that there's still some filling in this region here. And it appeared to be coming from the internal mammary artery. We gave her a few days, it still was patent. Cross-sectional imaging confirmed this,

and so this was eventually treated with thoracoscopic clipping and resolved flow into the aneurism. The next case is a little bit more complicated. This is an 80 year-old woman with polycythemia vera who had a plasmapheresis catheter,

nine French sheath placed on the left subclavian artery which was diagnosed five days post procedure when she presented with a posterior circulation stroke. As you can see on the imaging, her vertebral's open, her mammary's open, she has this catheter in the significant clot

in this region. To manage this, again, we did duel access. So right femoral approach, left brachial approach. We placed the filter element in the vertebral artery. Balloon occlusion of the subclavian, and then a stent graft coverage of the area

and took the plasmapheresis catheter out and then suction embolectomy. And then the last case is a 47 year-old woman who had an attempted right subclavian vein access and it was known that she had a pulsatile mass in the supraclavicular fossa.

Was noted to have a 3cm subclavian artery pseudoaneurysm. Very broad base, short neck, and we elected to treat this with open surgical technique. So I think as you see these consults, the things to factor in to your management decision are: number one, the location.

Number two, the complication of whether it's thrombus, pseudoaneurysm, or fistula. It's very important to identify whether there is pericatheter thrombus. There's a variety of techniques available for treatment, ranging from manual compression,

endovascular techniques, and open repair. I think the primary point here is the prevention with ultrasound guidance is very important when placing these catheters. Thank you. (clapping)

- Great, thank you Tim and Dan, and thank you Dr. Veith, this is the first time actually we're presenting this. This is work that's been done between my fellow who's really the sophisticated one with this with his PhD, Luka Pocivavsek. Here's my disclosures, Luka doesn't have any.

Really three goals in mind when we looked at this methodology to try to assess the value and efficacy of long-term durability of necks. To identify patients that are high risk for device failure, potentially type one endoleak, device migration, failure of our proximal seal zone.

This is an example that this patient will come up through this entire presentation but someone that I treated with a rupture. Initially successful result, then developed a dilation of the neck and then needed an additional procedure

to treat a type one endoleak. Second goal is maybe to look at appropriate device selection and sizing so we can prevent these complications from happening. So as an example, I'll show you this case, which for many of us is challenging

to select the right size proximal aortic endograft. You have a reverse taper of this neck, the cone, trying to figure out whether a 36 device is best because of the 32 diameter, but you're 23 proximally and maybe this technology will be able to help us identify which devices

will do better in certain anatomy. And finally evaluate the mechanisms of the interface, the adhesion that we see between the device and aortic wall for the current technology and potentially evaluate new device development. So what is this?

What we did is extrapolate from what was known from finite element analysis and this patient, as I mentioned earlier, presented with a rupture. We were able to look at her pre-rupture CT scan and with our technique predict the area of rupture

which is what we saw on CT scan and you can see this high-stress area. So we were able to define the aortic wall that was in the danger zone for rupture, and then took that analysis and started to extrapolate that understanding to looking

at the interface between the device and the aortic neck. So what we see here is post-implant with slightly challenging anatomy. A short neck, a little bit of angulation, and with Luka's expertise, we were able to really start doing

what we call this cohesive zone method and look at doing a really statistical analysis of what happens with the device and I'll show you that a little bit more. So when you look at this equation, it tells you what is the available literature

that we know for device displacement looking at the displacement of the interface of the graft to the aortic wall, and then the contact zone. And we can alter that in the computer model to change the Newton force that exists

and get a lower adhesion and then a stricter tight adhesion between the device and the wall and see the impact that has. So this is just showing you from the CT scan looking at the vector of stress and strain that we're able to look at in this model.

And then specifically what we see when there's separation of the device and the wall, there's areas that are higher strain and stress and you can see the vector differences here versus this area where there's a stiff contact and we're able to create,

it's much less and the risk of separation of device and wall is much lower. So we're able to take certain understandings and look at different geometries, change our pressurization, have the boundary conditions appropriate

and then start to really look at the zone mechanics. So what this looks like is you have two different adhesion models here. One is with weak adhesions of the device to the wall and one is where we can specifically create stronger adhesion and how this would be done down the road

would be potentially something that you could look at with device design, development, and with the weak adhesion you can see how the device basically falls out of the this challenging anatomy and with strong adhesion it does a little bit better.

There is some migration but not to the same extent. So what we're trying to predict is who has loss of seal and can we prevent this? And one of the mechanisms that we've started to look at is whether or not when you add endoanchor technology to the proximal seal zone to prevent that migration

if we can prevent this loss of seal. This is way too complicated but you get it, this is what we're looking at computationally, and this is what we see clinically. This patient who a year and a half later, develops a type one endoleak,

it's systolic pressures that are elevated, it's more extreme, and we think that there's some loss of seal that happens just when patients' pressure goes up too high. So in conclusion, we think that this is a nice extrapolation

of what we know from finite element analysis. Can be applicable to not just understanding if we've successfully treated patients but to potentially even size appropriately and evaluate new devices. Thank you.

- So again, I'd like to thank Dr. Veith for the opportunity to participate in this interesting debate. So, I have been tasked with the position Intra-operative Completion Study is not mandatory, and in fact I will show you why a selective approach will actually provide better results for our patients. These are my disclosures related to ongoing

clinical research and clinical trials. So again, Professor Eckstein and his colleagues should be very significantly commended for getting the entire German vascular surgery community to look at their data in a very rigorous fashion. However, both he and his co-authors will acknowledge

within the manuscript that there are significant problems with this database. A very large number of 142,000 elective carotid endarterectomy procedures with very ballotable stroke and death rates of 1.4 and 2.5%. However, a typical criticism from outside the

vascular surgery community, these are all self-reported. These are not 30 day outcomes, they're actually in-hospital outcomes. And while in Germany that still may be four days, it's not the 30 days that we see. I'll show you a little bit later on within the Crest data.

And interestingly, within their own manuscript only 50% of the patients actually had neurologic assessment both pre- and post-procedural. So, how can we make a relevant decision in terms of thinking about how we're going to treat these patients if we only have neuro data on half of them.

Lets for the moment assume we can call out those patients. How does this relate to clinical practice? Well the authors also admit that this is an observational study, and that even though there is some association, there clearly is no causal relationship

as my previous debater just admitted. And in fact, they argue that this is perhaps the best method to look at generating hypotheses for future randomized trials, much like Dr. Aborama has done with the use of carotid endarterectomy with patching. So, let's look a little bit more about the data

and see how relevant it is to your current practice. So in the Germany registry, a quarter of the patients are treated under local anesthetic. 40% have no type of neurologic monitoring, and over 40% are performed with aversion endarterectomy. Very, very different than the practice that we see

in our institution, and in the New England region. And I would argue that there's a lot of concern in terms of what the indications are for monitoring, what the indications are for shunt use. Again, that's 43%. But there's absolutely no data in this registry about

indications for shunting, when it was used, or when patients were re-explored and what they found at the time. And a little bit concerning is in 17% of the patients, there was no anti-platelet agent used in patients undergoing carotid endarterectomy.

And, I would argue that that number is just a little bit high. How about when we go to the univariate analysis? Once again, we see that there's a benefit of 0.4% decrease in stroke and death for a local anesthetic, although we are well aware that there are numerous other

perspectives that have looked at this and not shown that same relationship. Again, there's a benefit for aversion endarterectomy, but I would argue at least in the New England region and perhaps in the United States except for select centers, aversion endarterectomy is used the minority of the time

and that in fact is an indication in my mind to have a lower threshold for either angiogram or completion duplex. Most concerning, there was 0.3% difference in the stroke and death rate with the lack of an intraoperative completion study, but there was no data about indications, findings,

whether that resulted in an intervention, or what the result of that intervention was. And initially in the univariate analysis, neuro-psyche, physiologic monitoring was protective, but later on in the multivariate, it was not. Here is that same multivariate analysis that shows again

that in fact shunting and neuro-physiologic monitoring are increased risk factors for stroke. Certainly there's going to be some bias. My concern is I'm not convinced the authors are able to call out the co founding variables, even in their multivariate regression analysis.

And in fact, in their concluding paragraphs they state there's no information supplied on whether intraoperative completion studies caused an operative revision or not, and no information about cause of death. In fact, they don't even have information about

intraoperative heparin or protamine application. So I would argue I'd be very skeptical about making my final decisions based on this. Thinking about the technical aspects of angiography, there's no doubt that this is very helpful at times, but think about the details of where do you put the needle.

What type of imaging? Is it a C-arm, is it a flat plate? Who interprets it, and what are your thresholds for intervention? So, it certainly may be harmful, may be unnecessary, and may even give you false positives.

Similarly with Completion Duplex studies, there certainly is a false positive rate and then there's risk for re-clamping. I reached out to my friend and colleague Braglol to see if there was any data from Crest that would help us, and unfortunately other than the fact that stroke happens

up to 30 days after our initial endarterectomy, there was no data supporting that. So, perhaps the best study that we have is our current practice in New England where we had 6,000 patients, a third of whom received completion studies. We broke this down into rare, selective, and routine

duplex or angio studies. And in fact, in the selective group we had a very low rate of re-exploration versus the other group, and a much lower incidence of overall stroke and death. In fact, the only benefit that was statistically significant was a decrease one year rate of re-stenosis.

So in conclusion, I would argue that this is probably unnecessary, and in fact maybe harmful. Meticulous technique, intra-procedural monitoring with selective shunt use, and continuous wave doppler use may, in fact, be the way to go. But this does give us an opportunity for prospective,

randomized trial as part of another study to look for completion study indications. Thank you very much.

- Dear Chairman, Ladies and Gentlemen, Thank you Doctor Veith. It's a privilege to be here. So, the story is going to be about Negative Pressure Wound Non-Excisional Treatment from Prosthetic Graft Infection, and to show you that the good results are durable. Nothing to disclose.

Case demonstration: sixty-two year old male with fem-fem crossover PTFE bypass graft, Key infection in the right groin. What we did: open the groin to make the debridement and we see the silergy treat, because the graft is infected with the microbiology specimen

and when identified, the Enterococcus faecalis, Staphylococcus epidermidis. We assess the anastomosis in the graft was good so we decided to put foam, black foam for irrigation, for local installation of antiseptics. This our intention-to treat protocol

at the University hospital, Zurich. Multi-staged Negative Pressure for the Wound Therapy, that's meets vascular graft infection, when we open the wound and we assess the graft, and the vessel anastomosis, if they are at risk or not. If they are not at risk, then we preserve the graft.

If they are at risk and the parts there at risk, we remove these parts and make a local reconstruction. And this is known as Szilagyi and Samson classification, are mainly validated from the peripheral surgery. And it is implemented in 2016 guidelines of American Heart Association.

But what about intracavitary abdominal and thoracic infection? Then other case, sixty-one year old male with intracavitary abdominal infection after EVAR, as you can see, the enhancement behind the aortic wall. What we are doing in that situation,

We're going directly to the procedure that's just making some punctures, CT guided. When we get the specimen microbiological, then start with treatment according to the microbiology findings, and then we downgrade the infection.

You can see the more air in the aneurism, but less infection periaortic, then we schedule the procedure, opening the aneurysm sac, making the complete removal of the thrombus, removing of the infected part of the aneurysm, as Doctor Maelyna said, we try to preserve the graft.

That exactly what we are doing with the white foam and then putting the black foam making the Biofilm breakdown with local installation of antiseptics. In some of these cases we hope it is going to work, and, as you see, after one month

we did not have a good response. The tissue was uneager, so we decided to make the removal of the graft, but, of course, after downgrading of this infection. So, we looked at our data, because from 2012 all the patients with

Prostetic Graft infection we include in the prospective observational cohort, known VASGRA, when we are working into disciplinary with infectious disease specialist, microbiologists, radiologist and surgical pathologist. The study included two group of patients,

One, retrospective, 93 patient from 1999 to 2012, when we started the VASGRA study. And 88 patient from April 2012 to Seventeen within this register. Definitions. Baseline, end of the surgical treatment and outcome end,

the end of microbiological therapy. In total, 181 patient extracavitary, 35, most of them in the groin. Intracavitary abdominal, 102. Intracavitary thoracic, 44. If we are looking in these two groups,

straight with Negative Pressure Wound Therapy and, no, without Negative Pressure Wound Therapy, there is no difference between the groups in the male gender, obesity, comorbidity index, use of endovascular graft in the type Samson classification,

according to classification. The only difference was the ratio of hospitalization. And the most important slide, when we show that we have the trend to faster cure with vascular graft infection in patients with Negative Pressure Wound Therapy

If we want to see exactly in the data we make uni variant, multi variant analysis, as in the initial was the intracavitary abdominal. Initial baseline. We compared all these to these data. Intracavitary abdominal with no Pressure Wound Therapy

and total graft excision. And what we found, that Endovascular indexoperation is not in favor for faster time of cure, but extracavitary Negative Pressure Wound Therapy shows excellent results in sense of preserving and not treating the graft infection.

Having these results faster to cure, we looked for the all cause mortality and the vascular graft infection mortality up to two years, and we did not have found any difference. What is the strength of this study, in total we have two years follow of 87 patients.

So, to conclude, dear Chairman, Ladies and Gentlemen, Explant after downgrading giving better results. Instillation for biofilm breakdown, low mortality, good quality of life and, of course, Endovascular vascular graft infection lower time to heal. Thank you very much for your attention.

(applause)

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