- Thank you, good morning everybody. Thank you for the kind invitation, Professor Veith, it's an honor for me to be here again this year in New York. I will concentrate my talk about the technical issues and the experience in the data we have already published about the MISACE in more than 50 patients.
So I have no disclosure regarded to this topic. As you already heard, the MISACE means the occlusion of the main stem of several segmental arteries to preserve the capability of the collateral network to build new arteries. And as a result, we developed
the ischemic preconditioning of the spinal cord. Why is this so useful? Because it's an entirely endovascular first stage of a staged approach to treat thoracoabdominal aortic aneurysm in order to reduce the ischemic spinal cord injury.
How do you perform the MISACE? Basically, we perform the procedure in local anesthesia, through a percutaneous trans-femoral access using a small-bore sheath. The patient is awake, that means has no cerebrospinal fluid damage
so we can monitor the patient's neurological for at least 48 hours after the procedure. So, after the puncture of the common femoral artery, using a technique of "tower of power" in order to cannulate the segmental arteries. As you can see here, we started with a guiding catheter,
then we place a diagnosis catheter and inside, a microcatheter that is placed inside the segmental artery. Then we started occlusion of the ostial segment of the segmental artery. We use coils or vascular plugs.
We don't recommend the use of fluids due to the possible distal embolization and the consequences. Since we have started this procedure, we have gained a lot of experience and we have started to ask,
what is a sufficient coilembolization? As you can see here, this artery, we can see densely packed coils inside, but you can see still blood flowing after the coil. So, was it always occluding, or is it spontaneous revascularization?
That, we do not know yet. The question, is it flow reduction enough to have a ischemic precondition of the spinal cord? Another example here, you can see a densely packed coil in the segmental artery at the thoracic level. There are some other published data
with some coils in the segm the question is, which technique should we use, the first one, the second one? Another question, is which kind of coil to use? For the moment, we can only use the standard coils
in our center, but I think if we have 3-D or volume coils or if you have microvascular plugs that are very compatible with the microcatheter, we have a superior packing density, we can achieve a better occlusion of the segmental artery, and we have less procedure time and radiation time,
but we have to think of the cost. We recommend to start embolization of the segmental artery, of course, at the origin of it, and not too far inside. Here, you can see a patient where we have coiled a segmental artery very shortly after the ostium,
but you can see here also the development of the collaterals just shortly before the coils, leading to the perfusion of segmental artery that was above it. As you can see, we still have a lot of open question. Is it every patent segmental artery
a necessary to coil? Should we coil only the large ones? I show you an example here, you can see this segmental artery with a high-grade stenotic twisted ostium due to aortic enlargement.
I can show you this segmental artery, six weeks after coiling of a segmental artery lower, and you can see that the ostium, it's no more stenotic and you can see also the connection between the segmental artery below to the initial segmental artery.
Another question that we have, at which level should we start the MISACE? Here, can see a patient with a post-dissection aneurysm after pedicle technique, so these are all uncovered dissection stent, and you can see very nicely the anterior spinal artery
feeded by the anterior radiculomedullary artery from the segmental artery. So, in this patient, in fact, we start the coiling exactly at the seat of this level, we start to coil the segmental artery that feeds the anterior spinal artery.
So, normally we find this artery of the Th 9 L1, and you can see here we go upwards and downwards. We have some challenges with aneurysm sac enlargement, in this case, we use this technique to open the angle of the catheter, we can use also deflectable steerable sheath
in order to reach the segmental artery. And you can see here our results, again, I just will go fast through those, we have treated 57 patients, most of them were Type II, Type III aortic aneurysms. We have found in median nine patent segmental artery
at the level of the aorta to be treated, between 2 and 26, and we have coiled in multiple sessions with a mean interval of 60 days between the sessions. No sooner than seven days we perform the complete exclusion of the aneurysm
in order to let the collateral to develop, and you can see our result: at 30 days we had no spinal cord ischemia. So I can conclude that our first experience suggest that MISACE is feasible, safe, and effective, but segmental artery coiling in thoracoabdominal aneurysm
can be challenging, it's a new field with many open questions, and I looking forward for the results with PAPA_ARTiS study. Thank you a lot.
- Thank you very much, Frank, ladies and gentlemen. Thank you, Mr. Chairman. I have no disclosure. Standard carotid endarterectomy patch-plasty and eversion remain the gold standard of treatment of symptomatic and asymptomatic patient with significant stenosis. One important lesson we learn in the last 50 years
of trial and tribulation is the majority of perioperative and post-perioperative stroke are related to technical imperfection rather than clamping ischemia. And so the importance of the technical accuracy of doing the endarterectomy. In ideal world the endarterectomy shouldn't be (mumbling).
It should contain embolic material. Shouldn't be too thin. While this is feasible in the majority of the patient, we know that when in clinical practice some patient with long plaque or transmural lesion, or when we're operating a lesion post-radiation,
it could be very challenging. Carotid bypass, very popular in the '80s, has been advocated as an alternative of carotid endarterectomy, and it doesn't matter if you use a vein or a PTFE graft. The result are quite durable. (mumbling) showing this in 198 consecutive cases
that the patency, primary patency rate was 97.9% in 10 years, so is quite a durable procedure. Nowadays we are treating carotid lesion with stinting, and the stinting has been also advocated as a complementary treatment, but not for a bail out, but immediately after a completion study where it
was unsatisfactory. Gore hybrid graft has been introduced in the market five years ago, and it was the natural evolution of the vortec technique that (mumbling) published a few years before, and it's a technique of a non-suture anastomosis.
And this basically a heparin-bounded bypass with the Nitinol section then expand. At King's we are very busy at the center, but we did 40 bypass for bail out procedure. The technique with the Gore hybrid graft is quite stressful where the constrained natural stint is inserted
inside internal carotid artery. It's got the same size of a (mumbling) shunt, and then the plumbing line is pulled, and than anastomosis is done. The proximal anastomosis is performed in the usual fashion with six (mumbling), and the (mumbling) was reimplanted
selectively. This one is what look like in the real life the patient with the personal degradation, the carotid hybrid bypass inserted and the external carotid artery were implanted. Initially we very, very enthusiastic, so we did the first cases with excellent result.
In total since November 19, 2014 we perform 19 procedure. All the patient would follow up with duplex scan and the CT angiogram post operation. During the follow up four cases block. The last two were really the two very high degree stenosis. And the common denominator was that all the patients
stop one of the dual anti-platelet treatment. They were stenosis wise around 40%, but only 13% the significant one. This one is one of the patient that developed significant stenosis after two years, and you can see in the typical position at the end of the stint.
This one is another patient who develop a quite high stenosis at proximal end. Our patency rate is much lower than the one report by Rico. So in conclusion, ladies and gentlemen, the carotid endarterectomy remain still the gold standard,
and (mumbling) carotid is usually an afterthought. Carotid bypass is a durable procedure. It should be in the repertoire of every vascular surgeon undertaking carotid endarterectomy. Gore hybrid was a promising technology because unfortunate it's been just not produced by Gore anymore,
and unfortunately it carried quite high rate of restenosis that probably we should start to treat it in the future. Thank you very much for your attention.
- Thank you, Dr. Ascher. Great to be part of this session this morning. These are my disclosures. The risk factors for chronic ischemia of the hand are similar to those for chronic ischemia of the lower extremity with the added risk factors of vasculitides, scleroderma,
other connective tissue disorders, Buerger's disease, and prior trauma. Also, hemodialysis access accounts for a exacerbating factor in approximately 80% of patients that we treat in our center with chronic hand ischemia. On the right is a algorithm from a recent meta-analysis
from the plastic surgery literature, and what's interesting to note is that, although sympathectomy, open surgical bypass, and venous arterialization were all recommended for patients who were refractory to best medical therapy, endovascular therapy is conspicuously absent
from this algorithm, so I just want to take you through this morning and submit that endovascular therapy does have a role in these patients with digit loss, intractable pain or delayed healing after digit resection. Physical examination is similar to that of lower extremity, with the added brachial finger pressures,
and then of course MRA and CTA can be particularly helpful. The goal of endovascular therapy is similar with the angiosome concept to establish in-line flow to the superficial and deep palmar arches. You can use an existing hemodialysis access to gain access transvenously to get into the artery for therapy,
or an antegrade brachial, distal brachial puncture, enabling you treat all three vessels. Additionally, you can use a retrograde radial approach, which allows you to treat both the radial artery, which is typically the main player in these patients, or go up the radial and then back over
and down the ulnar artery. These patients have to be very well heparinized. You're also giving antispasmodic agents with calcium channel blockers and nitroglycerin. A four French sheath is preferable. You're using typically 014, occasionally 018 wires
with balloon diameters 2.3 to three millimeters most common and long balloon lengths as these patients harbor long and tandem stenoses. Here's an example of a patient with intractable hand pain. Initial angiogram both radial and ulnar artery occlusions. We've gone down and wired the radial artery,
performed a long segment angioplasty, done the same to the ulnar artery, and then in doing so reestablished in-line flow with relief of this patient's hand pain. Here's a patient with a non-healing index finger ulcer that's already had
the distal phalanx resected and is going to lose the rest of the finger, so we've gone in via a brachial approach here and with long segment angioplasty to the radial ulnar arteries, we've obtained this flow to the hand
and preserved the digit. Another patient, a diabetic, middle finger ulcer. I think you're getting the theme here. Wiring the vessels distally, long segment radial and ulnar artery angioplasty, and reestablishing an in-line flow to the hand.
Just by way of an extreme example, here's a patient with a vascular malformation with a chronically occluded radial artery at its origin, but a distal, just proximal to the palmar arch distal radial artery reconstitution, so that served as a target for us to come in
as we could not engage the proximal radial artery, so in this patient we're able to come in from a retrograde direction and use the dedicated reentry device to gain reentry and reestablish in-line flow to this patient with intractable hand pain and digit ulcer from the loss of in-line flow to the hand.
And this patient now, two years out, remains patent. Our outcomes at the University of Pennsylvania, typically these have been steal symptoms and/or ulceration and high rates of technical success. Clinical success, 70% with long rates of primary patency comparing very favorably
to the relatively sparse literature in this area. In summary, endovascular therapy can achieve high rates of technical, more importantly, clinical success with low rates of major complications, durable primary patency, and wound healing achieved in the majority of these patients.
- So thank you for the kind introduction and thanks for professor Viet for the invitation again this year. So, if we talk about applicability, of course you have to check the eye views from this device and you're limited by few instructions for users. They changed the lengths between the target vessel
and the orifice and the branch, with less than 50 mm , they used to be less than 25 mm. Also keep in mind, that you need to have a distance of more than 67 mm between your renal artery cuff and your iliac bifurcation. The good thing about branch endografts
is that if you have renal artery which comes ... or its orifice at the same level of the SME, you can just advance and put your endorafts a bit more proximally, of course risking more coverage of your aorta and eventually risking high rate
of paraplegia or spinal cord ischemia. Also if your renal artery on one side or if your target vessel is much lower with longer bridging stent grafts which are now available like the VBX: 79 mm or combination of bridging stem grafts, this can be treated as well.
Proximally, we have short extensions like the TBE which only allows 77 or 81 mm. This can also expand its applicability of this device. The suitability has already been proven in.. or assessed by Gaspar and vistas and it came around plus 60%
of all patients with aortic aneurysms. Majority of them are limitations where the previous EVAR or open AAA repair or the narrow diameter reno visceral segment in case of diabetes sections. So, what about the safety of the T-branch device?
We performed an observational study Mister, Hamburg and Milner group and I can present you here the short term results. We looked at 80 patients in prospective or retro prospective manner with the t-branch as instructed for use.
Majority were aneurysms with the type two or type four Crawford tracheal aneurysms, also a few with symptomatic or ruptured cases. Patient characteristics of course, we have the same of the usual high risk cardiovascular profiling,
this group of patients that has been treated. Majority was performed percutaneously in 55%. The procedure time shows us that there is still a learning curve. I think nowadays we can perform this under 200 minutes. What is the outcome?
We have one patient who died post operative day 30, after experiencing multiorgan failure. These are 30 day results. No rupture or conversion to open surgery. We had one patient with cardiac ischemia, seven patients with spinal cord ischemia
and one patient has early branch occlusion. There was both renal arteries were occluded, he had an unknown heparin induced thrombocytopenia and was treated with endovascular thrombectomy and successfully treated as well. Secondary interventions within 30 days were in one patient
stent placement due to an uncovered celiac stent stenosis In one patient there was a proximal type one endoleak with a proximal extension. One patient who had paraplegia or paraparesis, he had a stenosis of his internal iliac artery which stem was stented successfully,
and the paraparesis resolved later on in this patient. And of course the patient I just mentioned before, with his left and right renal artery occlusion. So to conclude, the T-branch has wide applicability as we've seen also before, up to 80% especially with adjuvant procedures.
Longer, more flexible bridging stent grafts will expand the use of this device. Also the TBE proximal extensions allows aortic treatment of diameters for more than 30 mm and I think the limitations are still the diameter at reno visceral segment,
previous EVAR or open AAA repair and having of course multiple visceral arteries. Thank you.
- Thank you. We've all heard that hypogastric artery occlusion can be not so benign as Dr. Snyder mentioned. It's not advancing, there we go. There's the systematic meta-analysis of 61 papers and showing that when you have bilateral occlusion you actually can have worse symptoms
of claudication, even erectile dysfunction. There are these known commercially available devices but should we be doing bilateral cases? There's certainly increased complexity inherent in this and anatomic limitations and cost. We choose to look at a multicenter experience
of 24 centers, 47 patients. Here are the contributing contributors. When we published our experience these are the 47 patients using the GORE IBE device both in Europe and the United States with 6.5 month follow up. The aortic diameters, some of the characteristics.
You can see here that 23% had exclusive iliac aneurysm treatment in the absence of a AAA. Four had aneurysmal or ectatic internal iliac arteries. These are sometimes treated by coil embolizing the first branch and extending the internal branch into a first order branch, there you can see.
But anatomic limitations persist and you can see especially with lengths. You need quite a long length for that ipsilateral side with its device in order to do the bilateral case. These are the IFUs, 165 for the contra and 195 for the ipsi. In our experience you can see that actually 194 on the ipsi
and 195 is what we found as a mean. This seems prohibitive. Some of the tips and tricks to accommodate the shorter lengths are shown here. We can maximize overlap, and we can see that from 195 we can drop this
by maximizing the overlap to 175. We can certainly cross the limbs, that eats up some length. Intrinsic tortuosity can eat up the distance. We can see we can recreate the flow divider, bring up the flow divider higher, match the two limbs. That also can cut down the distance.
Finally in some of these patients we had shorter bridging stents, the endurant stent in particular is a little shorter instead of the 100 millimeter Gore limb and that can also shorten the distance. More about the procedural outcomes. You can see here great technical success.
There were no type one or type three endoleaks. There were some adjunctive stenting in some patients, four patients, because of some kinking and distal dissection. One technical failure's worth pointing out. This is a patient who has heavy calcification
in the iliac system here. Couldn't cannulate, the internal iliac artery required coil embolization. You can see this patient, we had to sacrifice that internal and extend into the external. Complications at 30 days are very acceptable.
One groin infection. You can see that radiographing clinical follow up. One patient with new buttock claudications, a patient who lost the internal iliac artery as I'll mention to you in a minute. The other one was asymptomatic
but also one internal iliac artery lost. No aneurysm related deaths. You can see there's some type two endoleaks but not type one or three endoleaks. More about limb occlusions. This is the external iliac limb.
You can see there were three external iliac limb occlusions, two in the perioperative period and one at six months which presented with claudication requiring a Fem-Fem. The two in the perioperative period, one was a thrombectomy and stent that was treated nicely. The other one was really an iatrogenic limb occlusion
because the internal branch was deployed inadvertently high jailing the external and causing the operators to have to go back and essentially sacrifice that internal in order to preserve flow to the external. You can see that this a patient who in fact did have the claudication symptoms, this is that one patient.
As far as internal iliac limb occlusion in addition to the one we just described there was one asymptomatic incidental find of a limb occlusion at six months. This is a comparison of what Dr. Snyder just discussed, the pivotal trial with expanded access to the global experience I just presented.
You can see when you look at fluoroscopy time, for instance, contrast media used or procedural duration that there is, of course, some increase requirement in the bilateral cases but I would argue that this is not prohibitive. Cost, however, may in fact be an issue.
Certainly this can be a quite costly procedure when we start doing bilateral cases. There are, in fact, new procedure codes that Gore has provided that can offset some of this cost especially for the hospital cost, but nonetheless this is something to be considered.
So in conclusion, preservation of bilateral internal iliac artery with a Gore IBE can be performed safely with excellent technical results and short term patency rates. Only one new onset of buttock claudication occurred in that inadvertent limb jailing. Limb and branch occlusions are rare but can be treated
successfully with stenting most of the time. Some anatomic limitations exist but a number of maneuvers can permit technical success even in shorter length aortoiliac segments. Contrast fluoroscopy and length of case do not appear to be prohibitive.
However, cost remains an issue. 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.
- 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.
- I'd like to share with you our experience using tools to improve outcomes. These are my disclosures. So first of all we need to define the anatomy well using CTA and MRA and with using multiple reformats and 3D reconstructions. So then we can use 3D fusion with a DSA or with a flouro
or in this case as I showed in my presentation before you can use a DSA fused with a CT phase, they were required before. And also you can use the Integrated Registration like this, when you can use very helpful for the RF wire
because you can see where the RF wire starts and the snare ends. We can also use this for the arterial system. I can see a high grade stenosis in the Common iliac and you can use the 3D to define for your 3D roadmapping you can use on the table,
or you can use two methods to define the artery. Usually you can use the yellow outline to define the anatomy or the green to define the center. And then it's a simple case, 50 minutes, 50 minutes of ccs of contrast,
very simple, straightforward. Another everybody knows about the you know we can use a small amount of contrast to define the whole anatomy of one leg. However one thing that is relatively new is to use a 3D
in order to map, to show you the way out so you can do in this case here multiple segmental synosis, the drug-eluting-balloon angioplasty using the 3D roadmap as a reference. Also about this case using radial fre--
radial access to peripheral. Using a fusion of image you can see the outline of the artery. You can see where the high grade stenosis is with a minimum amount of contrast. You only use contrast when you are about
to do your angiogram or your angioplasty and after. And that but all everything else you use only the guide wires and cathers are advanced only used in image guidance without any contrast at all. We also been doing as I showed before the simultaneous injection.
So here I have two catheters, one coming from above, one coming from below to define this intravenous occlusion. Very helpful during through the and after the 3D it can be helpful. Like in this case when you can see this orange line is where
the RF wire is going to be advanced. As you can see the breathing, during the breathing cycle the pleura is on the way of the RF wire track. Pretty dangerous stuff. So this case what we did we asked the anesthesiologist
to have the patient in respiratory breath holding inspiration. We're able to hyperextend the lungs, cross with the RF wire without any complication. So very useful. And also you can use this outline yellow lines here
to define anatomy can help you to define where you need to put the stents. Make sure you're covering everything and having better outcomes at the end of the case without overexposure of radiation. And also at the end you can use the same volt of metric
reconstruction to check where you are, to placement of the stent and if you'd covered all the lesion that you had. The Cone beam CT can be used for also for the 3D model fusion. As you can see that you can use in it with fluoro as I
mentioned before you can do the three views in order to make sure that the vessels are aligned. And those are they follow when you rotate the table. And then you can have a pretty good outcome at the end of the day at of the case. In that case that potentially could be very catastrophic
close to the Supra aortic vessels. What about this case of a very dramatic, symptomatic varicose veins. We didn't know and didn't even know where to start in this case. We're trying to find our way through here trying to
understand what we needed to do. I thought we need to recanalize this with this. Did a 3D recan-- a spin and we saw ours totally off. This is the RFY totally interior and the snare as a target was posterior in the ASGUS.
Totally different, different plans. Eventually we found where we needed to be. We fused with the CAT scan, CT phase before, found the right spot and then were able to use
Integrated registration for the careful recanalization above the strip-- interiorly from the Supraaortic vessels. As you can see that's the beginning, that's the end. And also these was important to show us where we working.
We working a very small space between the sternal and the Supraaortic vessels using the RF wire. And this the only technology would allowed us to do this type of thing. Basically we created a percutaneous in the vascular stent bypass graft.
You can you see you use a curved RF wire to be able to go back to the snare. And that once we snare out is just conventional angioplasty recanalized with covered stents and pretty good outcome. On a year and a half follow-up remarkable improvement in this patient's symptoms.
Another patient with a large graft in the large swelling thigh, maybe graft on the right thigh with associated occlusion of the iliac veins and inclusion of the IVC and occlusion of the filter. So we did here is that we fused the maps of the arterial
phase and the venous phase and then we reconstruct in a 3D model. And doing that we're able to really understand the beginning of the problem and the end of the problem above the filter and the correlation with the arteries. So as you can see,
the these was very tortuous segments. We need to cross with the RF wire close to the iliac veins and then to the External iliac artery close to the Common iliac artery. But eventually we were able to help find a track. Very successfully,
very safe and then it's just convention technique. We reconstructed with covered stents. This is predisposed, pretty good outcome. As you can see this is the CT before, that's the CT after the swelling's totally gone
and the stents are widely open. So in conclusion these techniques can help a reduction of radiation exposure, volume of contrast media, lower complication, lower procedure time.
In other words can offer higher value in patient care. Thank you.
- I want to thank Dr. Veith for the invitation to present this. There are no disclosures. So looking at cost effectiveness, especially the comparison of two interventions based on cost and the health gains, which is usually reported
through disability adjusted life years or even qualities. It's not to be really confused with cost benefit analysis where both paramaters are used, looked at based on cost. However, this does have different implications from different stakeholders.
And we look, at this point, between the medical center or the medical institution and as well as the payers. Most medical centers tend to look at how much this is costing them
and what is being reimbursed. What's the subsequent care interventions and are there any additional payments for some of these new, novel technologies. What does the payers really want to know, what are they getting for the money,
their expenditures and from here, we'll be looking mainly at Medicare. So, background, we've all seen this, but basically, you know, balloon angioplasty and stents have been out for a while and the outcomes aren't bad but they're not great.
They do have continued high reintervention rates and patency problems. Therefore, drug technology has sort of emerged as a possible alternative with better patency rates. And when we look at this, just some, some backgrounds, when you look at any sort of angioplasty,
from the physician's side, we bill under a certain CPT code and it falls under a family of codes for reimbursement in the medical center called an APC. Within those, you can further break it down to the cost of the product.
In this situation, total products cost around 1400 dollars and the balloons are estimated to be 406 dollars in cost. However, in drug-coated balloons, there was an additional payment, which average, because they're such more expensive devices than the allotments and this had an additional payment.
However, this expired in January of this year. When you look at Medicare reimbursement guidelines, you'll see that on an outpatient hospital setting, there's a reimbursement for the medical center as well as for the physican which is, oops sorry, down eight percent from last year.
And they also publish a geometric mean cost, which is quite higher than we expected. And then the office based practice is also the reimbursement pattern and this is slated to go down also by a few percentage points.
When you look at, I'm sorry, when you look at stents, however, it's a different family of CPT codes and APC family also. Here you'll see the supply cost is much higher in the, I'm sorry, the stent in this category is actually 3600 dollars.
The average cost for drug-eluting stents, around 1500 dollars and the only pass through that existed was on the inpatient side of it. Again, looking at Medicare guidelines, the reimbursement will be going down 8 percent
for the outpatient setting and the geometric mean cost is 11,700. So, what we want to look at really is what is the financial impact looking at primary patency, target lesion revascularization based on meta analysis. And the reinterventions are where the real cost
is going to come into effect. We also want to look at, when it doesn't work and we do bailout stenting, what is the cost going to happen there, which is not often looked at in most of these studies. So looking at a hypothetical situation,
you've got 100 patients, any office based practice, the payee will pay about 5145. There's a pass through payment which averages 1700 dollars per stent. Now, if you look at bailout stenting, 18.5 percent at one year,
this is the additional cost that would be associated with that from a payer standpoint. Targeted risk for revascularization was 12 percent of additional costs. So the total one year cost, we estimated, was almost a million dollars
and the cost per primary patency limb at one year was 13 four. In a similar fashion, for drug-eluting stents, you'll see that there's no pass through payment, but although there is a much higher payer expenditure. The reintervention rate was about 8.4 percent
at one year for the additional cost. And you'll see here, at the one year mark, the cost per patent limb is about 12,600 dollars. So how 'about the medical center, looking at Medicare claims data, you'll see the average cost for them is 745,000,
the medical center. Additional costs listed at another 1500. Bailout renting, as previously, with relate to a total cost at one year of 1.2 million or at 16,900 dollars per limb. Looking at the drug-eluting stents,
we didn't add any additional costs because the drug-eluting stents are cheaper than the current system that is in there but the reinterventions still exist for a cost per patent limb at one year of 14 six. So in essence, a few other studies have looked
at some model, both a European model and in the U.S. where the number of reinterventions at two to five years will actually offset the additional cost of drug-eluting stents and make it a financially advantageous process.
And in conclusion, drug-eluting stents do have a better primary patency and a decreased TLR than drug-coated balloons or even other, but they are more expensive than conventional treatment such as balloon angioplasty and bare-metal stents.
There is a decreased reintervention rate and the bailout stenting, which is not normally accounted for in a financial standpoint does have a dramatic impact and the loss of the pass through makes me make some of the drug-coated balloons
a little more prohibitive in process. Thank you.
- Thank you very much Mr. Chairman. Thank you Frank, for this kind invitation again to this symposium. This is my disclosure. With the drug coated balloons it is important to minimize the drug loss during the balloon transit during the inflation of the balloon.
Because Paclitaxel has a high degree of cytotoxicity that may induce necrosis and increase inflammation in the distal tissue, and we know that even with the best technique, we can loose 70 - 80% of the drop to the distal circulation,
the inference by different factors between them and the calcification of degree of these blood cells. There are adverse events secondary to drug coated balloons that have been reported recently. In animal molders it has shown that Downstream Vascular Changes are more frequent with
Drug Coated Balloons than with Drug-Eluting Stents. In animal molders it has been also shown that there is no evidence of significant downstream emboli or systemic toxicity with DCB's than with patients with controls. This was a study presented yesterday by (mumbles)
with a very nice and elegant study with a good methodology that shows in animals that there are different concentrations of the drug in distal tissue depending on the balloon that you are using. In this case, the range in balloon (mumbles)
those ones have the lowest concentration in the distal tissue. In clinical experience in this meta-analysis amputations and wound healing rate are lower with this series with controls. But there is controversy because
Complete Index Ulcer Healing is higher in this series than with control patients. But there are lower wound healing index in patients compared with drug-eluting stents. In the debate, (mumbles) and also in the dialux which are clinical trials in diuretic patients with CLI,
there we no issues of safety and no impair of the wounds healing. But, remember the negative result of the IN PACT DEEP trial in which there were more amputation at six months that could be influenced, but in all their factors, the lack of standardized
wound care protocols. (mumbles) has also reported recently good survival to 100% in patient treated with DCB's compared with plain balloons and with lutonic balloons. So in our institution, we did a study with the objective to examine
patient outcomes following the use of the drug-coated balloons in patients with CLI and diuretic patients with Complex Real World lesions undergoing endovascular intervention below-the-knee with the Ranger balloon coated with Paclitaxel.
This is a Two-Center Experience that is headed by the National University of Mexico in 30 patients with strict followup. With symptomatic Rutherford four to six. With the Stenosis and occlusion of infrapopliteal vessels and many degrees of calcification.
It was mandatory for all patients to have Pre-dilation before the use of DCB. We studied some endpoints like efficacy. (mumbles) Limb salvage, sustained clinical improvement, wound healing rate
and technical success and some other endpoints of safety. This is an example of multi level disease in a patient that has to be approached by (mumbles) access with a balloon preparation of the artery before the use of the DCB, and after this, we treated the anterior artery
and even to the arch of the foot. This is the way we follow our patient with ultra sound duplex with an index fibular of no more that 2.4. All patients were diabetic with Rutherford 5-6. 77% have a (mumbles) at the initial of the study.
And as you can see there were longer lesions and with higher degree of calcification and stenosis only in two of them we produced (mumbles). There were bailout stent placements in five patients and we did retrograde access in 43 patients.
Subintimal angioplasty was done in 32 patients, and Complete Index Wound Healing was in 93 of our patients. This is our Limb Salvage 94%. The Patency rate was 96% with this Kaplan Meir analysis. And in some patients we did a determination of Paclitaxel concentration in distal tissue
with the High Pressure Liquid Chromatography method. We only did this in five patients because of the lack of financial support, and technical problems. As you can see in three of them we had Complete Wound Healing.
Only one we had major amputation. This was the patient with the higher concentration of Paclitaxel in the distal tissue, and in one patient, we could not determine the concentration of Paclitaxel. This is the way we do this.
They take the sample of the patient at the moment we do the minor amputation. During day 10 after the angioplasty, we also do a (mumbles) analysis of the patient we have a limb salvage we can see arterial and capillar vessel proliferation and hyperplasia of the
arteriole media layer. But, in those patients that have major amputation even when they have a good sterio-graphic result like in this case, we see more fibrinoid necrosis which is a bad determination. So in conclusion,
angioplasty with the (mumbles) balloon maintain clinical efficacy over time is possible. We didn't see No Downstream clinical important or significant effects and high rates of Limb Salvage in complex CLI patients is possible.
Local toxic effects of paclitaxel and significant drug loss on the way to the lesion are theoretical considerations up to now because there is no biological study that can confirm this. Thank you very much.
- Thank you chairman, ladies and gentlemen. I have no conflict of interest for this talk. So, basically for vTOS we have the well known treatment options. Either the conservative approach with DOAC or anticoagulation for three months or longer supported by elastic stockings.
And alternatively there's the invasive approach with catheter thrombolysis and decompression surgery and as we've just heard in the talk but Ben Jackson, also in surgeons preference, additional PTA and continuation or not of anticoagulation.
And basically the chosen therapy is very much based on the specific specialist where the patient is referred to. Both treatment approaches have their specific complications. Rethrombosis pulmonary embolism,
but especially the post-thrombotic syndrome which is reported in conservative treatment in 26 up to 66%, but also in the invasive treatment approach up to 25%. And of course there are already well known complications related to surgery.
The problem is, with the current evidence, that it's only small retrospective studies. There is no comparative studies and especially no randomized trials. So basically there's a lack of high quality evidence leading to varying guideline recommendations.
And I'm not going through them in detail 'cause it's a rather busy slide. But if you take a quick look then you can see some disparencies between the different guidelines and at some aspects there is no recommendation at all,
or the guidelines refer to selected patients, but they define how they should be selected. So again, the current evidence is insufficient to determine the most clinically and cost effective treatment approach, and we believe that a randomized trial is warranted.
And this is the UTOPIA trial. And I'm going to take you a bit through the design. So the research question underline this trial is, does surgical treatment, consisting of catheter directed thrombolysis and first rib section, significantly reduce post-thrombotic syndrome
occurrence, as compared to conservative therapy with DOAC anticoagulation, in adults with primary upper extremity deep vein thrombosis? The design is multicenter randomized and the population is all adults with first case of primary Upper Extremity
Deep Venous Thrombosis. And our primary outcome is occurrence of post-thrombotic syndrome, and this the find according the modified Villalta score. And there are several secondary outcomes, which of course we will take into account,
such as procedural complications, but also quality of life. This is the trial design. Inclusion informed consent and randomization are performed at first presentation either with the emergency department or outpatient clinic.
When we look at patients 18 years or older and the symptoms should be there for less than 14 days. Exclusion criteria are relevant when there's a secondary upper extremity deep vein thrombosis or any contra-indication for DOACs or catheter directed thrombolysis.
We do perform imaging at baseline with a CT venography. We require this to compare baseline characteristics of both groups to mainly determine what the underlying cause of the thrombosis being either vTOS or idiopathic.
And then a patient follows the course of the trial either the invasive treatment with decompression surgery and thrombolysis and whether or not PTA is required or not, or conservative treatment and we have to prefer DOAC Rivaroxaban or apixaban to be used.
Further down the patient is checked for one month and the Villalta score is adapted for use in the upper extremity and we also apply quality of life scores and scores for cost effectiveness analysis. And this is the complete flowchart of the whole trial.
Again, very busy slide, but just to show you that the patient is followed up at several time points, one, three, six, and 12 months and the 12 months control is actually the endpoint of the trial
And then again, a control CT venography is performed. Sample size and power calculation. We believe that there's an effect size of 20% reduction in post-thrombotic syndrome in favor of the invasive treatment and there's a two-side p-value of 0.05
and at 80% power, we consider that there will be some loss to follow up, and therefore we need just over 150 patients to perform this trial. So, in short, this slide more or less summarize it. It shows the several treatment options
that are available for these patients with Upper Extremity Venous Thrombosis. And in the trial we want to see, make this comparison to see if anticoagulation alone is as best as invasive therapy. I thank for your attention.
- Thank you very much for inviting me here again and I'll be talking about thermal ablation RCTs. My coauthor, Michel Perrin from Lyon, in France, the gourmet capital in the world has collected RCTs on operative treatment of CVD since 1990. Today he has 186 collected RCTs
of the which 84 involve thermal ablation. You can find all this data for free in Phlebolymphology.org. Do we need further RCTs? Well systematic reviews and meta-analyses increasingly important in evidence-based medicine. And this development is well-described
by Gurevitch in Nature this year and criticized by Ioannidis two years earlier. Common sense is a good principle when you try to understand meta-analyses. Do most studies point in the same direction?
Is the effect significant? Are the patient-related outcome measures relevant and what happens if you exclude one study? Since 2008, 10 years back, these are the available meta-analyses and the last came from Ireland earlier this year.
It was published in the JVS, endovenous and in fact this is in March. And they found nine RCTs comparing conventional surgery and endovenous therapy with five years or more follow-up that were selected. Primary outcome was recurrence rate.
There is some sole recurrence rate was that there is no significant difference in laser versus surgery, same for radioactive frequency versus surgery and radioactive frequency versus laser. They found an inferiority
of ultrasound guided foam sclerotherapy versus laser and surgery. Their conclusions were that the quality of evidence is poor therefore more trials that are well-powered to examine long-term outcomes are warranted. The new kids on the block,
steam, MOCA, and Venaseal, are not included in the meta-analyses due to lack of more than five years follow-up in their paper. Obsolete RCTs. Endovenous laser in the presented long-term RCTs
were performed by 810-980 nanometer wavelength using a bare fiber. There is a paucity of RCTs comparing open surgery with novel endovenous laser and new RF techniques. Recent criticism against endovenous ablation, is the pendulum swinging towards high ligation
and stripping again? Olle Nelzen from Sweden in an editorial in British Journal of Surgery reconsidering the endovenous revolution, wrote that neovascularization is a dominant finding following high ligation and stripping
but proximal venous stumps and incompetent anterior accessory saphenous veins are the main factor after endovenous ablation. So long-term follow-up suggests that the recurrence rate after endovenous ablation seem to increase over time. A substantial number of patients who have undergone
endovenous ablation will eventually develop symptomatic recurrence requiring repeat therapy. And such scenario would change the equation regarding patient benefit and costs making endovenous ablation less competitive and challenging current guidelines.
So summary of needs for further RCTs. Quality of present RCTs poor in several meta-analyses, no thermal endovenous technique is superior to open surgery, RCTs rapidly obsolete due to change in technology, and more trials that are well-powered to examine long-term outcomes are warranted.
So final point, apparently we need more RCTs to satisfy the quality requirements for clinically important systematic reviews and meta-analyses. And what about the clinical guidelines? Thank you very much.
- Thanks Fieres. Thank you very much for attending this session and Frank for the invitation. These are my disclosures. We have recently presented the outcomes of the first 250 patients included in this prospective IDE at the AATS meeting in this hotel a few months ago.
In this study, there was no in-hospital mortality, there was one 30-day death. This was a death from a patient that had intracranial hemorrhage from the spinal drain placement that eventually was dismissed to palliative care
and died on postoperative day 22. You also note that there are three patients with paraplegia in this study, one of which actually had a epidural hematoma that was led to various significant and flacid paralysis. That prompted us to review the literature
and alter our outcomes with spinal drainage. This review, which includes over 4700 patients shows that the average rate of complications is 10%, some of those are relatively moderate or minor, but you can see a rate of intracranial hemorrhage of 1.5% and spinal hematoma of 1% in this large review,
which is essentially a retrospective review. We have then audited our IDE patients, 293 consecutive patients treated since 2013. We looked at all their spinal drains, so there were 240 placement of drains in 187 patients. You can see that some of these were first stage procedures
and then the majority of them were the index fenestrated branch procedure and some, a minority were Temporary Aneurysm Sac Perfusions. Our rate of complication was identical to the review, 10% and I want to point out some of the more important complications.
You can see here that intracranial hypotension occurred in 6% of the patients, that included three patients, or 2%, with intracranial hemorrhage and nine patients, or 5%, with severe headache that prolonged hospital stay and required blood patch for management.
There were also six patients with spinal hematomas for a overall rate of 3%, including the patient that I'll further discuss later. And one death, which was attributed to the spinal drain. When we looked at the intracranial hypotension in these 12 patients, you can see
the median duration of headache was four days, it required narcotics in seven patients, blood patch in five patients. All these patients had prolonged hospital stay, in one case, the prolongation of hospital stay was of 10 days.
Intracranial hemorrhage in three patients, including the patient that I already discussed. This patient had a severe intracranial hemorrhage which led to a deep coma. The patient was basically elected by the family to be managed with palliative care.
This patient end up expiring on postoperative day 21. There were other two patients with intracranial hemorrhage, one remote, I don't think that that was necessarily related to the spinal drain, nonetheless we had it on this review. These are some of the CT heads of the patients that had intracranial hemorrhage,
including the patient that passed away, which is outlined in the far left of your slide. Six patients had spinal hematoma, one of these patients was a patient, a young patient treated for chronic dissection. Patient evolved exceptionally well, moving the legs,
drain was removed on postoperative day two. As the patient is standed out of the bed, felt weakness in the legs, we then imaged the spine. You can see here, very severe spinal hematoma. Neurosurgery was consulted, decided to evacuate, the patient woke up with flacid paralysis
which has not recovered. There were two other patients with, another patient with paraplegia which was treated conservatively and improved to paraparesis and continues to improve and two other patients with paraparesis.
That prompted changes in our protocol. We eliminated spinal drains for Extent IVs, we eliminated for chronic dissection, in first stages, on any first stage, and most of the Extent IIIs, we also changed our protocol of drainage
from the routine drainage of a 10 centimeters of water for 15 minutes of the hours to a maximum of 20 mL to a drainage that's now guided by Near Infrared Spectroscopy, changes or symptoms. This is our protocol and I'll illustrate how we used this in one patient.
This is a patient that actually had this actual, exact anatomy. You can see the arch was very difficult, the celiac axis was patent and provided collateral flow an occluded SMA. The right renal artery was chronically occluded.
As we were doing this case the patient experienced severe changes in MEP despite the fact we had flow to the legs, we immediately stopped the procedure with still flow to the aneurysm sac. The patient develops pancreatitis, requires dialysis
and recovers after a few days in the ICU with no neurological change. Then I completed the repair doing a subcostal incision elongating the celiac axis and retrograde axis to this graft to complete the branch was very difficult to from the arm
and the patient recovered with no injury. So, in conclusion, spinal drainage is potentially dangerous even lethal and should be carefully weighted against the potential benefits. I think that our protocol now uses routine drainage for Extent I and IIs,
although I still think there is room for a prospective randomized trial even on this group and selective drainage for Extent IIIs and no drainage for Extent IVs. We use NIRS liberally to guide drainage and we use temporary sac perfusion
in those that have changes in neuromonitoring. Thank you very much.
- Good morning, thank you, Dr. Veith, for the invitation. My disclosures. So, renal artery anomalies, fairly rare. Renal ectopia and fusion, leading to horseshoe kidneys or pelvic kidneys, are fairly rare, in less than one percent of the population. Renal transplants, that is patients with existing
renal transplants who develop aneurysms, clearly these are patients who are 10 to 20 or more years beyond their initial transplantation, or maybe an increasing number of patients that are developing aneurysms and are treated. All of these involve a renal artery origin that is
near the aortic bifurcation or into the iliac arteries, making potential repair options limited. So this is a personal, clinical series, over an eight year span, when I was at the University of South Florida & Tampa, that's 18 patients, nine renal transplants, six congenital
pelvic kidneys, three horseshoe kidneys, with varied aorto-iliac aneurysmal pathologies, it leaves half of these patients have iliac artery pathologies on top of their aortic aneurysms, or in place of the making repair options fairly difficult. Over half of the patients had renal insufficiency
and renal protective maneuvers were used in all patients in this trial with those measures listed on the slide. All of these were elective cases, all were technically successful, with a fair amount of followup afterward. The reconstruction priorities or goals of the operation are to maintain blood flow to that atypical kidney,
except in circumstances where there were multiple renal arteries, and then a small accessory renal artery would be covered with a potential endovascular solution, and to exclude the aneurysms with adequate fixation lengths. So, in this experience, we were able, I was able to treat eight of the 18 patients with a fairly straightforward
endovascular solution, aorto-biiliac or aorto-aortic endografts. There were four patients all requiring open reconstructions without any obvious endovascular or hybrid options, but I'd like to focus on these hybrid options, several of these, an endohybrid approach using aorto-iliac
endografts, cross femoral bypass in some form of iliac embolization with an attempt to try to maintain flow to hypogastric arteries and maintain antegrade flow into that pelvic atypical renal artery, and a open hybrid approach where a renal artery can be transposed, and endografting a solution can be utilized.
The overall outcomes, fairly poor survival of these patients with a 50% survival at approximately two years, but there were no aortic related mortalities, all the renal artery reconstructions were patented last followup by Duplex or CT imaging. No aneurysms ruptures or aortic reinterventions or open
conversions were needed. So, focus specifically in a treatment algorithm, here in this complex group of patients, I think if the atypical renal artery comes off distal aorta, you have several treatment options. Most of these are going to be open, but if it is a small
accessory with multiple renal arteries, such as in certain cases of horseshoe kidneys, you may be able to get away with an endovascular approach with coverage of those small accessory arteries, an open hybrid approach which we utilized in a single case in the series with open transposition through a limited
incision from the distal aorta down to the distal iliac, and then actually a fenestrated endovascular repair of his complex aneurysm. Finally, an open approach, where direct aorto-ilio-femoral reconstruction with a bypass and reimplantation of that renal artery was done,
but in the patients with atypical renals off the iliac segment, I think you utilizing these endohybrid options can come up with some creative solutions, and utilize, if there is some common iliac occlusive disease or aneurysmal disease, you can maintain antegrade flow into these renal arteries from the pelvis
and utilize cross femoral bypass and contralateral occlusions. So, good options with AUIs, with an endohybrid approach in these difficult patients. Thank you.
- 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, 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.
- Thank you. I have two talks because Dr. Gaverde, I understand, is not well, so we- - [Man] Thank you very much. - We just merged the two talks. All right, it's a little joke. For today's talk we used fusion technology
to merge two talks on fusion technology. Hopefully the rest of the talk will be a little better than that. (laughs) I think we all know from doing endovascular aortic interventions
that you can be fooled by the 2D image and here's a real life view of how that can be an issue. I don't think I need to convince anyone in this room that 3D fusion imaging is essential for complex aortic work. Studies have clearly shown it decreases radiation,
it decreases fluoro time, and decreases contrast use, and I'll just point out that these data are derived from the standard mechanical based systems. And I'll be talking about a cloud-based system that's an alternative that has some advantages. So these traditional mechanical based 3D fusion images,
as I mentioned, do have some limitations. First of all, most of them require manual registration which can be cumbersome and time consuming. Think one big issue is the hardware based tracking system that they use. So they track the table rather than the patient
and certainly, as the table moves, and you move against the table, the patient is going to move relative to the table, and those images become unreliable. And then finally, the holy grail of all 3D fusion imaging is the distortion of pre-operative anatomy
by the wires and hardware that are introduced during the course of your procedure. And one thing I'd like to discuss is the possibility that deep machine learning might lead to a solution to these issues. How does 3D fusion, image-based 3D fusion work?
Well, you start, of course with your pre-operative CT dataset and then you create digitally reconstructed radiographs, which are derived from the pre-op CTA and these are images that resemble the fluoro image. And then tracking is done based on the identification
of two or more vertebral bodies and an automated algorithm matches the most appropriate DRR to the live fluoro image. Sounds like a lot of gobbledygook but let me explain how that works. So here is the AI machine learning,
matching what it recognizes as the vertebral bodies from the pre-operative CT scan to the fluoro image. And again, you get the CT plus the fluoro and then you can see the overlay with the green. And here's another version of that or view of that.
You can see the AI machine learning, identifying the vertebral bodies and then on your right you can see the fusion image. So just, once again, the AI recognizes the bony anatomy and it's going to register the CT with the fluoro image. It tracks the patient, not the table.
And the other thing that's really important is that it recognizes the postural change that the patient undergoes between the posture during the CT scan, versus the posture on the OR table usually, or often, under general anesthesia. And here is an image of the final overlay.
And you can see the visceral and renal arteries with orange circles to identify them. You can remove those, you can remove any of those if you like. This is the workflow. First thing you do is to upload the CT scan to the cloud.
Then, when you're ready to perform the procedure, that is downloaded onto the medical grade PC that's in your OR next to your fluoro screen, and as soon as you just step on the fluoro pedal, the CYDAR overlay appears next to your, or on top of your fluoro image,
next to your regular live fluoro image. And every time you move the table, the computer learning recognizes that the images change, and in a couple of seconds, it replaces with a new overlay based on the obliquity or table position that you have. There are some additional advantages
to cloud-based technology over mechanical technology. First of all, of course, or hardware type technology. Excuse me. You can upgrade it in real time as opposed to needing intermittent hardware upgrades. Works with any fluoro equipment, including a C-arm,
so you don't have to match your 3D imaging to the brand of your fluoro imaging. And there's enhanced accuracy compared to mechanical registration systems as imaging. So what are the clinical applications that this can be utilized for?
Fluoroscopy guided endovascular procedures in the lower thorax, abdomen, and pelvis, so that includes EVAR and FEVAR, mid distal TEVAR. At present, we do need two vertebral bodies and that does limit the use in TEVAR. And then angioplasty stenting and embolization
of common iliac, proximal external and proximal internal iliac artery. Anything where you can acquire a vertebral body image. So here, just a couple of examples of some additional non EVAR/FEVAR/TEVAR applications. This is, these are some cases
of internal iliac embolization, aortoiliac occlusion crossing, standard EVAR, complex EVAR. And I think then, that the final thing that I'd like to talk about is the use with C-arm, which is think is really, extremely important.
Has the potential to make a very big difference. All of us in our larger OR suites, know that we are short on hybrid availability, and yet it's difficult to get our institutions to build us another hybrid room. But if you could use a high quality 3D fusion imaging
with a high quality C-arm, you really expand your endovascular capability within the operating room in a much less expensive way. And then if you look at another set of circumstances where people don't have a hybrid room at all, but do want to be able to offer standard EVAR
to their patients, and perhaps maybe even basic FEVAR, if there is such a thing, and we could use good quality imaging to do that in the absence of an actual hybrid room. That would be extremely valuable to be able to extend good quality care
to patients in under-served areas. So I just was mentioning that we can use this and Tara Mastracci was talking yesterday about how happy she is with her new room where she has the use of CYDAR and an excellent C-arm and she feels that she is able to essentially run two rooms,
two hybrid rooms at once, using the full hybrid room and the C-arm hybrid room. Here's just one case of Dr. Goverde's. A vascular case that he did on a mobile C-arm with aortoiliac occlusive disease and he places kissing stents
using a CYDAR EV and a C-arm. And he used five mils of iodinated contrast. So let's talk about a little bit of data. This is out of Blain Demorell and Tara Mastrachi's group. And this is use of fusion technology in EVAR. And what they found was that the use of fusion imaging
reduced air kerma and DSA runs in standard EVAR. We also looked at our experience recently in EVAR and FEVAR and we compared our results. Pre-availability of image based fusion CT and post image based fusion CT. And just to clarify,
we did have the mechanical product that Phillip's offers, but we abandoned it after using it a half dozen times. So it's really no image fusion versus image fusion to be completely fair. We excluded patients that were urgent/emergent, parallel endographs, and IBEs.
And we looked at radiation exposure, contrast use, fluoro time, and procedure time. The demographics in the two groups were identical. We saw a statistically significant decrease in radiation dose using image based fusion CT. Statistically a significant reduction in fluoro time.
A reduction in contrast volume that looks significant, but was not. I'm guessing because of numbers. And a significantly different reduction in procedure time. So, in conclusion, image based 3D fusion CT decreases radiation exposure, fluoro time,
and procedure time. It does enable 3D overlays in all X-Ray sets, including mobile C-arm, expanding our capabilities for endovascular work. And image based 3D fusion CT has the potential to reduce costs
and improve clinical outcomes. Thank you.
- Relevant disclosures are shown in this slide. So when we treat patients with Multi-Segment Disease, the more segments that are involved, the more complex the outcomes that we should expect, with regards to the patient comorbidities and the complexity of the operation. And this is made even more complex
when we add aortic dissection to the patient population. We know that a large proportion of patients who undergo Thoracic Endovascular Aortic Repair, require planned coverage of the left subclavian artery. And this also been demonstrated that it's an increase risk for stroke, spinal cord ischemia and other complications.
What are the options when we have to cover the left subclavian artery? Well we can just cover the artery, we no that. That's commonly performed in emergency situations. The current standard is to bypass or transpose the artery. Or provide a totally endovascular revascularization option
with some off-label use , such as In Situ or In Vitro Fenestration, Parallel Grafting or hopefully soon we will see and will have available branched graft devices. These devices are currently investigational and the focus today's talk will be this one,
the Valiant Mona Lisa Stent Graft System. Currently the main body device is available in diameters between thirty and forty-six millimeters and they are all fifteen centimeters long. The device is designed with flexible cuff, which mimics what we call the "volcano" on the main body.
It's a pivotal connection. And it's a two wire pre-loaded system with a main system wire and a wire through the left subclavian artery branch. And this has predominately been delivered with a through and through wire of
that left subclavian branch. The system is based on the valiant device with tip capture. The left subclavian artery branch is also unique to this system. It's a nitinol helical stent, with polyester fabric. It has a proximal flare,
which allows fixation in that volcano cone. Comes in three diameters and they're all the same length, forty millimeters, with a fifteen french profile. The delivery system, which is delivered from the groin, same access point as the main body device. We did complete the early feasibility study
with nine subjects at three sites. The goals were to validate the procedure, assess safety, and collect imaging data. We did publish that a couple of years ago. Here's a case demonstration. This was a sixty-nine year old female
with a descending thoracic aneurysm at five and a half centimeters. The patient's anatomy met the criteria. We selected a thirty-four millimeter diameter device, with a twelve millimeter branch. And we chose to extend this repair down to the celiac artery
in this patient. The pre-operative CT scan looks like this. The aneurysm looks bigger with thrombus in it of course, but that was the device we got around the corner of that arch to get our seal. Access is obtained both from the groin
and from the arm as is common with many TEVAR procedures. Here we have the device up in the aorta. There's our access from the arm. We had a separate puncture for a "pigtail". Once the device is in position, we "snare" the wire, we confirm that we don't have
any "wire wrap". You can see we went into a areal position to doubly confirm that. And then the device is expanded, and as it's on sheath, it does creep forward a bit. And we have capture with that through and through wire
and tension on that through and through wire, while we expand the rest of the device. And you can see that the volcano is aligned right underneath the left subclavian artery. There's markers there where there's two rings, the outer and the inner ring of that volcano.
Once the device is deployed with that through and through wire access, we deliver the branch into the left subclavian artery. This is a slow deployment, so that we align the flair within the volcano and that volcano is flexible. In some patients, it sort of sits right at the level of
the aorta, like you see in this patient. Sometimes it protrudes. It doesn't really matter, as long as the two things are mated together. There is some flexibility built in the system. In this particular patient,
we had a little leak, so we were able to balloon this as we would any others. For a TEVAR, we just balloon both devices at the same time. Completion Angiogram shown here and we had an excellent result with this patient at six months and at a year the aneurysm continued
to re-sorb. In that series, we had successful delivery and deployment of all the devices. The duration of the procedure has improved with time. Several of these patients required an extension. We are in the feasibility phase.
We've added additional centers and we continue to enroll patients. And one of the things that we've learned is that details about the association between branches and the disease are critical. And patient selection is critical.
And we will continue to complete enrollment for the feasibility and hopefully we will see the pivotal studies start soon. Thank you very much
- I'd like the thank Doctor Veith for inviting me back to speak. I have no disclosures, we will be discussing some slight off-label use of the anitcoagulants. As we all know, acute limb ischemia occurs as a result of acute thrombosis of a native artery or bypass graft or embolism from a proximal
source, dissection, or trauma. The incidence is not insignificant, 15 cases per 100 000 persons per year, or interestingly about 10 to 16% of our vascular workload. Despite the relative frequency of this condition, there are relatively few guidelines to
guide us for anticoagulation therapy. The last set of guidelines for the American College of Chest Physicians regarding PAD gives some very brief, generic recommendations from 2012. They state, suggest immediate systemic anticoagulation with unfractionated heparin.
We suggest reperfusion over no reperfusion, which seems pretty obvious to an audience of vascular specialists. One of the challenges with acute limb ischemia is that it is a fairly heterogenous group. It can be thrombosis or embolism to the aorticiliac segments to the infrainguinal segments, and
there's also the patients who develop ALI from trauma. So we actually looked at the various phases of anticoagulation for acute limb ischemia and then we do, as with many institutions, utilize intravenous heparin at the time of the diagnosis, as well as obviously at the time of surgery,
but we found that there was a significant variation with regard to the early, post-operative anticoagulation regimens. One option is to give therapeutic intravenous heparin on an adjusted dose, but what we found in a significant minority of patients across the country actually,
is that people are giving this fixed mini-dose 500 unit an hour of heparin without any standardization or efficacy analysis. Then, obviously you go the long-term anticoagulation. We reviewed 123 patients who had ALI at our institution, who underwent surgical revascularization.
And they had the typical set of comorbidities you might expect in someone who has PAD or atheroembolism. In these patients, the Rutherford Classification was viable or marginally threatened in the majority, with about 25% having immediately threatened limb.
Various procedures were performed for these patients, including thromboembolectomy in the majority, bypass operations, angioplasty and stenting was performed in the significant minority and then primary amputation in the various selects few. We divided these patients into
the first four days of anticoagulation. Therapeutic with unfractionated heparin early on versus subtherapeutic or this mini-dose unfractionated heparin and we found that 29% of our patients were receiving the mini-dose unfractionated heparin, again without much efficacy analysis.
We used the International Society for Thrombosis and Haemostasis Anticoagulation Outcome Guidelines to look at the ischemic complications, as well as major and minor bleeding for these patients, and we identified actually not a significant rate of difference between the
subtherapeutic category and the therapeutic category of patients, with regard to mortality, with regard to recurrent limb ischemia, MI, VTE, or stroke, major amputation, and we actually didn't find because it's a fairly small study, any significant difference in major or minor bleeding for these patients.
So, we do feel that this small study did justify some efficacy of mini-dose unfractionated heparin because we didn't find that it was causing recurrent lower extremity thromboembolsim in these patients. Now on to long-term anticoagulation, for these patients, after that first three or four days
after the surgery, the options are long-term vitamin K antagonists, the DOAC's or vitamin K antagonists if you have atrial arrhythmia, or in the patients who had no other comorbidities, there really is not much guidance until recently. The compass trial was recently published in 2018
in stable PAD and carotid disease patients, identifying that rivaroxaban plus aspirin had a significant benefit over aspirin alone in patients who had stable PAD. And then, an upcoming trial, which is still ongoing currently in patients who underwent recent
revascularization, whether open or endo, is hopefully going to demonstrate that rivaroxaban, again has a role in patients with lower extremity ischemia. So in conclusion, there is relatively a scarcity of clinical data to help guide anticoagulation after acute limb ischemia.
Unfractionated heparin pre and intraop are standardized, but postop anticoagulation is quite variable. The mini-dose, we consider to be a reasonable option in the first few days to balance bleeding versus rethrombrosis, and fortunately we are having larger randomized clinical trials to help demonstrate the benefit of the DOACs and
aspirin in patients who are stable or post-revascularization for PAD, thank you.
- This talk is a brief one about what I think is an entity that we need to be aware of because we see some. They're not AVMs obviously, they're acquired, but it nevertheless represents an entity which we've seen. We know the transvenous treatment of AVMs is a major advance in safety and efficacy.
And we know that the venous approach is indeed very, very favorable. This talk relates to some lesions, which we are successful in treating as a venous approach, but ultimately proved to be,
as I will show you in considerable experience now, I think that venous thrombosis and venous inflammatory disease result in acquired arteriovenous connections, we call them AVMs, but they're not. This patient, for example,
presented with extensive lower extremity swelling after an episode of DVT. And you can see the shunting there in the left lower extremity. Here we go in a later arterial phase. This lesion we found,
as others, is best treated. By the way, that was his original episode of DVT with occlusion. Was treated with stenting and restoration of flow and the elimination of the AVM.
So, compression of the lesion in the venous wall, which is actually interesting because in the type perivenous predominant lesions, those are actually lesions in the vein wall. So these in a form, or in a way, assimilate the AVMs that occur in the venous wall.
Another man, a 53-year-old gentleman with leg swelling after an episode of DVT, we can see the extensive filling via these collaterals, and these are inflammatory collaterals in the vein wall. This is another man with a prior episode of DVT. See his extensive anterior pelvic collaterals,
and he was treated with stenting and success. A recent case, that Dr. Resnick and I had, I was called with a gentleman said he had an AVM. And we can see that the arteriogram sent to me showed arterial venous shunting.
Well, what was interesting here was that the history had not been obtained of a prior total knee replacement. And he gave a very clear an unequivocal history of a DVT of sudden onset. And you can see the collaterals there
in the adjacent femoral popliteal vein. And there it is filling. So treatment here was venous stenting of the lesion and of the underlying stenosis. We tried an episode of angioplasty,
but ultimately successful. Swelling went down and so what you have is really a post-inflammatory DVT. Our other vast experience, I would say, are the so-called uterine AVMs. These are referred to as AVMs,
but these are clearly understood to be acquired, related to placental persistence and the connections between artery and veins in the uterus, which occurs, a part of normal pregnancy. These are best treated either with arterial embolization, which has been less successful,
but in some cases, with venous injection in venous thrombosis with coils or alcohol. There's a subset I believe of some of our pelvic AVMs, that have histories of DVT. I believe they're silent. I think the consistency of this lesion
that I'm showing you here, that if we all know, can be treated by coil embolization indicates to me that at least some, especially in patients in advanced stage are related to DVT. This is a 56-year-old, who had a known history of prostate cancer
and post-operative DVT and a very classic looking AVM, which we then treated with coil embolization. And we're able to cure, but no question in my mind at least based on the history and on the age, that this was post-phlebitic.
And I think some of these, and I think Wayne would agree with me, some of these are probably silent internal iliac venous thromboses, which we know can occur, which we know can produce pulmonary embolism.
And that's the curative final arteriogram. Other lesions such as this, I believe are related, at least some, although we don't have an antecedent history to the development of DVT, and again of course,
treated by the venous approach with cure. And then finally, some of the more problematic ones, another 56-year-old man with a history of prior iliofemoral DVT. Suddenly was fine, had been treated with heparin and anticoagulation.
And suddenly appeared with rapid onset of right lower extremity swelling and pain. So you see here that on an arteriogram of the right femoral, as well as, the super selective catheterization of some of these collaterals.
We can see the lesion itself. I think it's a nice demonstration of lesion. Under any other circumstance, this is an AVM. It is an AVM, but we know it to be acquired because he had no such swelling. This was treated in the only way I knew how to treat
with stenting of the vein. We placed a stent. That's a ballon expanded in the angiogram on your right is after with ballon inflation. And you can see the effect that the stenting pressure, and therefore subsequently occlusion of the compression,
and occlusion of the collaterals, and connections in the vein wall. He subsequently became asymptomatic. We had unfortunately had to stent extensively in the common femoral vein but he had an excellent result.
So I think pelvic AVMs are very similar in location and appearance. We've had 13 cases. Some with a positive history of DVT. I believe many are acquired post-DVT, and the treatment is the same venous coiling and or stent.
Wayne has seen some that are remarkable. Remember Wayne we saw at your place? A guy was in massive heart failure and clearly a DVT-related. So these are some of the cases we've seen
and I think it's noteworthy to keep in mind, that we still don't know everything there is to know about AVMs. Some AVMs are acquired, for example, pelvic post-DVT, and of course all uterine AVMs. Thanks very much.
(audience applause) - [Narrator] That's a very interesting hypothesis with a pelvic AVMs which are consistently looking similar. - [Robert] In the same place right? - [Narrator] All of them are appearing at an older age. - [Robert] Yep.
Yep. - This would be a very, very good explanation for that. I've never thought about that. - Yeah I think-- - I think this is very interesting. - [Robert] And remember, exactly.
And I remember that internal iliac DVT is always a silent process, and that you have this consistency, that I find very striking. - [Woman] So what do you think the mechanism is? The hypervascularity looked like it was primarily
arterial fluffy vessels. - [Robert] No, no, no it's in the vein wall. If you look closely, the arteriovenous connections and the hypervascularity, it's in the vein wall. The lesion is the vein wall,
it's the inflammatory vein. You remember Tony, that the thing that I always think of is how we used to do plain old ballon angioplasty in the SFA. And afterwards we'd get this
florid venous filling sometimes, not every case. And that's the very tight anatomic connection between those two. That's what I think is happening. Wayne? - [Wayne] This amount is almost always been here.
We just haven't recognized it. What has been recognized is dural fistula-- - Yep. - That we know and that's been documented. Chuck Kerber, wrote the first paper in '73 about the microvascular circulation
in the dural surface of the dural fistula, and it's related to venous thrombosis and mastoiditis and trauma. And then as the healing process occurs, you have neovascular stimulation and fistulization in that dural reflection,
which is a vein wall. And the same process happens here with a DVT with the healing, the recanalization, inflammation, neovascular stimulation, and the development of fistulas. increased vascular flow into the lumen
of the thrombosed area. So it's a neovascular stimulation phenomenon, that results in the vein wall developing fistula very identical to what happens in the head with dural fistula had nothing described of in the periphery.
- [Narrator] Okay, very interesting hypothesis.
- Thank you very much for the opportunity to speak carbon dioxide angiography, which is one of my favorite topics and today I will like to talk to you about the value of CO2 angiography for abdominal and pelvic trauma and why and how to use carbon dioxide angiography with massive bleeding and when to supplement CO2 with iodinated contrast.
Disclosures, none. The value of CO2 angiography, what are the advantages perhaps? Carbon dioxide is non-allergic and non-nephrotoxic contrast agent, meaning CO2 is the only proven safe contrast in patients with a contrast allergy and the renal failure.
Carbon dioxide is very highly soluble (20 to 30 times more soluble than oxygen). It's very low viscosity, which is a very unique physical property that you can take advantage of it in doing angiography and CO2 is 1/400 iodinated contrast in viscosity.
Because of low viscosity, now we can use smaller catheter, like a micro-catheter, coaxially to the angiogram using end hole catheter. You do not need five hole catheter such as Pigtail. Also, because of low viscosity, you can detect bleeding much more efficiently.
It demonstrates to the aneurysm and arteriovenous fistula. The other interesting part of the CO2 when you inject in the vessel the CO2 basically refluxes back so you can see the more central vessel. In other words, when you inject contrast, you see only forward vessel, whereas when you inject CO2,
you do a pass with not only peripheral vessels and also see more central vessels. So basically you see the vessels around the lesions and you can use unlimited volumes of CO2 if you separate two to three minutes because CO2 is exhaled by the respirations
so basically you can inject large volumes particularly when you have long prolonged procedures, and most importantly, CO2 is very inexpensive. Where there are basically two methods that will deliver CO2. One is the plastic bag system which you basically fill up with a CO2 tank three times and then empty three times
and keep the fourth time and then you connect to the delivery system and basically closest inject for DSA. The other devices, the CO2mmander with the angio assist, which I saw in the booth outside. That's FDA approved for CO2 injections and is very convenient to use.
It's called CO2mmander. So, most of the CO2 angios can be done with end hole catheter. So basically you eliminate the need for pigtail. You can use any of these cobra catheters, shepherd hook and the Simmons.
If you look at this image in the Levitor study with vascular model, when you inject end hole catheter when the CO2 exits from the tip of catheter, it forms very homogenous bolus, displaces the blood because you're imaging the blood vessel by displacing blood with contrast is mixed with blood, therefore as CO2
travels distally it maintains the CO2 density whereas contrast dilutes and lose the densities. So we recommend end hole catheter. So that means you can do an arteriogram with end hole catheter and then do a select arteriogram. You don't need to replace the pigtail
for selective injection following your aortographies. Here's the basic techniques: Now when you do CO2 angiogram, trauma patient, abdominal/pelvic traumas, start with CO2 aortography. You'll be surprised, you'll see many of those bleeding on aortogram, and also you can repeat, if necessary,
with CO2 at the multiple different levels like, celiac, renal, or aortic bifurcation but be sure to inject below diaphragm. Do not go above diaphragm, for example, thoracic aorta coronary, and brachial, and the subclavian if you inject CO2, you'll have some serious problems.
So stay below the diaphragm as an arterial contrast. Selective injection iodinated contrast for a road map. We like to do super selective arteriogram for embolization et cetera. Then use a contrast to get anomalies. Super selective injection with iodinated contrast
before embolization if there's no bleeding then repeat with CO2 because of low viscocity and also explosion of the gas you will often see the bleeding. That makes it more comfortable before embolization. Here is a splenic trauma patient.
CO2 is injected into the aorta at the level of the celiac access. Now you see the extra vascularization from the low polar spleen, then you catheterize celiac access of the veins. You microcatheter in the distal splenic arteries
and inject the contrast. Oops, there's no bleeding. Make you very uncomfortable for embolizations. We always like to see the actual vascularization before place particle or coils. At that time you can inject CO2 and you can see
actual vascularization and make you more comfortable before embolization. You can inject CO2, the selective injection like in here in a patient with the splenic trauma. The celiac injection of CO2 shows the growth, laceration splenic with extra vascularization with the gas.
There's multiple small, little collection. We call this Starry Night by Van Gogh. That means malpighian marginal sinus with stagnation with the CO2 gives multiple globular appearance of the stars called Starry Night.
You can see the early filling of the portal vein because of disruption of the intrasplenic microvascular structures. Now you see the splenic vein. Normally, you shouldn't see splenic vein while following CO2 injections.
This is a case of the liver traumas. Because the liver is a little more anterior the celiac that is coming off of the anterior aspect of the aorta, therefore, CO2 likes to go there because of buoyancy so we take advantage of buoyancy. Now you see the rupture here in this liver
with following the aortic injections then you inject contrast in the celiac axis to get road map so you can travel through this torus anatomy for embolizations for the road map for with contrast. This patient with elaston loss
with ruptured venal arteries, massive bleeding from many renal rupture with retro peritoneal bleeding with CO2 and aortic injection and then you inject contrast into renal artery and coil embolization but I think the stent is very dangerous in a patient with elaston loss.
We want to really separate the renal artery. Then you're basically at the mercy of the bleeding. So we like a very soft coil but basically coil the entire renal arteries. That was done. - Thank you very much.
- Time is over already? - Yeah. - Oh, OK. Let's finish up. Arteriogram and we inject CO2 contrast twice. Here's the final conclusions.
CO2 is a valuable imaging modality for abdominal and pelvic trauma. Start with CO2 aortography, if indicated. Repeat injections at multiple levels below diaphragm and selective injection road map with contrast. The last advice fo
t air contamination during the CO2 angiograms. 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.
- We are talking about the current management of bleeding hemodialysis fistulas. I have no relevant disclosures. And as we can see there with bleeding fistulas, they can occur, you can imagine that the patient is getting access three times a week so ulcerations can't develop
and if they are not checked, the scab falls out and you get subsequent bleeding that can be fatal and lead to some significant morbidity. So fatal vascular access hemorrhage. What are the causes? So number one is thinking about
the excessive anticoagulation during dialysis, specifically Heparin during the dialysis circuit as well as with cumin and Xarelto. Intentional patient manipulati we always think of that when they move,
the needles can come out and then you get subsequent bleeding. But more specifically for us, we look at more the compromising integrity of the vascular access. Looking at stenosis, thrombosis, ulceration and infection. Ellingson and others in 2012 looked at the experience
in the US specifically in Maryland. Between the years of 2000/2006, they had a total of sixteen hundred roughly dialysis death, due to fatal vascular access hemorrhage, which only accounted for about .4% of all HD or hemodialysis death but the majority did come
from AV grafts less so from central venous catheters. But interestingly that around 78% really had this hemorrhage at home so it wasn't really done or they had experienced this at the dialysis centers. At the New Zealand experience and Australia, they had over a 14 year period which
they reviewed their fatal vascular access hemorrhage and what was interesting to see that around four weeks there was an inciting infection preceding the actual event. That was more than half the patients there. There was some other patients who had decoags and revisional surgery prior to the inciting event.
So can the access be salvaged. Well, the first thing obviously is direct pressure. Try to avoid tourniquet specifically for the patients at home. If they are in the emergency department, there is obviously something that can be done.
Just to decrease the morbidity that might be associated with potential limb loss. Suture repairs is kind of the main stay when you have a patient in the emergency department. And then depending on that, you decide to go to the operating room.
Perera and others 2013 and this is an emergency department review and emergency medicine, they use cyanoacrylate to control the bleeding for very small ulcerations. They had around 10 patients and they said that they had pretty good results.
But they did not look at the long term patency of these fistulas or recurrence. An interesting way to kind of manage an ulcerated bleeding fistula is the Limberg skin flap by Pirozzi and others in 2013 where they used an adjacent skin flap, a rhomboid skin flap
and they would get that approximal distal vascular control, rotate the flap over the ulcerated lesion after excising and repairing the venotomy and doing the closure. This was limited to only ulcerations that were less than 20mm.
When you look at the results, they have around 25 AV fistulas, around 15 AV grafts. The majority of the patients were treated with percutaneous angioplasty at least within a week of surgery. Within a month, their primary patency was running 96% for those fistulas and around 80% for AV grafts.
If you look at the six months patency, 76% were still opened and the fistula group and around 40% in the AV grafts. But interesting, you would think that rotating an adjacent skin flap may lead to necrosis but they had very little necrosis
of those flaps. Inui and others at the UC San Diego looked at their experience at dialysis access hemorrhage, they had a total 26 patients, interesting the majority of those patients were AV grafts patients that had either bovine graft
or PTFE and then aneurysmal fistulas being the rest. 18 were actually seen in the ED with active bleeding and were suture control. A minor amount of patients that did require tourniquet for a shock. This is kind of the algorithm when they look at
how they approach it, you know, obviously secure your proximal di they would do a Duplex ultrasound in the OR to assess hat type of procedure
they were going to do. You know, there were inciting events were always infection so they were very concerned by that. And they would obviously excise out the skin lesion and if they needed interposition graft replacement they would use a Rifampin soak PTFE
as well as Acuseal for immediate cannulation. Irrigation of the infected site were also done and using an impregnated antibiotic Vitagel was also done for the PTFE grafts. They were really successful in salvaging these fistulas and grafts at 85% success rate with 19 interposition
a patency was around 14 months for these patients. At UCS, my kind of approach to dealing with these ulcerated fistulas. Specifically if they bleed is to use
the bovine carotid artery graft. There's a paper that'll be coming out next month in JVS, but we looked at just in general our experience with aneurysmal and primary fistula creation with an AV with the carotid graft and we tried to approach these with early access so imagine with
a bleeding patient, you try to avoid using catheter if possible and placing the Artegraft gives us an opportunity to do that and with our data, there was no significant difference in the patency between early access and the standardized view of ten days on the Artegraft.
Prevention of the Fatal Vascular Access Hemorrhages. Important physical exam on a routine basis by the dialysis centers is imperative. If there is any scabbing or frank infection they should notify the surgeon immediately. Button Hole technique should be abandoned
even though it might be easier for the patient and decreased pain, it does increase infection because of that tract The rope ladder technique is more preferred way to avoid this. In the KDOQI guidelines of how else can we prevent this,
well, we know that aneurysmal fistulas can ulcerate so we look for any skin that might be compromised, we look for any risk of rupture of these aneurysms which rarely occur but it still needs to taken care of. Pseudoaneurysms we look at the diameter if it's twice the area of the graft.
If there is any difficulty in achieving hemostasis and then any obviously spontaneous bleeding from the sites. And the endovascular approach would be to put a stent graft across the pseudoaneurysms. Shah and others in 2012 had 100% immediate technical success They were able to have immediate access to the fistula
but they did have around 18.5% failure rate due to infection and thrombosis. So in conclusion, bleeding to hemodialysis access is rarely fatal but there are various ways to salvage this and we tried to keep the access viable for these patients.
Prevention is vital and educating our patients and dialysis centers is key. Thank you.
Thanks very much, Tom. I'll be talking about thermal ablation on anticoagula is it safe and effective? I have no disclosures. As we know, extensive review of both RF and laser
ablation procedures have demonstrated excellent treatment effectiveness and durability in each modality, but there is less data regarding treatment effectiveness and durability for those procedures in patients who are also on systemic anticoagulation. As we know, there's multiple studies have been done
over the past 10 years, with which we're all most familiar showing a percent of the durable ablation, both modalities from 87% to 95% at two to five years. There's less data on those on the anticoagulation undergoing thermal ablation.
The largest study with any long-term follow up was by Sharifi in 2011, and that was 88 patients and follow-up at one year. Both RF and the EVLA had 100% durable ablation with minimal bleeding complications. The other studies were all smaller groups
or for very much shorter follow-up. In 2017, a very large study came out, looking at the EVLA and RF using 375 subjects undergoing with anticoagulation. But it was only a 30-day follow-up, but it did show a 30% durable ablation
at that short time interval. Our objective was to evaluate efficacy, durability, and safety of RF and EVLA, the GSV and the SSV to treat symptomatic reflux in patients on therapeutic anticoagulation, and this group is with warfarin.
The data was collected from NYU, single-center. Patients who had undergone RF or laser ablation between 2011 and 2013. Ninety-two vessels of patients on warfarin at the time of endothermal ablation were selected for study. That's the largest to date with some long-term follow-up.
And this group was compared to a matched group of 124 control patients. Devices used were the ClosureFast catheter and the NeverTouch kits by Angiodynamics. Technical details, standard IFU for the catheters. Tumescent anesthetic.
And fiber tips were kept about 2.5 centimeters from the SFJ or the SPJ. Vein occlusion was defined as the absence of blood flow by duplex scan along the length of the treated vein. You're all familiar with the devices, so the methods included follow-up, duplex ultrasound
at one week post-procedure, and then six months, and then also at a year. And then annually. Outcomes were analyzed with Kaplan-Meier plots and log rank tests. The results of the anticoagulation patients, 92,
control, 124, the mean follow-up was 470 days. And you can see that the demographics were rather similar between the two groups. There was some more coronary disease and hypertension in the anticoagulated groups, and that's really not much of a surprise
and some more male patients. Vessels treated, primarily GSV. A smaller amount of SSV in both the anticoagulated and the control groups. Indications for anticoagulation.
About half of the patients were in atrial fibrillation. Another 30% had a remote DVT in the contralateral limb. About 8% had mechanical valves, and 11% were for other reasons. And the results. The persistent vein ablation at 12 months,
the anticoagulation patients was 97%, and the controls was 99%. Persistent vein ablation by treated vessel, on anticoagulation. Didn't matter if it was GSV or SSV. Both had persistent ablation,
and by treatment modality, also did not matter whether it was laser or RF. Both equivalent. If there was antiplatelet therapy in addition to the anticoagulation, again if you added aspirin or Clopidogrel,
also no change. And that was at 12 months. We looked then at persistent vein ablation out at 18 months. It was still at 95% for the controls, and 91% for the anticoagulated patients. Still not statistically significantly different.
At 24 months, 89% in both groups. Although the numbers were smaller at 36 months, there was actually still no statistically significant difference. Interestingly, the anticoagulated group actually had a better persistent closure rate
than the control group. That may just be because the patients that come back at 36 months who didn't have anticoagulation may have been skewed. The ones we actually saw were ones that had a problem. It gets harder to have patients
come back at three months who haven't had an uneventful venous ablation procedure. Complication, no significant hematomas. Three patients had DVTs within 30 days. One anticoagulation patient had a popliteal DVT, and one control patient.
And one control patient had a calf vein DVT. Two EHITs. One GSV treated with laser on anticoagulation noted at six days, and one not on anticoagulation at seven days. Endovenous RF and EVLA can be safely performed
in patients undergoing long-term warfarin therapy. Our experience has demonstrated a similar short- and mid-term durability for RF ablation and laser, and platelet therapy does not appear to impact the closer rates,
which is consistent with the prior studies. And the frequency of vein recanalization following venous ablation procedures while on ACs is not worse compared to controls, and to the expected incidence as described in the literature.
This is the largest study to date with follow-up beyond 30 days with thermal ablation procedures on anticoagulation patients. We continue to look at these patients for even longer term durability. Thanks very much for your attention.
- 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.
- Thank you, thanks for the opportunity to present. I have no disclosures. So, we all know that wounds are becoming more prevalent in our population, about 5% of the patient population has these non-healing wounds at a very significant economic cost, and it's a really high chance of lower extremity amputation
in these patients compared to other populations. The five-year survival following amputation from a foot ulcer is about 50%, which is actually a rate that's worse than most cancer, so this is a really significant problem. Now, even more significant than just a non-healing wound
is a wound that has both a venous and an arterial component to it. These patients are about at five to seven times the risk of getting an amputation, the end patients with either isolated venous disease or isolated PAD. It's important because the venous insufficiency component
brings about a lot more inflammation, and as we know, this is associated with either superficial or deep reflux, a history of DVT or incompetent perforators, but this adds an increasing complexity to these ulcers that refuse to heal.
So, it's estimated now about 15% of these ulcers are more of a mixed etiology, we define these as anyone who has some component of PAD, meaning an ABI of under point nine, and either superficial or deep reflux or a DVT on duplex ultrasound.
So we're going to talk for just a second about how do we treat these. Do we revascularize them first, do we do compression therapy? It has been shown in many, many studies, as with most things, that a multi-disciplinary approach
will improve the outcome of these patients, and the first step in any algorithm for these patients involves removing necrotic and infected tissue, dressings, if compression is feasible, based on the PAD level, you want to go ahead and do this secondary, if it's not, then you need to revascularize first,
and I'm going to show you our algorithm at Michigan that's based on summa the data. But remember that if the wounds fail to heal despite all of this, revascularization is a good option. So, based on the data, the algorithm that we typically use is if an ABI is less than point five
or a toe pressure is under 50, you want to revascularize first, I'll talk for a minute about the data of percutaneous versus open in these patients, but these are the patients you want to avoid compression in as a first line therapy.
If you have more moderate PAD, like in the point five to point eight range, you want to consider compression at the normal 40 millimeters of mercury, but you may need to modify it. It's actually been shown that that 40 millimeter of mercury
compression actually will increase flow to those wounds, so, contrary to what had previously been thought. So, revascularization, the data's pretty much equivocal right now, for these patients with these mixed ulcers, of whether you want to do endovascular or open. In diabetics, I think the data strongly favors
doing an open bypass if they have a good autogenous conduit and a good target, but you have to remember, in these patients, they have so much inflammation in the leg that wound healing from the surgical incisions is going to be significantly more difficult
than in a standard PAD patient, but the data has shown that about 60% of these ulcers heal at one year following revascularization. So, compression therapy, which is the mainstay either after revascularization in the severe PAD group or as a first line in the moderate group,
is really important 'cause it, again, increases blood flow to the wound. They've shown that that 40 millimeters of mercury compression is associated with a significant healing rate if you can do that, you additionally have to be careful, though,
about padding your bony areas, also, as we know, most patients don't actually keep their compression level at that 40, so there are sensors and other wearable technologies that are coming about that help patients with that, keeping in mind too, that the venous disease component
in these patients is really important, it's really important to treat the superficial venous reflux, EVLT is kind of the standard for that, treatment of perforators greater than five, all of that will help.
And I'm not going to go into any details of wound dressings, but there are plenty of new dressings that are available that can be used in conjunction with compression therapy. So, our final algorithm is we have a patient with these mixed arterial venous ulcers, we do woundcare debridement, determine the degree of PAD,
if it's severe, they go down the revascularization pathway, followed by compression, if it's moderate, then they get compression therapy first, possible treatment of venous disease, if it still doesn't heal at about 35 weeks, then you have to consider other things,
like biopsy for cancer, and then also consider revacularization. So, these ulcers are on a rise, they're a common problem, probably we need randomized control trials to figure out the optimal treatment strategies.
- Thank you Mr. Chairman. Ladies and gentleman, first of all, I would like to thank Dr. Veith for the honor of the podium. Fenestrated and branched stent graft are becoming a widespread use in the treatment of thoracoabdominal
and pararenal aortic aneurysms. Nevertheless, the risk of reinterventions during the follow-up of these procedures is not negligible. The Mayo Clinic group has recently proposed this classification for endoleaks
after FEVAR and BEVAR, that takes into account all the potential sources of aneurysm sac reperfusion after stent graft implant. If we look at the published data, the reported reintervention rate ranges between three and 25% of cases.
So this is still an open issue. We started our experience with fenestrated and branched stent grafts in January 2016, with 29 patients treated so far, for thoracoabdominal and pararenal/juxtarenal aortic aneurysms. We report an elective mortality rate of 7.7%.
That is significantly higher in urgent settings. We had two cases of transient paraparesis and both of them recovered, and two cases of complete paraplegia after urgent procedures, and both of them died. This is the surveillance protocol we applied
to the 25 patients that survived the first operation. As you can see here, we used to do a CT scan prior to discharge, and then again at three and 12 months after the intervention, and yearly thereafter, and according to our experience
there is no room for ultrasound examination in the follow-up of these procedures. We report five reinterventions according for 20% of cases. All of them were due to endoleaks and were fixed with bridging stent relining,
or embolization in case of type II, with no complications, no mortality. I'm going to show you a couple of cases from our series. A 66 years old man, a very complex surgical history. In 2005 he underwent open repair of descending thoracic aneurysm.
In 2009, a surgical debranching of visceral vessels followed by TEVAR for a type III thoracoabdominal aortic aneurysms. In 2016, the implant of a tube fenestrated stent-graft to fix a distal type I endoleak. And two years later the patient was readmitted
for a type II endoleak with aneurysm growth of more than one centimeter. This is the preoperative CT scan, and you see now the type II endoleak that comes from a left gastric artery that independently arises from the aneurysm sac.
This is the endoleak route that starts from a branch of the hepatic artery with retrograde flow into the left gastric artery, and then into the aneurysm sac. We approached this case from below through the fenestration for the SMA and the celiac trunk,
and here on the left side you see the superselective catheterization of the branch of the hepatic artery, and on the right side the microcatheter that has reached the nidus of the endoleak. We then embolized with onyx the endoleak
and the feeding vessel, and this is the nice final result in two different angiographic projections. Another case, a 76 years old man. In 2008, open repair for a AAA and right common iliac aneurysm.
Eight years later, the implant of a T-branch stent graft for a recurrent type IV thoracoabdominal aneurysm. And one year later, the patient was admitted again for a type IIIc endoleak, plus aneurysm of the left common iliac artery. This is the CT scan of this patient.
You will see here the endoleak at the level of the left renal branch here, and the aneurysm of the left common iliac just below the stent graft. We first treated the iliac aneurysm implanting an iliac branched device on the left side,
so preserving the left hypogastric artery. And in the same operation, from a bowl, we catheterized the left renal branch and fixed the endoleak that you see on the left side, with a total stent relining, with a nice final result on the right side.
And this is the CT scan follow-up one year after the reintervention. No endoleak at the level of the left renal branch, and nice exclusion of the left common iliac aneurysm. In conclusion, ladies and gentlemen, the risk of type I endoleak after FEVAR and BEVAR
is very low when the repair is planning with an adequate proximal sealing zone as we heard before from Professor Verhoeven. Much of reinterventions are due to type II and III endoleaks that can be treated by embolization or stent reinforcement. Last, but not least, the strict follow-up program
with CT scan is of paramount importance after these procedures. I thank you very much for your attention.
- [Bill] Thank you Vikay. I think this is an interesting topic for many reasons but one of the key ones is that if you look at our health care policies by insurers, this tends to define our practice. So I looked at BlueCross BlueShield's policy and they say that treatment of the GSV or SSV
is medically necessary when there is demonstrated saphenous reflux and I looked for more and there was no more. That's all they said so they must think that reflux a time correlates with venous severity. So is this true?
I think, personally, that there are other things that are involved and that volume is really the key. Time, velocity and the diameter of the vein are likely all part of the process and we all know that obstruction
is also critically important as well and probably the worse patients are those that have both reflux and obstruction. Probably reflux is worse in the deep system but we know that large GSV and SSV patients can develop CEAP four to six symptoms
and do very well with saphenous ablations. And I think this is a nice analogy. I love this guy, it looks like he came off of his lawn chair to help the firefighters out but he's probably not going to do so much with his little garden hose now, is he?
So I think size and velocity do matter. What does the literature tell us? Chris Lattimer and his group have done an elegant set of studies looking at how various parameters correlate to air plethysmography and venous filling times. They did show that there is a correlation
between venous filling time and reflux time. However, other things were probably more correlated such as GSV diameter and reflux velocity. And in this nice study of 300 patients they found that there was a relatively weak correlation between reflux time and clinical severity
and their conclusion was that it was a good parameter to identify reflux but not for quantifying the severity. So here's how we use this clinically in my practice. So you see many patients such as this that have mixed venous disease.
53-year-old female, severe edema. You do her studies and she's got reflux in the deep and the superficial system. So how to we decide if saphenous ablation is going to help this patient or not and correct these symptoms, prevent further ulcerations?
So all reflux is not created equal. The top is a popliteal tracing where the maximum reflux velocity is about five centimeters per second versus the bottom one that's about thirty to forty centimeters per second
so these probably aren't going to behave similarly in when we look at them. So we studied this in 75 patients and reported this back in 2008. We look at the maximum reflux velocity in the popliteal vein to tell if these patients
would improve after we ablated their saphenous or not. We found that this was a significant predictor of both improvement in venous filling index and the venous clinical severity score so we think velocity really does matter. And this is where we're seeing this clinically.
This is a patient that was referred to me for a second opinion concerning whether she would need ablation of her great saphenous vein. And this is the reflux tracing and you can see the scale here is turned up so that this is a measurement of reflux at about two centimeters per second.
This was used to document abnormal reflux and to justify ablation of the saphenous. So I checked one of our tracings. This is what it looks like.
- [Narrator] So my assignment is, CMS policy update on non-thermal ablation techniques, and as most of you know, there is not one National CMS policy, so there are a variety of local cover determinations or policies that we're going to look at. I may bore you for a couple minutes
but I found a surprise at the end. So I went to the website, CMS website, and looked up varicose vein LCDs and these seven came up, interestingly Novitas, everybody's favorite, didn't come. So I looked at separately, we're going to look at all these as well.
And here is Novitas, Novitas and their previous LCD had no mention of non-thermal techniques, but in this proposed LCD, which has a lot of people up in arms, they say that the non-thermal techniques are experimental, investigational, and unproven,
and therefore will not be covered. This is next LCDs, this is two from Medicare contractor Noridian, they go on to talk about sclerotherapy and foam sclerotherapy, but they are not going to cover it. And somewhat bizarrely these codes in red here,
which are for Venaseal and Verithena, are listed as indications for RF or laser ablation, which kind of shows you they don't know what they're talking about. And there is no mention of MOCA or Claravein. Wisconsin Physicians Services and other MAC contractor,
and I looked at their LCD, there is no mention of non-thermal techniques. Next up is First Coast Service Options, with these jurisdictions over here on the right. And they get down to the C-classification, VCSS score, and talk about compressive therapy and conservative therapy.
They do mention Clarivein or MOCA. However, they state that it does not meet the Medicare necessity for coverage, and so they won't. And there's absolutely no mention of Verithena or Venaseal in their LCD. Palmetto GBA is another contractor,
with these jurisdictions on the right, and they actually discuss and approve Varithena, microfoam sclerotherapy. They discuss it here in their LCD, they have some restrictions that the physician needs to be competent and experienced with Varithena,
and ultrasound, there is no mention of Clarivein or Venaseal in their LCD. And these are also the folks that tell us how to do stab phlebectomy with 2 mm incisions and a crochet hook. So don't use a 3 mm incision and a hemostat,
it'd probably get denied. Next is CGS Administrators, and this busy slide, they go on to talk about sclerotherapy quite a bit, and all these in the main body, what they are not going to cover for sclerotherapy. They mention that foam sclerotherapy
is basically the same as liquid sclerotherapy, and therefore will not cover it, and again no mention of other treatments of non-thermal techniques. Which brings us to the last LCD, which is National Government Services,
and amazingly they state that the accepted treatments for eliminating reflux and the great saphenous anterior accessory, and small saphenous vein, include RFA, laser, polidocanol, Venaseal, and Verithena. And even more interestingly, they use their Rationale for Determination for MOCA.
The amount and consistency of the data, in addition to the two recent systematic reviews and the strong recommendation of the American Venous Forum, have convinced NGS that Medicare coverage is met. And for PEM, Varithena, the combination of RCTs, meta-analyses, systematic reviews,
the strong recommendation of the AVF, and endorsements from the SVS, ACP, SCAI, and SIR, have convinced them that coverage is appropriate. And the same for Venaseal, same thing. This is craziness. On one Medicare hand,
you have Novitas saying that, treatment is experimental and unproven, and they won't cover it. And on the other Medicare hand, you have this contractor that says, based on the recommendations of the experts,
that it's appropriate, and will be covered. And this is the reason why we need a National Coverage Determination. So, to find out what your policy is, you have to go to the website, you have to find out who your provider is,
or contractor, and see what the policy cause it differs depending upon where you are. Thank you for your attention.
- Thank you very much indeed, Chairman. Ladies and gentleman, thank you very much for the podium. Right, my opponent Professor Hogan, has just given his statement asking you to abandon two fenestrated endovascular repairs in favor of three and four fenestrations, but this picture proves to you that during his spare time,
he's actively promoting single fenestration devices, actually. Just keep that in mind. My contention is that three and four branch fenestrated EVARs result in higher complications and higher mortality, which means that they should be avoided if at all possible.
What exactly are the critical issues that are at question here? Do four fenestrated endovascular repairs carry higher risk of complications compared to simpler devices? If they do, are the worth it? However, my opponent is also one of the world's
experts in this area. We've definitely learned quite a lot from him in the early stage of our program about 10-13 years ago. So, he usually has something sensible to say, has he got a point? My plan for this debate is to give you a very balanced view
based on multicenter data. Don't forget, the very compelling data Eric showed you are his single-center series. It is not easy to replicate his results in most other centers. I also would like to keep the debate clean.
Now, coming to the facts, four fenestrated repairs, beyond a doubt, just take more operating time than simpler devices. They're also technically one of the most challenging of aneurysm repairs that you do. They do test your center and team's experience.
Definitely in extricating oneself from intra-operator difficulties, and also, experience gives you the confidence through the operation that you will see the day through. It's also the case that the greater length of aorta is covered by stent graft fabric,
the more lumbars are taken, compromising the spinal cord blood supply further, which is a significant factor. This is a multicenter series from UK, from Terumo Aortic, their Anaconda Fenestrated platform multicenter series of their first 101 devices.
You notice that when the seals are extended to above celiac axis, which means four fenestrated devices, they had a much higher mortality compared to simpler devices. There's also the British Society of Endovascular Therapies Globalstar registry, which I run, currently has got
just over 850 patients registered, and we had data adequate for analysis in 533 patients. Being a much more spread out multicenter series, the results are worse. And you notice that three and four fenestrated devices in this pragmatic multicenter nationwide series
have got a much higher, substantially higher, death rate compared to simpler devices, which is statistically significant. In the long run, up to about four to five years, you notice that four fenestrated do carry a higher, slightly higher risk of re-intervention,
but the overall mortality is not hugely different. The numbers do dwindle. There are very few numbers up to ten years. So, it's not worth looking after 40 years of research. Paraplegia, the Globalstar registry had a total of six paraplegia occurrences reported.
Five of those are in patients who had four fenestrated devices put in. This is definitely worth remembering. It is a complication that really sinks you hard. So, in conclusion, the complexity of device should actually not be compared
without the context of anatomy. Frequently, to get an adequate and durable seal, you do need four fenestrations. However, remember, multicenter series do conclusively show that four fenestrateds are definitely more dangerous compared to the simpler of the devices.
However, this increased risk has to be compared against the perceived risk of alternative treatments such as open repair. So to conclude, Chairman, ladies and gentlemen, the primary aim of fenestrated repair is actually to achieve satisfactory seal zone, which I would say,
which I would say probably at least 20 millimeters of aorta, which is relatively free from calcification or thrombus. That is the bare minimum we should be looking at to get a durable seal. While that is the primary concern, and we need to incorporate as many number of fenestrations
as are technically required depending on your platform that you wish to use. The number of fenestrations themselves are, in fact, secondary and less important. However, if you are able to achieve such a good durable seal without using three or four fenestrations,
more complex devices are certainly not worth it. Thank you very much for your attention.
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