Carlos F. Bechara, MD, Suman Annambhotla, MD, Peter H. Lin, MD

Slides:

Advertisements

Similar presentations

Peripheral vessel: mechanical or chemical closure

Advertisements

Vascular Closure Devices. What is a Closure Device Vascular closure devices seal the puncture site in an artery (the arteriotomy) through mechanical means.

Percutaneous Insertion Use and Contraindications.

Nelson Lim Bernardo, MD Washington Hospital Center

Transfemoral Access Devices & Tips for Closures Devices

Ravi K. Ghanta, MD, John A. Kern, MD

“Pre-Close” Technique: A Step-by-Step Description

Catheter-less angiography for endovascular aortic aneurysm repair: A new application of carbon dioxide as a contrast agent Enrique Criado, MD, Loay Kabbani,

Osvaldo J. Yano, MD, Peter L

Outcomes of total percutaneous endovascular aortic repair for thoracic, fenestrated, and branched endografts Leonardo R. de Souza, MD, Gustavo S. Oderich,

Human transluminally placed endovascular stented grafts: Preliminary histopathologic analysis of healing grafts in aortoiliac and femoral artery occlusive.

Endovascular aortounifemoral grafts and femorofemoral bypass for bilateral limb- threatening ischemia Takao Ohki, MD, Michael L. Marin, MD, Frank J. Veith,

Preloaded guidewires to facilitate endovascular repair of thoracoabdominal aortic aneurysm using a physician-modified branched stent graft Gustavo S.

Ravi K. Ghanta, MD, John A. Kern, MD

Application of gelatin sponge sandwich as a hemostatic aid to percutaneous suture- mediated arteriotomy closure Uei Pua, MBBS, MMed, FRCR, FAMS Journal.

Intraprocedural imaging: Thoracic aortography techniques, intravascular ultrasound, and special equipment Rodney A. White, MD, Carlos E. Donayre, MD,

Endovascular Treatment of Acute Descending Thoracic Aortic Dissections

Three new techniques for creation of a steerable sheath, a 4F snare, and bidirectional sheath inversion using existing endovascular materials Alexandros.

Toshifumi Kudo, MD, PhD, Kenneth K. Kao, BA, Scott D

Technique for obtaining proximal intraluminal control when arteries are inaccessible or unclampable because of disease or calcification Frank J. Veith,

Endovascular techniques for arch vessel reconstruction

Femoral artery calcification as a determinant of success for percutaneous access for endovascular abdominal aortic aneurysm repair Jesse M. Manunga,

Creating arteriovenous fistula using an automatic anastomotic device

Mark R. Nehler, MD, W. Andrew Lawrence, MD, Thomas A

Daniel F. Leotta, PhD, Benjamin W. Starnes, MD

Novel technique for endovascular salvage of a folded aortic endograft

Endovascular repair of thoracoabdominal aortic aneurysm using the off-the-shelf multibranched t-Branch stent graft Bernardo C. Mendes, MD, Gustavo S.

Endoleak management and postoperative surveillance following endovascular repair of thoracic aortic aneurysms Joseph J. Ricotta, MD Journal of Vascular.

Vision of relevant technologic progress for the next two decades

Michael L. Marin, MD, Frank J. Veith, MD, Thomas F

Initial experience with the Ventana fenestrated system for endovascular repair of juxtarenal and pararenal aortic aneurysms Andrew Holden, MD, Renato.

Failure modes of thoracic endografts: Prevention and management

True lumen re-entry devices facilitate subintimal angioplasty and stenting of total chronic occlusions: Initial report Donald L. Jacobs, MD, Raghunandan.

Endovascular aortic aneurysm repair with carbon dioxide-guided angiography in patients with renal insufficiency Enrique Criado, MD, Gilbert R. Upchurch,

Complications associated with the Angio-Seal arterial puncture closing device: Intra- arterial deployment and occlusion by dissected plaque Einar Dregelid,

Shane S. Parmer, MD, Jeffrey P. Carpenter, MD

Recanalization of flush iliac occlusions with the assistance of a contralateral iliac occlusive balloon Carlos F. Bechara, MD, MS, Neal R. Barshes, MD,

Matthew P. Sweet, MD Journal of Vascular Surgery

In situ fenestration in the aortic arch

Physician modification of Gore C3 excluder endograft for treatment of abdominal aortic aneurysms anatomically unsuitable for conventional endovascular.

Techniques in occluding the aorta during endovascular repair of ruptured abdominal aortic aneurysms Mark Edward O’Donnell, DSEM, MRCS, Stephen A. Badger,

Use of a percutaneous puncture needle for true lumen re-entry during subintimal recanalization of the superficial femoral artery Amr M. Aborahma, MD

Endovascular abdominal aortic aneurysm repair in patients with common iliac artery aneurysms – Initial experience with the Zenith bifurcated iliac side.

Technical aspects of repair of juxtarenal abdominal aortic aneurysms using the Zenith fenestrated endovascular stent graft Gustavo S. Oderich, MD, Mateus.

Mark R. Nehler, MD, W. Andrew Lawrence, MD, Thomas A

In situ bending of thoracic stent grafts: Clinical application of a novel technique to improve conformance to the aortic arch Tilo Kölbel, MD, PhD, Nuno.

Endovascular creation of aortic dissection in a swine model with technical considerations Teruaki Okuno, MD, Masato Yamaguchi, MD, Takuya Okada, MD,

Retrograde popliteal approach for challenging occlusions of the femoral-popliteal arteries Meng Ye, PhD, MD, Hao Zhang, MD, PhD, Xiaozhong Huang, MD,

Juan Carlos Parodi, MD Journal of Vascular Surgery

Successful endovascular repair of an aneurysm of the ductus diverticulum with a branched stent graft: Case report and review of literature Naritatsu.

Conduits and endoconduits, percutaneous access

Dual guidewire placement to enhance arch vessel origin identification: A simple technique to facilitate ostial aortic arch vessel stenting Nasim Hedayati,

Aortic dissection: Percutaneous management of ischemic complications with endovascular stents and balloon fenestration Suzanne M. Slonim, MD, Ulf Nyman,

Juan Carlos Jimenez, MD, Wesley S. Moore, MD, William J

Off-label use of Angio-Seal vascular closure device for the repair of femoral pseudoaneurysm after transfemoral coronary intervention Yusuke Watanabe,

Prolonged renal artery occlusion after endovascular aneurysm repair: Endovascular rescue and renal function salvage Nasim Hedayati, MD, Peter H. Lin,

Jasper W. van Keulen, MD, Frans L. Moll, MD, PhD, Joost A

Endovascular aneurysm repair for ruptured abdominal aortic aneurysm: The Albany Vascular Group approach Manish Mehta, MD, MPH Journal of Vascular Surgery

Daniel S. Kassavin, MD, Daniel G. Clair, MD

Endovascular abdominal aortic aneurysm repair in patients with common iliac artery aneurysms – Initial experience with the Zenith bifurcated iliac side.

Development of four different devices to turn over introducer sheaths

New temporary internal introducer shunt for brain perfusion during total endovascular arch replacement with in situ fenestration technique Björn Sonesson,

Carlos F. Bechara, MD, MS, Neal R

Alternative techniques for management of distal anastomoses of aortofemoral and iliofemoral endovascular grafts Reese A. Wain, MD, Ross T. Lyon, MD,

Shane S. Parmer, MD, Jeffrey P. Carpenter, MD

Fenestrated endovascular repair for juxtarenal aortic pathology

John L. Anderson, Donald J. Adam, MD, Michael Berce, David E. Hartley

Cutting Balloon Angioplasty to Relieve Femoral Artery Occlusion Associated with a Vascular Closure Device Shane D. O'Keeffe, Jacob Perry, David J. Minion,

Transfemoral endovascular aortic graft placement

Use of a percutaneous puncture needle for true lumen re-entry during subintimal recanalization of the superficial femoral artery Amr M. Aborahma, MD

Presentation transcript:

Access site management with vascular closure devices for percutaneous transarterial procedures Carlos F. Bechara, MD, Suman Annambhotla, MD, Peter H. Lin, MD Journal of Vascular Surgery Volume 52, Issue 6, Pages 1682-1696 (December 2010) DOI: 10.1016/j.jvs.2010.04.079 Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 1 Deployment of Angio-Seal closure device. A, The Angio-Seal sheath is placed within the vessel via the existing guidewire. It is advanced until blood flows out through the exit hole in the dilator as shown. It is then withdrawn until blood flow ceases and is advanced until the blood flow restarts. B, Locator and guidewire are removed. The Angio-Seal is inserted fully into the sheath with two arrows on the sheath and device assembly meeting. The anchor will then be released beyond the sheath tip. The barrel of the device is retracted with a double “click,” and the whole assembly is then withdrawn. The anchor will be fixed against the inside of the vessel by gentle traction. A tamper becomes visible on the suture as the sheath is removed. C, Once fully visible, the tamper is advanced forward to tie a knot over the collagen plug, which becomes compressed against the puncture site. The suture is then cut above the tamper, and the tamper is removed. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 2 Groin exploration after a young female complained of right leg claudication subsequent to intracranial aneurysm embolization. Angio-Seal was used for arteriotomy closure, which resulted in inadvertent plug deployment within the intraluminal space. The plug was removed and the femoral artery repaired with bovine patch angioplasty. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 3 Deployment of VasoSeal closure device. A, The arteriotomy locator is inserted through an introducer into the sheath. B, With occlusive pressure above the arteriotomy, the sheath is removed, and the locator is retracted until the J-segment is deployed. The entire segment is retracted until resistance is felt. C, The white tissue dilator is advanced, followed by the blue sheath dilator, until a marker indicates the tip is at the arteriotomy site. D, Locator and tissue dilator are removed, leaving only the outer sheath. The collagen cartridge is inserted into the sheath and the plunger is advanced initially; then the sheath is retracted to fully deploy the collagen plug. The sheath is removed, and pressure is applied to the skin until hemostasis is achieved. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 4 Deployment of the Duett closure device. A, The 3F catheter is advanced through the working sheath which has a balloon at its tip. The balloon is inflated with a syringe and is retracted until it engages the arterial wall at the puncture site. B, Procoagulant mixture is then delivered through the sheath side arm directly to the puncture site and continued as the sheath is retracted. The entire subcutaneous tract is filled and thrombosed. C, The balloon is deflated, and the catheter and sheath are removed. The skin is compressed for 2 to 5 minutes. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 5 Deployment of the Perclose closure device. A, Insertion and positioning of the 6F Perclose device over the wire into the femoral access site until pulsatile flow through the marker lumen is seen indicating an adequate intraluminal device position. B, Deployment of foot and positioning against the arterial wall by pulling the device upward in preparation for needle deployment. Sutures are deployed around the arteriotomy and are pulled from the device outside the skin. C, The pre-tied knot is pushed down using the knot pusher that comes with the device. Once hemostasis is achieved, the suture is cut using a knot cutter. The final suture lies securely around the arteriotomy to achieve hemostasis. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 6 Deployment of the SuperStitch closure device. A, The device is advanced through an existing sheath. The first button is depressed which opens out the suture arms. B, The device is retracted against the vessel wall. C, The second button is depressed, which deploys the needles. D, The third bottom is activated which closes the suture. E, The needles retract and draw the sutures out of the vessel. F, The knot can be tied manually or by using the Kwiknot device. The Kwiknot ties and cuts the suture close to the vessel wall. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 7 Deployment of the StarClose closure device. A, The sheath is introduced first over a wire followed by the StarClose device that is inserted into the sheath after wire removal. The vessel locator button is depressed. The device is pulled out until resistance is felt. The advancement of the thumb advancer completes the splitting of the sheath. The device is raised to an angle of slightly less than 90°. B, The clip is deployed to catch adventitia for hemostasis and the device is retracted. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 8 Deployment of the Boomerang closure device. A, The wire is inserted through an existing sheath. B, The tip is deployed and opens into a conformable disc. C, The sheath is removed; this tamponades the arteriotomy. D, The device is pulled after collapsing the disc, and light manual compression is applied until hemostasis is achieved. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 9 Using a Perclose Prostar device in endovascular aortic stent-grafting procedure. A, Access to the common femoral artery is confirmed angiographically. B, The 10F Prostar XL is advanced over the wire. This should be done under fluoroscopic guidance since the device is long and the tip ends up the aortic bifurcation. C, When pulsatile flow is seen, this indicates that the device with its sutures is intraluminal. The needles are deployed while maintaining gentle forward pressure to keep the device intraluminal. D, T sutures are deployed around the arteriotomy and are checked for intraluminal position by applying a gentle pull. This means the sutures did catch the arterial wall. There is a green and a white suture, which are separated and tagged until the end of the case. Prior to removing the device (white tip device in figure B), a wire is reintroduced to place a sheath to proceed with PEVAR. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions

Fig 10 Using a Perclose Prostar device in endovascular aortic stent-grafting procedure (continued from Fig 9). A, When an endovascular aortic procedure is completed, the pre-deployed sutures of a Perclose Prostar device are ready for knot tying. The white structure in these figures is the sheath. Both sutures are pulled upward to create an upward suture tension, making sure the same colored sutures are together. The operator has to form a knot, and one end, which locks the knot, called the non-rail end, is left alone till the knot is pushed all the way down to the arteriotomy site. B, Endovascular sheath is removed and both suture rails (white and green) are pulled gently. This slides the knot down to the femoral arterial wall. C, A knot pusher is used when the sheath is removed. If hemostasis is satisfactory, the non-rail suture is pulled to secure the knot on both sutures. D, Once the hemostasis is achieved, extra sutures are cut. Journal of Vascular Surgery 2010 52, 1682-1696DOI: (10.1016/j.jvs.2010.04.079) Copyright © 2010 Society for Vascular Surgery Terms and Conditions