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The safety and efficacy of the StarClose® vascular closure system: The ultrasound substudy of the CLIP study
Author(s) -
Jaff M.R.,
Hadley G.,
Hermiller J.B.,
Simonton C.,
Hinohara T.,
Can L.,
Reisman M.,
Braden G.,
Fletcher D.R.,
Zapien M.,
Chou T.M.,
DiDonato K.
Publication year - 2006
Publication title -
catheterization and cardiovascular interventions
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.988
H-Index - 116
eISSN - 1522-726X
pISSN - 1522-1946
DOI - 10.1002/ccd.20898
Subject(s) - arteriotomy , medicine , vascular closure device , femoral artery , percutaneous , pseudoaneurysm , surgery , arteriovenous fistula , hemostasis , radiology , clinical endpoint , hematoma , randomized controlled trial , artery , complication
Abstract Background : The StarClose® Vascular Closure System (Abbott Vascular, Redwood City, CA) features a nitinol clip that is designed to achieve closure of the femoral arteriotomy access site. The CLIP Study was performed to assess the safety and efficacy of StarClose when compared with standard manual compression following 5–6 French diagnostic or interventional percutaneous procedures. A substudy of this trial was designed to assess the utility of duplex ultrasonography to assess patency of the femoral artery and to determine access site complications (pseudoaneurysm, arteriovenous fistula, hematoma, deep vein thrombosis) in a multicenter prospective trial. This is the report of the duplex ultrasound (DUS) substudy of the CLIP trial. Methods : A total of 17 U.S. sites enrolled 596 subjects with 483 subjects randomized at a 2:1 ratio to receive StarClose or manual compression of the arteriotomy after a percutaneous procedure. The study included roll‐in ( n = 113), diagnostic ( n = 208), and interventional ( n = 275) arms with a primary safety endpoint of major vascular complications through 30 days and a primary efficacy endpoint of postprocedure time to hemostasis. A substudy of the CLIP interventional arm evaluated DUS images of the closure site at five study sites, targeting 100 subjects at day 30 following hemostasis. The DUS protocol was devised and implemented by an independent vascular ultrasound core laboratory with extensive experience in vascular device trials. DUS inguinal region from 6 cm proximal to 6 cm distal to the arteriotomy puncture was performed. A qualitative examination was performed to determine the presence of iatrogenic vascular injuries: hematoma, pseudoaneurysm (PSA), arteriovenous fistula (AVF), and arterial/venous thrombosis or stenosis using 2‐dimensional gray scale, color, and focused Doppler images. Results : DUS of 96 subjects randomized to StarClose ( n = 71) and compression ( n = 25) were performed and evaluated. There was no evidence of hematoma, PSA, or AVF observed in the StarClose group. No StarClose subjects in the substudy had a PSA or AVF. All patients in the substudy demonstrated patency of the access site artery and vein without thrombosis or stenosis. Finally, in the entire study cohort, no clinically‐driven DUS studies demonstrated iatrogenic vascular injury or vessel thrombosis in the StarClose treated patients. Conclusion : DUS, a safe and reliable method for determining the safety and efficacy of access site closure devices, is a reliable, safe, inexpensive and accurate method of assessing vascular access site complications in multicenter trials. In this substudy of the CLIP study, DUS found no statistical difference in access site complications between the StarClose and manual compression groups. Both groups maintained vessel patency without stenosis, thrombosis, hematoma, pseudoaneurysm, or AV fistula. © 2006 Wiley‐Liss, Inc.

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