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Commentary

Vascular Access Closure Devices: In Search of “Perfect” Closure

Adhir Shroff, MD, MPH
April 2011
The demand for vascular access closure devices (VCD) has grown in conjunction with the rapid expansion of percutaneous coronary intervention (PCI). As the vast majority of invasive cardiovascular procedures are performed using femoral arterial access,1 closure of this arteriotomy site is an integral component of every case. Closure devices were initially introduced into clinical use in the mid 1990s for the purposes of reducing vascular complications and to improve patient comfort following cardiac catheterization. The utilization of vascular closure devices has grown to keep pace with procedural volume over the past 15 years, but their utility has been in question for almost as long.2 The optimal VCD is one that achieves reliable closure of the arteriotomy in a painless, cost-effective manner with minimal injury to the artery. Other metrics that are important in defining an optimal device include decreasing time to ambulation and ease of use. In this issue of the Journal, Lupi et al report their large, single-center experience with the Angio-Seal Evolution (ASE; St. Jude Medical, Minneapolis, Minnesota). Their case series included 451 patients who underwent arteriotomy closure with an ASE after having a PCI or diagnostic catheterization using a 6 Fr sheath.3 Femoral angiography was performed on all of these patients to insure suitability for closure. They compared their outcomes with a propensity score-matched group of patients who underwent manual compression in 2007 at their center. The overall complication rate with either strategy was very low. They observed an increased rate of groin hematomas (> 5 cm) in the ASE group (5.5% vs. 2.7%). In addition, 1.8% of patients had early failure of the VCD. They found that early failure of the VCD was associated with an increased risk for subsequent major and minor vascular complications. Prior research studies have been inconsistent in showing the benefits of these devices on prevention of vascular complications. This study continues in that tradition. A recent meta-analysis of randomized trials of VCDs reported no difference in the rate of adverse vascular events or bleeding among patients who received a VCD or manual compression.4 Biancari et al noted that among patients who received a VCD there was a small increase in the rate of groin infections, but they had a decrease in time to hemostasis. In three separate meta-analyses from 2004, two studies concluded that VCDs were, at best, equivalent to manual compression in terms of preventing vascular complications,5,6 while one suggested there may be some benefit with particular VCDs and harm with others.7 Vascular complications occur after catheter-based procedures at a rate of 2–6%, but are clearly related to patient and procedural complexity.8 Diagnostic catheterization with a 4/5 Fr sheath has a vascular complication rate of 0.4–0.7%,9 while patients undergoing emergent PCI with a large sheath have access-site complication rates of > 3%.10 Well-established predictors of vascular complications following PCI include advanced age, female gender, level of anticoagulation and patients with acute coronary syndromes.10 Directed studies in high-risk cohorts may identify an opportunity for VCDs to provide benefit. For instance, Chevalier et al demonstrated a decrease in need for prolonged compression in the VCD group, but no difference in other vascular complications in a high-risk, post-PCI study population.11 The AHA recently published a Scientific Statement regarding this topic12 and recommended a balanced approach for the use of VCDs with the intention to achieve hemostasis faster, shorter duration of bed rest and possibly improve patient comfort (Class IIa). They recommended against using a VCD strictly to decrease vascular access-site complications (Class III). These devices improve time to hemostasis and decrease time to ambulation, but according to the current literature, their impact on vascular complications are, at best, no different than manual compression, and in some cases, possibly worse. Incorporating risk stratification for vascular complications may identify which patient will benefit most from a VCD. Use of smaller sheaths and anticoagulation choices can alter access-site complications. Finally, alternative access strategies such as transradial access will dramatically impact vascular complication rates. But for now, the search for the perfect VCD continues.

References

  1. Rao S, Ou F, Wang T, et al. Trends in the Prevalence and Outcomes of Radial and Femoral Approaches to Percutaneous Coronary Intervention: A report from the National Cardiovascular Data Registry. J Am Coll Cardiol Intv 2008;1:379–386.
  2. Grollman J. Percutaneous arterial access closure: Now do we have the be all and end all? Not yet! Catheter Cardiovasc Interv 2000;49:148–149.
  3. Lupi A, Lazzero M, Plebani L, et al. Safety and efficacy of Angio-Seal evolution closure device: A single-center experience. J Invasive Cardiol 2011;23:150–155.
  4. Biancari F, D'Andrea V, Marco CD, et al. Meta-analysis of randomized trials on the efficacy of vascular closure devices after diagnostic angiography and angioplasty. Am Heart J 2010;159:518–531.
  5. Nikolsky E, Mehran R, Halkin A, et al. Vascular complications associated with arteriotomy closure devices in patients undergoing percutaneous coronary procedures: A meta-analysis. J Am Coll Cardiol 2004;44:1200–1209.
  6. Koreny M, Riedmuller E, Nikfardjam M, et al. Arterial puncture closing devices compared with standard manual compression after cardiac catheterization: Systematic review and meta-analysis. JAMA 2004;291:350–357.
  7. Vaitkus PT. A meta-analysis of percutaneous vascular closure devices after diagnostic catheterization and percutaneous coronary intervention. J Invasive Cardiol 2004;16:243–246.
  8. Dauerman H, Applegate R, Cohen D. Vascular closure devices: The second decade. J Am Coll Cardiol 2007;50:1617–1626.
  9. Bashore TM, Bates ER, Berger PB, et al. American College of Cardiology/Society for Cardiac Angiography and Interventions Clinical Expert Consensus Document on cardiac catheterization laboratory standards. A report of the American College of Cardiology Task Force on Clinical Expert Consensus Documents. J Am Coll Cardiol 2001;37:2170–2214.
  10. Piper WD, Malenka DJ, Ryan TJ Jr, et al. Predicting vascular complications in percutaneous coronary interventions. Am Heart J 2003;145:1022–1029.
  11. Chevalier B, Lancelin B, Koning R, et al. Effect of a closure device on complication rates in high-local-risk patients: Results of a randomized multicenter trial. Catheter Cardiovasc Interv 2003;58:285–291.
  12. Patel MR, Jneid H, Derdeyn CP, et al. Arteriotomy closure devices for cardiovascular procedures: A scientific statement from the American Heart Association. Circulation 2010;122:1882–1893.
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The author reports no conflicts of interest regarding the content herein. Address for correspondence: Adhir Shroff, MD, MPH, FACC, FSCAI, Assistant Professor of Medicine, University of Illinois – Chicago, 1853 West Polk Street, Room 130 CMW, Mail Code 784, Chicago, IL 60612. Email: arshroff@uic.edu

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