QuikClot<sup>®</sup> Interventional<sup>®</sup> with 3M<sup>™</sup> Tegaderm<sup>™</sup> Bandage

QuikClot® Interventional® with 3M Tegaderm Bandage 

QuikClot® Interventional® with 3M Tegaderm Bandage is a soft, white, nonwoven, hydrophilic pad impregnated with kaolin, an inorganic mineral that is both safe and effective in accelerating the body’s natural clotting cascade without any exothermic reactions or use of animal or human proteins.

Each QuikClot® Interventional® with 3M Tegaderm Bandage, Item #183, is double-wrapped in a blister container and is packaged in a foil peel pouch for aseptic removal. Each QuikClot® Interventional® with 3M Tegaderm Bandage is packed 10 per box.

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References: 1. Trabattoni D, Montorsi P, Fabbiocchi F, Lualdi A, Gatto P, Bartorelli A. A new kaolin-based haemostatic bandage compared with manual compression for bleeding control after percutaneous coronary procedures. Eur Radiol. 2011;21:1687-1691. 2. Politi L, Aprile A, Paganelli C, et al. Randomized clinical trial on short-time compression with kaolin-filled pad: a new strategy to avoid early bleeding and subacute radial artery occlusion after percutaneous coronary intervention. J Interven Cardiol. 2011;24:65-72. 3. Trabattoni D, Gatto P, Bartorelli A. A new kaolin-based hemostatic bandage use after coronary diagnostic and interventional procedures. Int J Cardiol. 2012;156(1):53-54. 4. Lamb KM, Pitcher HT, Cavarocchi NC, Hirose H. Vascular site hemostasis in percutaneous extracorporeal membrane oxygenation therapy. Open Cardiovasc Thorac Surg J. 2012;5:8-10. 5. Pahari M, Moliver R, Lo D, Pinkerton D, Basadonna G. QuikClot® Interventional™ Hemostatic Bandage (QCI): a novel hemostatic agent for vascular access. Cath Lab Digest. 2010;18(1):28-30. http://www.cathlabdigest.com/articles/QuikClot®-Interventional™-Hemostatic-Bandage-QCI-A-Novel-Hemostatic-Agent-Vascular-Access. Accessed on August 10, 2014. 6. Tactical Combat Casualty Care Guidelines 2 June 2014. http://www.usaisr.amedd.army.mil/pdfs/TCCC_Guidelines_140602.pdf. Accessed March 25, 2015. 7. Margolis J. Initiation of blood coagulation by glass and related surfaces. Journal Physiol 1957;137:95-109. 8. Data on file. 9. Curry N, Hopewell S, Doree C, Hyde C, Brohi K, Stanworth S. The acute management of trauma hemorrhage: a systematic review of randomized controlled trials. Crit Care. 2011;15(2):R92. 10. Kheirabadi BS, Mace JE, Terrazas IB, et al. Safetry evaluation of new hemostatic agents, smectite granules, and kaolin covered gauze in vascular injury wound model in swine. J Trauma. 2010;68:269-278. 11. Kheirabadi BS, Scherer MR, Estep JS, Dubick MA, Holcomb JB. Determination of efficacy of new hemostatic dressing in a model of extremity arterial hemorrhage in swine. J Trauma. 2009;67:450-460. 12. Kheirabadi BS. Evaluation of topical hemostatic agents for combat wound treatment. US Army Med Dep J. 2011;25-37. 13. Dee KC, Puleo DA, Bizios R. Tissue-Biomaterial Interactions. Hoboken: Wiley & Sons, 2002. 14. Data Complied from multiple sources and on file. 15. Blair, J. Pete, and Schweit, Katherine W. (2014). A Study of Active Shooter Incidents, 2000 - 2013. Texas State University and Federal Bureau of Investigation, US Department of Justice, Washington D.C. 2014. 16. Kauvar DS, Lefering R, Wade CE. Impact of hemorrhage on trauma outcome: an overview of epidemiology, clinical presentations, and therapeutic considerations. J Trauma. 2006; 60:S3-S11.

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