TCT 2022, Boston, MA, September 16-19, 2022

Join CBSET at TCT 2022, which will be held in Boston, MA, September 16-19, 2022.

TCT 2022 will feature an unprecedented line-up of live cases from around the world, as well as a bold, novel content structure that will showcase practical applications of current and emerging techniques and technologies.

TCT 2022 also provides interventional cardiologists and other cardiovascular health care professionals with everything they need to improve patient outcomes. The meeting features late-breaking clinical trials and science, case-based presentations, practical educational forums, hands-on training, and limitless opportunities for learning and networking with peers and key opinion leaders from around the globe.

Please contact us to schedule an e-meeting around TCT 2022 with the researchers and authors behind some of the most advanced preclinical models for peripheral artery disease (PAD) in the field.





    Recent CBSET scientific papers & presentations related to novel PAD therapies:

    Balloon-based drug coating delivery to the artery wall is dictated by coating micro-morphology and angioplasty pressure gradients Abraham R. Tzafriri, Benny Muraj, Fernando Garcia-Polite, Antonio G. Salazar-Martín, Peter Markham, Brett Zani, Anna Spognardi, Mazen Albaghdadi, Steve Alston, Elazer R. Edelman. Biomaterials. 2020 Nov;260:120337.

    Taking paclitaxel coated balloons to a higher level: Predicting coating dissolution kinetics, tissue retention and dosing dynamics. Abraham R.Tzafriri, Sahil A.Parikh, Elazer R.Edelman. Journal of Controlled Release. Volume 310, 28 September 2019, Pages 94-102.

    Enhanced Plaque Modification of Cadaveric Human Calcified Peripheral Arteries Treated with a Vessel Preparation System. Video interview at CRT19. CBSET’s Director of Research and Innovation, Rami Tzafriri, PhD, discusses CBSET’s human cadaver model assessment of a vessel preparation system and the attributes of this particular technology that suggest it might be conducive to enhancing drug absorption.

    Calcified plaque modification alters local drug delivery in the treatment of peripheral atherosclerosis. Abraham R. Tzafriri, Fernando Garcia-Polite, Brett Zani, James Stanley, Benny Muraj, Jennifer Knutson, Robert Kohler, Peter Markham, Alexander Nikanorov, Elazer R. Edelman,  Journal of Controlled Release, Volume 264, 28 October 2017, Pages 203-210.

    charingcrosscoatedballoonsEvaluation of a novel paclitaxel coated intravascular balloon. Abraham R. Tzafriri, PhD. Presented at CX 2017 – The Charing Cross International Symposium, April 25-28, Kensington, London, UK.

     

    Mechanisms Underlying Drug Delivery to Peripheral Arteries. Li J, Tzafriri R, Patel SM, Parikh SA. Interventional Cardiology Clinics. 2017 Apr;6(2):197-216. doi: 10.1016/j.iccl.2016.12.004.

    Two Blades-Up Runs Using the JetStream Navitus Atherectomy Device Achieve Optimal Tissue Debulking of Nonocclusive In-Stent Restenosis: Observations From a Porcine Stent/Balloon Injury Model. Shammas NW, Aasen N, Bailey L, Budrewicz J, Farago T, Jarvis G. Journal of Endovascular Therapy. 2015 Aug;22(4):518-24.

    Effects of Orbital Atherectomy Treatment on Drug Absorption in Calcified Peripheral Arteries. Elazer R. Edelman, MD. Presented at CRT15 – Cardiovascular Research Technologies (CRT); 2015 Feb 21-24; Washington, DC.

    Mechanisms of Tissue Uptake and Retention in Zotarolimus-Coated Balloon Therapy. Vijaya B. Kolachalama, Stephen D. Pacetti, Joseph W. Franses, John J. Stankus, Hugh Q. Zhao, Tarek Shazly, Alexander Nikanorov, Lewis B. Schwartz, Abraham R. Tzafriri, Elazer R. Edelman. Circulation. 2013;127:2047-2055.

    Correlative evaluation of variable pressure-scanning electron microscopy to histology methods for vascular tissues. P. Seifert, K. Regan, B.G. Zani, G. Wong, and J. Stanley. Journal of Histotechnology, 2013 March; 36 (1): 25-29.