Device Thrombogenicity Emulation: A Novel Method for Optimizing Mechanical Circulatory Support Device Thromboresistance

AD Gosman; Andreas Schäfer; Bryan E. Lynch; D Bluestein; D Lloyd-Jones; Danny Bluestein; DC Wilcox; DJ Goldstein; G Song; Gaurav Girdhar; GM Wieselthaler; GP Noon; GP Noon; J Apel; J Jesty; J Wu; JD Hellums; JD Hellums; JF Antaki; JG Copeland; JM Ramstack; Jolyon Jesty; JT Baldwin; K Kawahito; K Kawahito; L Zhu; M Nobili; M Xenos; Marvin J. Slepian; Michalis Xenos; NJ Kim; OH Frazier; Shmuel Einav; TA Snyder; TE Claiborne; TW Fossum; Wei-Che Chiu; WK Chan; Y Alemu; Y Alemu; Yared Alemu

Device Thrombogenicity Emulation: A Novel Method for Optimizing Mechanical Circulatory Support Device Thromboresistance

Authors: AD Gosman
Andreas Schäfer
Bryan E. Lynch
D Bluestein
D Lloyd-Jones
Danny Bluestein
DC Wilcox
DJ Goldstein
G Song
Gaurav Girdhar
GM Wieselthaler
GP Noon
GP Noon
J Apel
J Jesty
J Wu
JD Hellums
JD Hellums
JF Antaki
JG Copeland
JM Ramstack
Jolyon Jesty
JT Baldwin
K Kawahito
K Kawahito
L Zhu
M Nobili
M Xenos
Marvin J. Slepian
Michalis Xenos
NJ Kim
OH Frazier
Shmuel Einav
TA Snyder
TE Claiborne
TW Fossum
Wei-Che Chiu
WK Chan
Y Alemu
Y Alemu
Yared Alemu
Publication date: 2 March 2012
Publisher: Public Library of Science
Doi

Abstract

Mechanical circulatory support (MCS) devices provide both short and long term hemodynamic support for advanced heart failure patients. Unfortunately these devices remain plagued by thromboembolic complications associated with chronic platelet activation – mandating complex, lifelong anticoagulation therapy. To address the unmet need for enhancing the thromboresistance of these devices to extend their long term use, we developed a universal predictive methodology entitled Device Thrombogenicity Emulation (DTE) that facilitates optimizing the thrombogenic performance of any MCS device – ideally to a level that may obviate the need for mandatory anticoagulation