ARCOTHOVA la plateforme digitale d’information et de formation dédiée aux anesthésiste-réanimateurs de chirurgie cardio-vasculaire et thoracique

*La certification qualité a été délivrée au titre : actions de formation

LVAD & Récupération

Muthiah K, Humphrey DT, Robson D, Dhital K, Spratt P, Jansz P, Macdonald PS, Hayward CS. Longitudinal structural, functional, and cellular myocardial alterations with chronic centrifugal continuous-flow left ventricular assist device support. J Heart Lung Transplant. 2016 May 20 (In press)

Topkara VK, Garan AR, Fine B, Godier-Furnémont AF, Breskin A, Cagliostro B, Yuzefpolskaya M, Takeda K, Takayama H, Mancini DM, Naka Y, Colombo PC. Myocardial recovery in patients receiving contemporary left ventricular assist devices results from the Interagency Registry for Mechanically Assisted Circulatory Support (INTERMACS). Circ Heart Fail. 2016;9:e003157.

Selzman CH, Madden JL, Healy AH, McKellar SH, Koliopoulos A, Stehlik J, Drakos SG. Bridge to removal: A paradigm shift for left ventricular assist device therapy. Ann Thorac Surg. 2015;99:360-7

MiyagawaS, Toda K, Nakamura T, Yoshikawa Y, Fukushima S, Saito S, Yoshioka D, Saito T, Sawa Y. Building a bridge to recovery: the pathophysiology of LVAD‑induced reverse modeling in heart failure. Surg Today 2016; 46:149-54.

Drakos SG, Kfoury AG, Stehlik J, Selzman CH, Reid BB, Terrovitis JV, Nanas JN, Li DY. Bridge to recovery. Understanding the disconnect between clinical and biological outcomes. Circulation. 2012;126:230-41.

Lamarche Y, Kearns M, Josan K, Bashir J, Ignaszewski A, Kaan A, Kealy J, Moss R, Cheung A. Successful weaning and explantation of the Heartmate II left ventricular assist device. Can J Cardiol. 2011;27:358-62.