V
Vinod Sharma
Researcher at Medtronic plc
Publications - 83
Citations - 2137
Vinod Sharma is an academic researcher from Medtronic plc. The author has contributed to research in topics: Heart failure & Implantable cardioverter-defibrillator. The author has an hindex of 22, co-authored 81 publications receiving 1994 citations. Previous affiliations of Vinod Sharma include Johns Hopkins University School of Medicine & Johns Hopkins University.
Papers
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Journal ArticleDOI
Molecular Architecture of the Human Sinus Node: Insights Into the Function of the Cardiac Pacemaker
N.J. Chandler,I.D. Greener,James O. Tellez,Shin Inada,Hanny Musa,Peter C. M. Molenaar,Dario DiFrancesco,Mirko Baruscotti,Renato Longhi,Robert H. Anderson,Rudolf Billeter,Vinod Sharma,Daniel C. Sigg,Mark R. Boyett,Halina Dobrzynski +14 more
TL;DR: Ion channels show a complex and heterogeneous pattern of expression in the SN, paranodal area, and RA in humans, and the expression pattern is appropriate to explain pacemaking.
Journal ArticleDOI
The Reduction in Electroporation Voltages by the Addition of a Surfactant to Planar Lipid Bilayers
TL;DR: It is suggested that C12E8 incorporates into POPC bilayers, allowing electroporation at lower intensities and/or shorter durations, and it is demonstrated that surfactants can be used to manipulate the Electroporation threshold of lipid bilayers.
Journal ArticleDOI
Development and validation of an integrated diagnostic algorithm derived from parameters monitored in implantable devices for identifying patients at risk for heart failure hospitalization in an ambulatory setting
Martin R. Cowie,Shantanu Sarkar,Jodi Koehler,David J. Whellan,George H. Crossley,W.H. Wilson Tang,William T. Abraham,Vinod Sharma,Massimo Santini +8 more
TL;DR: An HF score based on implantable device diagnostics can identify increased risk for HF hospitalization in the next 30 days.
Journal ArticleDOI
Poloxamer 188 decreases susceptibility of artificial lipid membranes to electroporation.
TL;DR: Findings suggest that poloxamer 188 adsorbs into the lipid bilayers, thereby decreasing their susceptibility to electroporation.
Journal ArticleDOI
Computer three-dimensional anatomical reconstruction of the human sinus node and a novel paranodal area
N.J. Chandler,Oleg Aslanidi,David L. Buckley,Shin Inada,Steven Birchall,Andrew Atkinson,Danielle Kirk,Oliver Monfredi,Peter C. M. Molenaar,Robert H. Anderson,Vinod Sharma,Daniel C. Sigg,Henggui Zhang,Mark R. Boyett,Halina Dobrzynski +14 more
TL;DR: In this article, the authors investigated the distribution of the sinus node tissue in a series of healthy human hearts and, for one of the hearts, constructed a computer three-dimensional anatomical model of the Sinus node, including the likely orientation of myocytes.