Combined experimental and modeling approach for designing transvenous defibrillation leads
Publication
, Journal Article
Pendekanti, R; Henriquez, C; Wolf, PD; Hoffmann, D; Yang, W
Published in: IEEE/ Engineering in Medicine and Biology Society Annual Conference
December 1, 1995
The performance and behavior of Transvenous Defibrillation (TVD) electrodes is influenced by their complex characteristics. These include the electrodes' geometry, surface structure, and material. This study describes the experimental and modeling approaches that can be used to better represent electrodes in volume conductor simulations.
Duke Scholars
Published In
IEEE/ Engineering in Medicine and Biology Society Annual Conference
Publication Date
December 1, 1995
Citation
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ICMJE
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Pendekanti, R., Henriquez, C., Wolf, P. D., Hoffmann, D., & Yang, W. (1995). Combined experimental and modeling approach for designing transvenous defibrillation leads. IEEE/ Engineering in Medicine and Biology Society Annual Conference.
Pendekanti, R., C. Henriquez, P. D. Wolf, D. Hoffmann, and W. Yang. “Combined experimental and modeling approach for designing transvenous defibrillation leads.” IEEE/ Engineering in Medicine and Biology Society Annual Conference, December 1, 1995.
Pendekanti R, Henriquez C, Wolf PD, Hoffmann D, Yang W. Combined experimental and modeling approach for designing transvenous defibrillation leads. IEEE/ Engineering in Medicine and Biology Society Annual Conference. 1995 Dec 1;
Pendekanti, R., et al. “Combined experimental and modeling approach for designing transvenous defibrillation leads.” IEEE/ Engineering in Medicine and Biology Society Annual Conference, Dec. 1995.
Pendekanti R, Henriquez C, Wolf PD, Hoffmann D, Yang W. Combined experimental and modeling approach for designing transvenous defibrillation leads. IEEE/ Engineering in Medicine and Biology Society Annual Conference. 1995 Dec 1;
Published In
IEEE/ Engineering in Medicine and Biology Society Annual Conference
Publication Date
December 1, 1995