S73: Defibrillation Models
Tuesday, September 16, 2008, 13:30

The Role of Volume Conductivities in Simulation of Implantable Defibrillators
JG Stinstra*, M Jolley, DH Brooks, JK Triedman, RS MacLeod

Comparison of Countershock Prediction Features Based on Autoregressive and Fourier Transformed Spectral Analysis
CN Nowak*, G Fischer, A Neurauter, L Wieser,
B Tilg, HU Strohmenger

Influence of Tissue Anisotropy on the Distribution of Defibrillation Fields
SA Seitz*, G Seemann, O Doessel

In-Vitro Investigation of Very Long Defibrillation Shocks: Design and Testing of a Capacitor-Free Defibrillator
M Triventi, E Mattei, A Delogu, F Censi, G Calcagnini*,
P Bartolini, F Aguel, J Stohlman, V Krauthamer

Development of a Model of the Infarcted Canine Heart that Predicts Arrhythmia Generation from Specific Cardiac Geometry and Scar Distribution
HJ Arevalo*, PA Helm, NA Trayanova

Feedback Control of Resonant Drift as a Tool for Low Voltage Defibrillation
IV Biktasheva*, SW Morgan, G Plank, VN Biktashev