D. Sung et al., Model-based analysis of optically mapped epicardial activation patterns and conduction velocity, ANN BIOMED, 28(9), 2000, pp. 1085-1092
A novel parametric model-based method was developed to quantify epicardial
conduction patterns and velocity in an isolated Langertdorff-perfused rabbi
t heart. The method incorporated geometric and anatomical features of the l
eft and right ventricles into the analysis. Optical images of propagation w
ere obtained using the voltage-sensitive dye DI-4-ANEPPS, and a high-speed
digital camera. Activation maps were extracted from these images and interp
olated onto a three-dimensional finite-element model of epicardial geometry
and fiber structure. Activation time was expressed as a function of local
parametric coordinates, and a conduction velocity vector field was computed
from the gradient of the scalar field. Activation times measured using bip
olar electrodes did not differ significantly from times measured using the
optical mapping technique. The method was able to detect a 34% decrease in
average fiber velocity and a 28% decrease in average cross-fiber velocity f
ollowing the addition of 0.5 mM heptanol into the perfusate. The combinatio
n of optical mapping with a three-dimensional geometric model of the ventri
cles provides a new tool to quantify wave-front propagation relative to ana
tomy at a relatively high spatial resolution. (C) 2000 Biomedical Engineeri
ng Society. [S0090-6964(00)01209-1].