The method of optical mapping of the cardiac electrical activity using pote
ntial-sensitive dyes became popular during last decade. One of main reasons
of rapid development of the method was inability of ordinary intra and ext
racellular techniques to provide mapping of electrical activity of the hear
t with high spatial-temporal resolution. Despite long period of development
of these procedures they turned out to be inapplicable in at least two key
fields of research: studies of the role of spatial-temporal organization o
f repolarization in arrhythmogenesis and investigation of effects of extern
al electrical field on cellular electrical activity. Optical registration o
f transmembrane potentials can be applied both at subcellular level and at
the level of the heart as a whole. Response time of rapid potentials of sen
sitive dyes lies within microseconds. Thus resolution of optical registrati
on exceeds that of microelectrode techniques. Rapid progress of computer te
chnologies promoted registration of optical potentials simultaneously from
many sites of the heart. The latter allows to obtain maps of electrical act
ivity with high temporal and spatial resolution. Modern technical approache
s to creation of optical systems for visualization of fluorescent signals a
s well as novel system of optical mapping of the heart designed in the Clev
eland Clinic are also presented in this review.