Although cardiac mechanical activity causes periodic fluctuations of t
he regional volumes and flows through the cardiac chambers and great v
essels, hitherto, the developed theory of blood-borne tracers has rest
ed upon stationarity of flow, volume and distribution of transit time.
Allowing for an arbitrary indicator injection, a more general theory
is presented that accounts for periodic changes in the transport laws,
flows and volumes of the system. When indicator particles are not tho
roughly mixed with the entering blood, the intracycle changes violate
most of the stationary equations. However, assuming complete mixing of
indicator at the system inlet, in concentrations that do not change d
uring the single cycle, this enables generalized counterparts of some
of the most important stationary relations to be established. The diff
erence between the indicator mean transit time calculated from the sta
tionary assumptions and the one which allows for periodic kinetics is
illustrated in radioangiographic assessment of the left ventricular ej
ection fraction.