Cardiac Na+,K(+)-ATPase, the receptor molecule for digitalis glycosides, have isoforms with different intrinsic affinities for the glycosides. Expression of these isoforms are under developmental and hormonal regulation. Switching in isoforms to those with lower intrinsic affinity may decrease digitalis sensitivity of the heart. In addition to the intrinsic affinity of the cardiac Na+,K(+)-ATPase for the glycoside, increases in the rate of Na+ influx and decreases in extracellular K+ concentrations increase glycoside sensitivity of the heart and also reduces the margin of safety by reducing reserve capacity of the sodium pump. Reserve capacity of the sodium pump is also reduced by pathological conditions or aging, resulting in reduced margin of safety for the glycoside. Events that follow sodium pump inhibition also affect sensitivity of the heart to digitalis toxicity. These are hypercalcemia and magnesium depletion. It is now feasible to predict digitalis sensitivity of the heart, not empirically but based on the understanding of the mechanisms responsible for the positive inotropic and toxic actions of the glycoside.