The article reviews cardiac magnetic resonance spectroscopy (MRS) in Canada. 31P MRS has been used to study cardiac energetics and intracellular pH in hearts subjected to ischemia-reperfusion and to evaluate the effects of pharmacological interventions. 23Na, 87Rb, and 7Li MRS have provided unique probes to study ion balance and fluxes in intact tissue under normal and stressful physiological conditions. 1H MRS has been used to monitor the accumulation of lactate and lipids in hearts subjected to ischemia-reperfusion and follow the effects of diet on cardiac lipid levels and function. The isolated rat heart has been used most commonly to study the effects of pharmacological agents on energy balance, pH, ion fluxes, and contractile function of the heart subjected to ischemia-reperfusion. The pig heart has been developed as an alternative to the rodent heart because its metabolism is more similar to that of the human heart. Human atrial appendages have been useful in evaluating the effects of preservation strategies (temperature, composition of preservation solutions) on energy levels. The pig heart model has been useful in evaluating the effects of preservation solutions on cardiac function of hearts destined for transplantation. An isolated blood-perfused pig heart model has been developed to assess the effects of cardioplegic strategies on the preservation of contractile function of hearts following surgery on the heart. An in vivo canine model has been used to study myocardial infarction and the effects of therapies to reduce the infarct zones and areas of the heart at risk of infarction. Studies of human hearts in vivo have provided insight into the metabolic adaptations that occur in individuals living at high altitudes.Key words: ion transport, metabolism, heart disease, organ preservation, drug effects.