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1. Measurements have been made of tension development in papillary muscles isolated from the right ventricles of young cats. In some cases membrane potentials have also been recorded, using micro electrodes. 2. Regular contractions at a stimulation rate of 20 min(-1) (the 'standard' rate used in this study) had the following characteristics (30 degrees C): peak tension developed, about 43mN mm(-2); time to peak tension and time to 80% repolarization of the cell membrane, about 400 ms. 3. The corresponding figures for the first contraction after a rest of several minutes (rested state contraction) were: tension developed, about 4mN mm(-2); time to peak tension and time to 80% repolarization of the cell membrane, about 560 ms. Sometimes there was also an early peak in the mechanical response, about 250 ms after stimulation. 4. The time course with which tension development declined when the muscle was allowed to rest was examined under various conditions. It was found to decline more slowly when the muscle was potentiated by raising the bathing Ca2+ concentration and by stimulation at rates above 20 min(-1). 5. Tension development in rested state contractions was found to depend on the Ca2+ and Na+ concentrations in the bathing solution. The full effect of a change in either could be produced by exposing the resting muscle to the altered ionic conditions. 6. These experimental findings have been interpreted in terms of a simple model of the calcium movements involved in excitation-contraction coupling in the myocardial cell.

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