The ability of isolated myocardial cells of the rat to contract at temperatures near freezing point

1. 1.|Single spontaneously-beating myocardial cells were prepared by enzymatic isolation from rat heart ventricles. Using a TV camera and videotape recorder, beating parameters were characterized with respect to temperature.

2. 2.|The cells obtained showed two types of contractions: (a) action-potential-coupled, fast contractions, which could be triggered electrically but sometimes also occurred spontaneously; and (b) a phasic type of contraction which occurs spontaneously as a slowly (25–200 μm s⁻¹) proceedings wave through the cell and is not coupled to the action potential.

3. 3.|Both the spontaneous phasic and electrically-triggered fast contractions continued down to about 0°C, where the cells went into an irreversible contracture, but recovered if the temperature was raised before the contracture occurred.

4. 4.|In physically-contracting cells, the beat rate and the velocity of the contraction wave were temperature dependent showing a linear relationship on an Arrhenius plot; apparent activation energies were 31 and 54 kJ mol⁻¹, respectively.

5. 5.|When fast contractions were triggered by electric field stimulation, the threshold of cells was reduced as temperature rose. The rheobase values showed that cell excitability decreased more steeply when the temperature fell below 20°C. This change could not be seen in the values of chronaxie, which showed a linear relationship on the Arrhenius plot within the whole temperature range used (6–35°C).

6. 6.|It is concluded that the lower temperature limit is not the same for all structural levels of the rat heart. Myocardial cells are able to contract still at the freezing point while mechanisms initiating the heart beat require higher temperatures to be functional.

Author Keywords: Heart; myocytes; temperature; contraction; rat