Hypoxic, hypercapnic acidosis decreases tension and increases fatigue in hamster diaphragm muscle in vitro.

Hypoxia and hypercapnic acidosis have been shown to have a negative inotropic effect on diaphragmatic contractility. The effect of combined hypercapnia and hypoxia was studied in vitro using hamster diaphragm strips. A 12% CO2, 21% O2, and 67% N2 gas mixture was used to produce hypoxic, hypercapnic acidosis. Force-frequency curves were generated using twitches and maximal tetanic contractions produced by stimulating with 0.2-ms pulses at 10 to 120 Hz for 300 to 500 ms. Moderate fatigue was then induced by repeated submaximal contractions (25 Hz, 160 ms, at the rate of 1/s for 45 contractions). Muscle strips exposed to hypoxic, hypercapnic acidosis had a decreased force response at all frequencies. The decrease in force was not different from that seen with hypoxia alone but was significantly worse than with hypercapnia alone. In the combined hypercapnic, hypoxia solution, tension produced by stimulating at 25 Hz for 160 ms was decreased to 52 +/- 11% of control (p less than 0.001). For these submaximal contractions, hypercapnic acidosis had a greater negative inotropic effect than did hypoxia alone. With repeated contractions, tension declined at a faster rate than in control, hypoxia alone, or hypercapnia alone. In the combined hypoxic, hypercapnic solution, the time constant of relaxation (tau) was increased prior to the start of the fatigue run compared to the control (tau = 35 +/- 6 versus 45 +/- 5 ms; p less than 0.001), and the tau increased at a faster rate than in control. These studies suggest that hypoxic, hypercapnic acidosis has a greater detrimental effect on the muscle than either abnormality alone and makes the muscle more susceptible to fatigue.