Residual force enhancement is attenuated for quick stretch conditions

It is generally accepted that the magnitude of residual force enhancement is not affected by stretching velocity. However, we recently found that when the stretching velocity was too large, the magnitude of residual force enhancement was attenuated or vanished in cat soleus muscle in situ. Therefore, the purpose of this study was to extend the knowledge by conducting very quick stretches in skinned rabbit psoas and soleus muscle fibers. Skinned psoas (N = 17) or soleus (N = 13) muscle fibers were activated isometrically at an average sarcomere length of 2.7 mu m, and then, actively stretched to an average sarcomere length of 3.0 mu m in 0.5 or 500 ms, followed by an isometric contraction at that length. In addition, a purely isometric reference contraction was conducted at an average sarcomere length of 3.0 mu m to calculate the magnitude of residual force enhancement for both stretch velocities. The magnitude of residual force enhancement was significantly different between 0.5 ms stretch (101.5 +/- 5.6% for psoas, and 101.5 +/- 2.3% for soleus) and 500 ms stretch (106.2 +/- 5.9% for psoas, and 106.8 +/- 5.1% for soleus) while the magnitude of residual force enhancement was not significantly different between muscles. In line with our previous finding, the magnitude of residual force enhancement can vary when the stretch velocity is very large. This finding can contribute to clarify the key mechanism for inducing residual force enhancement and to explain contradicting results obtained in previous studies.

Automated summary

This study found that very quick stretches can affect the magnitude of residual force enhancement, although there was no significant difference between muscles. This can help explain the key mechanism for inducing residual force enhancement.