Effect of tubocurarine on static and dynamic muscle contractions in man.

The effect of a bolus injection of tubocurarine (0.1 mg X kg-1 i.v.) was followed in six young subjects by registration of static, and slow (30 degrees X s-1) and fast (150 degrees X s-1) dynamic (isokinetic) maximal voluntary leg extensions. Mechanograms from both unblocked and curarized muscle contractions showed a "notch" after about 440 ms separating two relative maxima. The mechanograms were divided by an arbitrary straight line connecting the starting point of the contraction curve and the notch. The line separated an area (Nm X s) above and to the left (alpha-component) from an area below and to the right (beta-component) of the line. Tubocurarine affected the beta-component selectively until about 70% reduced in the static contractions. With further curarization the alpha-component was also reduced in size. The alpha-component was equally affected during the three types of contractions, while the faster the contraction the more the beta-component was reduced. The results suggest that static as well as dynamic human muscle contractions can be divided into two parts with a different sensitivity for tubocurarine, one of which seems to have a sensitivity which depends on the contraction velocity.