A mechanographic method for measurement of muscle tone in the conscious rat. The calf muscle stretch response in reserpine-induced rigidity.

A simple mechanographic method for the measurement of muscle tone in awake rats is presented. It utilizes principles corresponding to those in clinical assessment of tone and it has been applied to an animal model of Parkinson's disease: the reserpine-treated rat. The rat was restrained by a plastic cylinder and by metal cuffs at the ankles. The hind feet were repeatedly dorsiflexed by an electromechanical manipulator and the resulting calf muscle tension was indirectly measured with a strain-gauge system. The relative contributions to the stretch response from the different muscle groups acting on the ankle joint in the awake and untreated rat and during reserpine-induced rigidity are described. Very little active tension was found in the untreated rat. After treatment with reserpine, continuous activation of the muscle was found in EMG recordings and there was a sharp increase in the tension recorded during stretch. The static response to the increased isometric stretch was augmented. An additional, tonic response to ramp stretch was elicited at all stretch velocities. There was no evidence for phasic responses to rapid stretch in reserpine-induced rigidity. The amplitude of the myomechanogram was thus found to be independent of the ramp stretch velocity. Subsequent injection of apomorphine abolished the increased stretch response. It is demonstrated that changes in muscle tone could be followed during drug treatment and that the method can be used in investigations of the pathophysiological mechanisms behind the disorders of muscle tone.