Objectives: To determine the value of isokinetic dynamometric measurement o
f passive resistance in quantifying spasticity.
Setting: Turkey.
Methods: Thirty-three spastic spinal cord-injured patients and 14 age-match
ed normal individuals were studied. Five consecutive flexion-extensions of
the knee. abduction-adductions of the hip, and dorsal-plantar flexions of t
he ankle were performed at specific velocities (15, 30, 60, 90 and 120 degr
ees/s) using a computerized isokinetic dynamometer set at the continuous pa
ssive motion mode. We recorded maximum torque and the sum of torque amplitu
des for five repetitions of each type of joint motion at all velocities.
Results: Maximum torque values and the sum of torque amplitudes were both s
ignificantly higher in spastic patients than in controls, and there was a p
ositive correlation between torque values and Ashworth scores. There was no
significant linear increase in torque values associated with increasing ve
locity for any of the motions in either controls or patients.
Conclusion: Isokinetic dynamometric measurement of passive resistance appea
red to be a valuable tool for assessing and quantifying spasticity, as well
as other types of hypertonus.