OBSERVATIONS ON THE GENESIS OF THE STRETCH REFLEX IN PARKINSON'S DISEASE

doi:10.1093/brain/109.2.229

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Brain, Vol. 109, No. 2, 229-249, 1986
© 1986 Oxford University Press

research-article

OBSERVATIONS ON THE GENESIS OF THE STRETCH REFLEX IN PARKINSON'S DISEASE

F. W. J. CODY¹, N. MACDERMOTT², P. B. C. MATTHEWS³ and HELEN C. RICHARDSON¹

¹Department of Physiology, University of Manchester Manchester M13 9PT ²Department of Neurology, Manchester Royal Infirmary Manchester M13 9WL ³University Laboratory of Physiology Oxford OXI 3PT

Using surface electromyography the reflex response of flexorcarpi radialis elicited by forcibly dorsiflexing the wrist wascompared with that elicited by applying vibration percutaneouslyto its tendon This was done both in patients with Parkinson'sdisease and in normal subjects. The reflexes were elicited ontop of a pre-existing voluntary contraction of the muscle ofabout 20 per cent maximum The responses in parkinsonism werequalitatively similar to the normal, but differed quantitativelyin certain respects

The response to ‘stretch’ of the muscle by wristdorsiflexion normally continued at a high level up to at least80 ms from the beginning of the movement, commonly with an apparentseparation into ‘short’ and ‘long’ latencyresponses On average, the later components of the response wereenhanced in parkinsonian patients in comparison with the normals,confirming other workers' findings; they were also prolonged.The short-latency responses were unchanged Vibration, in contrast,elicited solely a short-latency response with the initial reflexly-evokedaugmentation of EMG activity coming to an end 40 to 50 ms fromthe beginning of the stimulation, even though the vibrationwas continuing. Such an absence of the later components thatwere so prominent with stretch was found whatever the size ofthe initial short-latency response evoked by vibration, includingwhen it was comparable to that evoked by stretch in the samesubject. This purely short-latency vibration response was onaverage unchanged in parkinsonism.

The findings support the hypothesis, already advanced for thelong flexor of the thumb, that the long-latency components ofresponse are largely attributable to a spinal excitatory actionof the spindle group II afferents with the delay arising fromthe slowness of their conduction. They are not readily compatiblewith either of the two major alternative hypotheses, namelythe ‘long-loop’ (or transcortical) hypothesis andthe ‘resonance’ hypothesis, both of which attributethe late response, as well as the initial response, to the spindlela afferents. The enhancement of the later components of responsein parkinsonism thus now seems likely to be due to an increasein the postulated spindle group II excitatory action, possiblyrelated to a reduction in opposing inhibition, rather than toany change in the reflex excitability of the higher centreson la activation However, the rigidity of parkinsonism cannotbe uniquely ascribed to an enhancement of group II action, becauseover the population as a whole clinically similar degrees ofrigidity could be accompanied by quite different long-latencyresponses, and vice versa.

Received April 19, 1985. Revised June 13, 1985. Accepted June 20, 1985.

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