LONG-LATENCY SPINAL REFLEX IN MAN AFTER FLEXOR REFLEX AFFERENT STIMULATION

doi:10.1093/brain/110.3.707

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Brain, Vol. 110, No. 3, 707-725, 1987
© 1987 Guarantors of Brain

research-article

LONG-LATENCY SPINAL REFLEX IN MAN AFTER FLEXOR REFLEX AFFERENT STIMULATION

A. ROBY-BRAMI and B. BUSSEL

INSERM U-215 and Service de Rééeducation Neurologique, Hôpital Raymond Poincaré 92380 Garches, France

Correspondence to: Correspondence to: Professor B. Bussel, Service de Rééducation Neurologique, Hôpital Raymond Poincaré, 92380 Garches, France.

Electromyographic (EMG) flexor muscle responses evoked by electricalstimulation of ipsilateral peripheral nerves were studied in16 patients with clinically complete spinal cord transection.Stimuli were applied either to a cutaneous nerve (sural) orto a mixed nerve (tibial) and muscle responses were recordedfrom tibialis anterior, biceps femoris and rectus femoris. EMGrecordings after both sural and tibial nerve stimulation showedthat distinct early and late ipsilateral flexor muscle responsescould be elicited. This distinction was more evident for tibialisanterior. The latency of the early responses averaged approximately100 ms with sural and 75 ms with tibial nerve stimulation. Thiscorresponds to the latency of the flexion withdrawal reflexpreviously described in normal man. After sural stimulation,the early reflex appeared in biceps femoris at a threshold intensitynot significantly different from that in normal man given thesame stimulation parameters. Late responses appeared after aloner latency (130 ms) and at a lower threshold than the earlyflexor reflex. In all patients a striking feature of the lateresponse was that its latency increased with increasing stimulusintensity, the maximum latency being as long as 450 ms. Thisincrease also occurred with increasing duration of high intensitystimulus trains.

Neither the appearance of a late response nor its latency increasecould be explained by a peripheral loop due to a preceding musclecontraction (from either motor axon stimulation or motoneuronaldischarge corresponding to the early flexion reflex). It wastherefore concluded that both were directly elicited by theafferent volley set up by electrical stimulation. The low thresholdof the late reflex corresponded to the excitation of relativelyrapidly conducting afferents and its central spinal delay wasmore than 100 ms. The late reflexes were compared with thosedescribed by Andén et al. (1964) in the acute spinalcat injected with DOPA and were found to have similar charactersics.The mechanism for the increase in latency of the late responseis discussed in relation to the interpretation of Lundberg(1979).

Received March 11, 1986. Revised June 24, 1986. Accepted July 17, 1986.

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