Contraction of upper limb muscles in healthy subjects was used to investigate presynaptic inhibition at spinal level. The H reflex recorded in the forearm flexor muscles in response to median nerve stimulation was depressed in amplitude from 400 ms to 1 s after a muscle twitch induced by transcranial stimulation, root stimulation, direct biceps stimulation, and triceps tendon tap. Stimulation of the cutaneous branch of musculocutaneous nerve, ipsilateral triceps and contralateral biceps, and biceps tendon tap did not alter H-reflex size. Forearm flexor H-reflex amplitude is therefore related to changes in proprioceptive inflow secondary to the biceps muscle twitch. Root and direct muscle stimulation both failed to reduce the size of the motor evoked potential (MEP) after transcranial magnetic stimulation, suggesting that the inhibition acts at presynaptic level. Attenuation of H-reflex amplitude was related to the size of the muscle twitch and was less pronounced during an isometric twitch than during free joint movement. Our results suggest that the biceps muscle twitch produces long-lasting inhibition of the la afferents from forearm flexor muscles. This is an important and a simple mechanism for suppressing proprioceptive input during movement. (C) 2000 John Wiley & Sons, Inc.
Ia presynaptic inhibition after muscle twitch in the arm / Inghilleri, Maurizio; Cinzia, Lorenzano; Francesca, Gilio; Francesca, Pedace; Stefano, Romeo; Manfredi, Mario; Berardelli, Alfredo. - In: MUSCLE & NERVE. - ISSN 0148-639X. - 23:5(2000), pp. 748-752. [10.1002/(sici)1097-4598(200005)23:5<748::aid-mus12>3.0.co;2-k]
Ia presynaptic inhibition after muscle twitch in the arm
INGHILLERI, Maurizio;MANFREDI, Mario;BERARDELLI, Alfredo
2000
Abstract
Contraction of upper limb muscles in healthy subjects was used to investigate presynaptic inhibition at spinal level. The H reflex recorded in the forearm flexor muscles in response to median nerve stimulation was depressed in amplitude from 400 ms to 1 s after a muscle twitch induced by transcranial stimulation, root stimulation, direct biceps stimulation, and triceps tendon tap. Stimulation of the cutaneous branch of musculocutaneous nerve, ipsilateral triceps and contralateral biceps, and biceps tendon tap did not alter H-reflex size. Forearm flexor H-reflex amplitude is therefore related to changes in proprioceptive inflow secondary to the biceps muscle twitch. Root and direct muscle stimulation both failed to reduce the size of the motor evoked potential (MEP) after transcranial magnetic stimulation, suggesting that the inhibition acts at presynaptic level. Attenuation of H-reflex amplitude was related to the size of the muscle twitch and was less pronounced during an isometric twitch than during free joint movement. Our results suggest that the biceps muscle twitch produces long-lasting inhibition of the la afferents from forearm flexor muscles. This is an important and a simple mechanism for suppressing proprioceptive input during movement. (C) 2000 John Wiley & Sons, Inc.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.