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Abstract

Effects of repetitive index finger abductions on excitability changes in the human primary motor cortex (M1) are assumed to be dependent on practice conditions of the task. To address how different effects occur dependent on various practice conditions, motor evoked potentials (MEPs) elicited from the first dorsal interosseous (FDI) muscle were investigated. Practice effects on the index finger abduction were examined for changes in excitability of first dorsal interosseous muscle under three forearm position changes (neutral vs prone) and two muscle contraction modes (isometric vs isotonic). Analysis showed that after practice MEP amplitude increased in the prone position but not in the neutral position and MEP increases in the isotonic contraction were larger than those in the isometric mode. These results suggest that use-dependent excitability changes are largely dependent on practice conditions because the amount of afferent input depends on the practice conditions.

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References

Butefisch

C. M.

Davic

B. C.

Wise

S. P.

Somaki

Kopyler

Classen

, & Cohen

L. G.

(2000) Mechanisms of use-dependent plasticity in the human motor cortex. Proceeding of National Academic Sciences USA, 97, 3661–3665.

Butefisch

C. M.

Hummelsheim

Denzler

, & Mauritz

K-H.

(1995) Repetitive training of isolated movements improves the outcome of motor rehabilitation of the centrally practiced hand. Journal of Neurological Science, 130, 59–68.

Butefisch

C. M.

Khurana

Kopyler

, & Cohen

L. G.

(2004) Enhancing encoding of a motor memory in the primary motor cortex by cortical stimulation. Journal of Neurophysiology, 91, 2110–2116.

Hauptmann

, & Hummelsheim

(1996) Facilitation of motor evoked potentials in hand extensor muscles of stroke patients: correlation to the level of voluntary contraction. Electroencephalography and Clinical Neurophysiology, 101, 387–394.

Hauptmann

Skrotzki

, & Hummelsheim

(1997) Facilitation of motor evoked potentials after repetitive voluntary hand movements depends on the type of motor activity. Electroencephalography and Clinical Neurophysiology, 105, 357–364.

Hayashi

Hasegawa

, & Kasai

(2002) Transcranial magnetic stimulation study of plastic changes of human motor cortex after repetitive simple muscle contractions. Perceptual and Motor Skills, 95, 699–705.

Liepert

Weiss

Meissner

Steinrucke

, & Weiller

(2004) Exercise-induced changes of motor excitability with and without sensory block. Brain Research, 103, 68–76.

Shimura

, & Kasai

(2002) Effects of proprioceptive neuromuscular facilitation on the initiation of voluntary movement and motor evoked potentials in upper limb muscles. Human Movement Science, 21, 101–113.

Vallbo

A. B.

, & Al-Falahe

N. L.

(1990) Human muscle spindle response in a motor learning task. Journal of Physiology (London), 421, 553–568.

Modulations of Use-Dependent Excitability Changes of Human Motor Cortex (M1) by Practice Condition

Abstract

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