Periodic limb movements in sleep: State-dependent excitability of the spinal flexor reflex

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Periodic limb movements in sleep

State-dependent excitability of the spinal flexor reflex

W. Bara-Jimenez, MD, M. Aksu, MD, B. Graham, S. Sato, MD and M. Hallett, MD

From the Human Motor Control Section (Drs. Bara-Jimenez, Aksu, and Hallett), Medical Neurology Branch, and the EEG Section (Dr. Sato and B. Graham), National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD.

Address correspondence and reprint requests to Dr. Mark Hallett, NINDS, NIH, Building 10, Room 5N226, 10 Center Drive MSC 1428, Bethesda, MD 20892-1428; e-mail: mark_hallett{at}nih.gov

OBJECTIVE: To test the hypothesis that periodic limb movements(PLMs) are related to spinal flexor reflexes (FRs), the authorscompared the state-dependent changes in FR excitability in 10patients with restless legs syndrome (RLS) and PLMs with thosefrom matched controls.

BACKGROUND: PLM is a disorder of motor control during sleep,frequently occurring in RLS. Clinically, PLMs resemble spinalFRs.

METHODS: FRs were obtained by electrically stimulating the medialplantar nerve and recording from antagonist leg and thigh musclesbilaterally.

RESULTS: Compared with controls, patients had significantlyincreased spinal cord excitability, as indicated by lower thresholdand greater spatial spread of the FR, which was more prominentduring sleep. Multiple late responses were seen during sleepin all patients and in some controls at higher threshold. Themost prominent of these responses had a very long duration anda latency range of 250 to 800 msec, and because of its closetemporal relationship to the FR stimulus, the authors consideredit was a late, high-threshold component of the FR (FR3). Theauthors also found a similarity between the pattern of musclerecruitment and spatial spread of late components of the FRand those of spontaneous PLMs.

CONCLUSIONS: The results support the hypothesis that PLMs inRLS and FRs share common spinal mechanisms and suggest thatPLMs may result from enhanced spinal cord excitability in RLSpatients. Because dopaminergic mechanisms are involved in spinalFR control, the results are consistent with the current viewthat RLS is a disorder of dopaminergic function.

Key words: Periodic limb movement disorder—Periodic leg movements during sleep—Periodic limb movements—Sleep—Physiology—Restless legs syndrome—Spinal cord—Flexor reflex.

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