Subthalamic nucleus stimulation reverses spinal motoneuron activity in parkinsonian patients.

Autor: Raoul S; CHU Nantes, Neurosurgery Department, Hôpital G. et R. Laennec,44093 Nantes, France., Roualdes V, Deligny C, Leduc D, Lamy JC, Lackmy-Vallée A, N'guyen JP, Damier P, Katz R
Jazyk: angličtina
Zdroj: Brain : a journal of neurology [Brain] 2012 Jan; Vol. 135 (Pt 1), pp. 139-47. Date of Electronic Publication: 2011 Nov 10.
DOI: 10.1093/brain/awr267
Abstrakt: Although a cardinal symptom of Parkinsonian disease, up to now, rigidity has been investigated much less than spasticity in hemiplegic patients. Many pathophysiological mechanisms may at least theoretically contribute to Parkinsonian rigidity, from altered viscoelastic muscle properties to inability of parkinsonian patients to relax. However, as demonstrated many years ago, motoneuron responses to muscle afferent volleys are involved in rigidity since afferent volleys are suppressed after dorsal root section. To our knowledge, homosynaptic depression (i.e. the fact that motoneuron responses to Ia afferent volleys exhibit a frequency-related depression) has not been studied in parkinsonian disease, despite the fact that in spastic patients, changes in homosynaptic depression are significantly correlated at wrist and ankle levels with the severity of spasticity. Thus, in the present series of experiments, we investigated in parkinsonian patients with chronic implantation of both subthalamic motor nuclei, the amount of homosynaptic depression at wrist and ankle levels on and off deep brain stimulation. Off deep brain stimulation, the frequency-related depression disappeared, the patients became rigid and the amount of homosynaptic depression was significantly correlated with the severity of rigidity. On deep brain stimulation, the frequency-related depression was restored and the rigidity suppressed, suggesting that homosynaptic depression is one of the mechanisms underlying rigidity in Parkinson's disease. Moreover, the unexpected finding that changes in the rigidity score and the amount of homosynaptic depression are time-locked to the onset of deep brain stimulation leads us to reconsider the mechanisms underlying changes in homosynaptic depression.
Databáze: MEDLINE