Short and long latency afferent inhibition in Parkinson's disease

Sailer, Alexandra; Molnar, Gregory F.; Paradiso, Guillermo; Gunraj, Carolyn; Lang, Anthony E.; Chen, Robert

doi:10.1093/brain/awg183

Cited by 261 publications

(222 citation statements)

References 40 publications

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“…While the above-mentioned protocols test different intracortical neuronal circuits, corticospinal excitability, as tested by the I/O curve, the TMS intensity necessary to elicit 1-mV MEP amplitudes, and motor thresholds were identical between the groups. Also, no difference could be found between groups regarding LAI, which probably involves the basal ganglia-thalamocortical loop (Sailer et al, 2003).…”

Section: Discussionmentioning

confidence: 78%

Cortical Hypoexcitability in Chronic Smokers? A Transcranial Magnetic Stimulation Study

Lang

Hasan

Sueske

et al. 2007

Neuropsychopharmacol

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Studies in animal models and humans indicate that chronic nicotine intake influences neuronal excitability, resulting in functional and structural CNS changes. The aim of the present study was to explore human primary motor cortex (M1) excitability with transcranial magnetic stimulation (TMS) in chronic smokers. A total of 44 right-handed volunteers, aged 20-30 years, participated in the study. Chronic smokers were compared with age-and sex-matched healthy nonsmokers. We tested cortical excitability with single-and pairedpulse TMS to the left M1 and short-latency afferent inhibition (SAI) by combining median nerve stimulation and motor cortex TMS. Compared with nonsmoking controls, chronic smokers showed a significantly larger amount of SAI, which is thought to depend upon the activity of cholinergic inhibitory circuits produced by somatosensory inputs. Moreover, TMS-evoked inhibitory cortical silent periods were prolonged, whereas paired-pulse intracortical facilitation and motor-evoked potentials during moderate contraction were reduced. The results suggest that chronic nicotine intake may not only strengthen cholinergic inhibitory circuits, but could also be associated with enhanced inhibitory and reduced facilitatory mechanism of specific neuronal circuits in motor cortex. These changes may form a physiological basis for neurobiological and behavioral variations associated with chronic smoking.

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Section: Discussionmentioning

confidence: 78%

Cortical Hypoexcitability in Chronic Smokers? A Transcranial Magnetic Stimulation Study

Lang

Hasan

Sueske

et al. 2007

Neuropsychopharmacol

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“…7 Sensory stimulation could change motor cortex excitability, and a sensory-conditioned stimulus such as MNS could inhibit the motor cortex, which may indirectly lead to the increased oscillation of STN neurons. 21 Additionally, MNS has been used as a reliable tool to identify basal ganglia structures from SSEP recordings and has been even more widely applied toward neural firing characterization and elucidation of the mechanisms of neural oscillation. Most of these reports chose local field potential (LFP) to identify the specific features of STN.…”

Section: Discussionmentioning

confidence: 99%

Dorsolateral subthalamic neuronal activity enhanced by median nerve stimulation characterizes Parkinson’s disease during deep brain stimulation with general anesthesia

Tsai¹,

Chuang

Kuo

et al. 2015

JNS

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S ubthalamic nucleus (STN) deep brain stimulation (DBS) has been shown to be an effective treatment for advanced Parkinson's disease (PD) and yields good long-term motor outcome. 25 Conventionally, STN-DBS is a surgical procedure conducted while the patient receives a local anesthetic and remains awake to ensure accurate electrophysiological mapping. In addition, this approach allows physicians to conduct intraoperative macrostimulation tests for motor response while minimizing potential side effects of stimulation. However, if a patient with PD is experiencing drastic off-medication symptoms, such as anxiety, painful dystonia, and respiratory distress, the patient may be precluded from this lengthy surgical procedure. 16,26 We previously reported our long-term results describing patients with PD who underwent STN-DBS under conditioned general anesthe- (PD). However, few studies are available that report whether neuronal firing can be accurately recorded during this condition. In this study the authors attempted to characterize the neuronal activity of the subthalamic nucleus (STN) and elucidate the influence of general anesthetics on neurons during DBS surgery in patients with PD. The benefit of median nerve stimulation (MNS) for localization of the dorsolateral subterritory of the STN, which is involved in sensorimotor function, was explored. methods Eight patients with PD were anesthetized with desflurane and underwent contralateral MNS at the wrist during microelectrode recording of the STN. The authors analyzed the spiking patterns and power spectral density (PSD) of the background activity along each penetration track and determined the spatial correlation to the target location, estimated using standard neurophysiological procedures. results The dorsolateral STN spiking pattern showed a more prominent bursting pattern without MNS and more oscillation with MNS. In terms of the neural oscillation of the background activity, beta-band oscillation dominated within the sensorimotor STN and showed significantly more PSD during MNS (p < 0.05). coNclusioNs Neuronal firing within the STN could be accurately identified and differentiated when patients with PD received general anesthetics. Median nerve stimulation can enhance the neural activity in beta-band oscillations, which can be used as an index to ensure optimal electrode placement via successfully tracked dorsolateral STN topography.

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“…Despite the differential net effects of DA in M1 versus SI, it appears that the net behavioral effect is one of improvement such that movement initiation is improved and tactile performance is not degraded. However, DA medication is also shown to reduce of short latency afferent inhibition 35 , and impairs other forms of somatic sensations such as proprioception that may relate to motor symptoms 36 . L-dopa clearly improves the motor symptoms in PD but the present study demonstrates that this occurs at the expense of altering the cortico-cortical connectivity within the somatosensory system.…”

Section: Discussionmentioning

confidence: 99%

Dopamine Alters Tactile Perception in Parkinson's Disease

Nelson

Premji²,

Rai³

et al. 2012

Can. J. Neurol. Sci.

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. Contexte : Le traitement anormal de l'information somatosensitive pourrait contribuer à l'altération de la motricité observée dans la maladie de Parkinson (MP). Il a été démontré que les médicaments dopaminergiques modifient le traitement de l'information somatosensitive de telle sorte que la perception tactile en est améliorée. Dans la MP, nous ne savons pas si la séquence temporelle des stimuli tactiles est modifiée et si les médicaments dopaminergiques modifient cette perception. Méthode : La perception tactile somatosensitive a été étudiée au moyen du test de discernement de l'ordre de succession de stimuli chez des patients atteints de la MP avec et sans effet de la médication dopaminergique et chez des témoins en bonne santé appariés pour l'âge. L'évaluation du discernement de l'ordre temporel de stimuli a été effectuée au moyen de la stimulation contrôlée par ordinateur des 2e et 3e doigts de la main droite. Les sujets devaient déterminer quel stimulus était appliqué le premier. Deux tâches expérimentales ont été comparées : le discernement de l'ordre temporel sans et avec synchronisation, soit l'application au préalable d'une vibration synchrone aux les 2e et 3e doigts. Résultats : Le discernement de l'ordre temporel chez les patients atteints de la MP sans et avec l'effet des médicaments était semblable à celui des témoins. Lorsque le test de discernement de l'ordre temporel était précédé par les vibrations synchrones, l'acuité tactile chez les témoins et les patients sans l'effet de la médication était perturbée à des degrés semblables, mais cette perturbation perceptuelle due aux vibrations synchrones n'était pas présente chez les patients sous l'effet de la médication. Conclusions : Ces constatations suggèrent que, chez les patients atteints de la MP, la dopamine diminue la connectivité cortico-corticale dans l'aire somatosensitive SI, ce qui provoque des changements dans la sensibilité tactile.

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Short and long latency afferent inhibition in Parkinson's disease

Cited by 261 publications

References 40 publications

Cortical Hypoexcitability in Chronic Smokers? A Transcranial Magnetic Stimulation Study

Cortical Hypoexcitability in Chronic Smokers? A Transcranial Magnetic Stimulation Study

Dorsolateral subthalamic neuronal activity enhanced by median nerve stimulation characterizes Parkinson’s disease during deep brain stimulation with general anesthesia

Dopamine Alters Tactile Perception in Parkinson's Disease

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