Nathalie Obadia scite author profile

We recorded laser-evoked cortical potentials (LEPs) in 54 consecutive patients presenting with unilateral neuropathic central pain (n = 42) or with lateralized pain of non-organic origin (n = 12). A number of cases in each group had superimposed hyperalgesia or allodynia. In patients with central pain, LEPs were significantly attenuated after stimulation over the painful territory, relative to stimulation of the homologous normal territory. LEP attenuation concerned not only patients with decreased pain/heat sensation, but also those with allodynia or hyperalgesia to laser pulses. In contrast, LEPs were never attenuated in patients with non-organic forms of pain, in whom LEPs could even be enhanced to stimulation of the painful territory. Increased responses in non-organic pain were a reminder of the cognitive modulation observed in normal subjects who direct attention to a laser stimulus. Enhanced LEPs never accompanied truly neuropathic hyperalgesia or allodynia. In central pain patients with exclusively spontaneous pain, LEP attenuation was more pronounced than that observed in those with allodynia and hyperalgesia. Patients with allodynia also presented occasionally ultra-late responses (>700 ms) to stimulation of the painful side. The hypothesis that such responses may reflect activation of a slow conducting 'medial' pain system is discussed. We conclude that, as currently recorded, LEPs essentially reflect the activity of a 'lateral' pain system subserved at the periphery by rapidly conducting A-delta fibres. They are useful to document the sensorial deficits (deafferentation) leading to neuropathic pain syndromes. Conversely, in the case of deafferentation, they fail to index adequately the affective aspects of pain sensation. On practical grounds, chronic pain coupled with reduced LEPs substantiates the diagnosis of neuropathic pain, whereas the finding of normal or enhanced LEPs to stimulation of a painful territory suggests the integrity of pain pathways, and does not support a neuropathic pathophysiology. In neuropathic cases, partial LEP preservation might increase the probability of developing provoked pain (allodynia/hyperalgesia). The possible predictive value of this phenomenon, when observed before the development of pain, remains to be demonstrated. In selected contexts (pain sine materia, non-organic anaesthesia), normal or enhanced LEPs may support a psychogenic participation in the syndrome.

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Myoclonus–dystonia

Roze

Apartis²,

Clot³

et al. 2008

Neurology

109

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Pain relief by rTMS

Obadia

Mertens²,

Guéguen³

et al. 2008

Neurology

123

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Posteroanterior repetitive transcranial magnetic stimulation (rTMS) was more effective than both placebo and lateromedial rTMS. When obtained, pain relief was not specific of any particular submodality, but rather reduced the global pain sensation whatever its type. This is in accord with recent models of motor cortex neurostimulation, postulating that its analgesic effects may derive in part from modulation of the affective appraisal of pain, rather than a decrease of its sensory components.

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On the importance of placebo timing in rTMS studies for pain relief

Obadia

Magnin

Garcia-Larrea

2011

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The efficacy of repetitive transcranial magnetic stimulation (rTMS) of the motor cortex for neuropathic pain relief is founded on double-blind studies versus placebo. In these studies, however, the analgesic effect of active interventions remained modest compared with the placebo effect. This observation led us to re-evaluate the intrinsic placebo action on pain relief according to the relative timing of active and sham rTMS interventions. In a randomized controlled study including 45 patients, we compared the analgesic effect of sham rTMS that either preceded or followed an active rTMS, which could be itself either successful or unsuccessful. Placebo analgesia differed significantly when the sham rTMS session followed a successful or an unsuccessful active rTMS. Placebo sessions induced significant analgesia when they followed a successful rTMS (mean pain decrease of 11%), whereas they tended to worsen pain when following an unsuccessful rTMS (pain increase of 6%). Only when the sham intervention was applied before any active rTMS were placebo scores unchanged from the baseline. These results probably reflect an unconscious conditioned learning. The timing of placebo relative to active interventions should be taken into account in rTMS studies for pain relief, and possibly in other conditions too. The fact that placebo effects could be enhanced by a previous rTMS with an analgesic effect as low as 10% suggests that a 30% pain decrease threshold in therapeutic trials may be too severe because smaller analgesic effects may have a clinical significance too. Sham rTMS induces significant analgesia only when preceded by a successful active stimulation. Such a placebo modulation is probably related to an unconscious conditioned learning.

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Boosting Cognition With Music in Patients With Disorders of Consciousness

Castro

Tillmann

Luauté

et al. 2015

Neurorehabil Neural Repair

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Nathalie Obadia

Evidence-based guidelines on the therapeutic use of repetitive transcranial magnetic stimulation (rTMS)

Transcranial magnetic stimulation for pain control. Double-blind study of different frequencies against placebo, and correlation with motor cortex stimulation efficacy

rTMS for Suppressing Neuropathic Pain: A Meta-Analysis

Laser-evoked potential abnormalities in central pain patients: the influence of spontaneous and provoked pain

Myoclonus–dystonia

Pain relief by rTMS

On the importance of placebo timing in rTMS studies for pain relief

Boosting Cognition With Music in Patients With Disorders of Consciousness

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