Somatosensory and nociceptive changes in chronic post-stroke shoulder pain

Preliminary results from a cross-sectional study that investigated the relation between the presence of post-stroke shoulder pain and somatosensory and nociceptive changes are presented. The main finding is that both abnormal somatosensation and nociception are more frequently observed in stroke patients with pain as compared to pain-free stroke patients and healthy controls

Cortical processing of electrocutaneous stimuli in chronic stroke patients: a relationship with post-stroke shoulder pain.

Cerebral stroke is often associated with changes in cognitive-evaluative and somatosensory functions which may play a role in the development and maintenance of post-stroke pain

Somatosensory abnormalities at baseline and follow-up in patients developing post-stroke shoulder pain

Post-stroke shoulder pain (PSSP) is traditionally regarded as a peripheral nociceptive pain. However, treatment aimed at peripheral pain mechanisms is often unsatisfactory and pain is persistent in a significant amount of patients. In addition, several signs of central sensitization (allodynia, generalized hyperalgesia) have been observed in patients with chronic PSSP, suggesting that central pain processing may be altered in these patients. To better understand the role of peripheral and central mechanisms in the development of PSSP we investigated pain complaints and somatosensory functions at baseline and two consecutive follow-up time frames

Locally increased P-glycoprotein function in major depression: a PET study with [C-11]verapamil as a probe for P-glycoprotein function in the blood-brain barrier

The aetiology of depressive disorder remains unknown, although genetic susceptibility and exposure to neurotoxins are currently being discussed as possible contributors to this disorder. In normal circumstances, the brain is protected against bloodborne toxic influences by the blood-brain barrier, which includes the molecular efflux pump P-glycoprotein (P-gp) in the vessel wall of brain capillaries. We hypothesized that P-gp function in the blood-brain barrier is changed in patients with major depression. Positron emission tomography Was used to measure brain uptake of [C-11]verapamil, which is normally expelled from the brain by P-gp. Cerebral Volume of distribution (V-T) of [C-11]verapamil was used as a measure of P-gp function. Both region-of-interest (ROI) analysis and voxel analysis using statistical parametric mapping (SPM2) were performed to assess regional brain P-gp function. We found that patients with a major depressive episode, using antidepressants, compared to health), controls showed a significant decrease of [C-11]verapamil uptake in different areas throughout the brain, in particular in frontal and temporal regions. The decreased [C-11]verapamil uptake correlates with an increased function of the P-gp protein and may be related to chronic use of psychotropic drugs, Our results may explain why treatment-resistant depression can develop

Dissociation of Motor Task-Induced Cortical Excitability and Pain Perception Changes in Healthy Volunteers

Background: There is evidence that interventions aiming at modulation of the motor cortex activity lead to pain reduction. In order to understand further the role of the motor cortex on pain modulation, we aimed to compare the behavioral (pressure pain threshold) and neurophysiological effects (transcranial magnetic stimulation (TMS) induced cortical excitability) across three different motor tasks. Methodology/Principal Findings Fifteen healthy male subjects were enrolled in this randomized, controlled, blinded, cross-over designed study. Three different tasks were tested including motor learning with and without visual feedback, and simple hand movements. Cortical excitability was assessed using single and paired-pulse TMS measures such as resting motor threshold (RMT), motor-evoked potential (MEP), intracortical facilitation (ICF), short intracortical inhibition (SICI), and cortical silent period (CSP). All tasks showed significant reduction in pain perception represented by an increase in pressure pain threshold compared to the control condition (untrained hand). ANOVA indicated a difference among the three tasks regarding motor cortex excitability change. There was a significant increase in motor cortex excitability (as indexed by MEP increase and CSP shortening) for the simple hand movements. Conclusions/Significance: Although different motor tasks involving motor learning with and without visual feedback and simple hand movements appear to change pain perception similarly, it is likely that the neural mechanisms might not be the same as evidenced by differential effects in motor cortex excitability induced by these tasks. In addition, TMS-indexed motor excitability measures are not likely good markers to index the effects of motor-based tasks on pain perception in healthy subjects as other neural networks besides primary motor cortex might be involved with pain modulation during motor training

Directing visual attention during action observation modulates corticospinal excitability

Transcranial magnetic stimulation (TMS) research has shown that corticospinal excitability is facilitated during the observation of human movement. However, the relationship between corticospinal excitability and participants’ visual attention during action observation is rarely considered. Nineteen participants took part in four conditions: (i) a static hand condition, involving observation of a right hand holding a ball between the thumb and index finger; (ii) a free observation condition, involving observation of the ball being pinched between thumb and index finger; and (iii and iv) finger-focused and ball-focused conditions, involving observation of the same ball pinch action with instructions to focus visual attention on either the index finger or the ball. Single-pulse TMS was delivered to the left motor cortex and motor evoked potentials (MEPs) were recorded from the first dorsal interosseous (FDI) and abductor digiti minimi muscles of the right hand. Eye movements were recorded simultaneously throughout each condition. The ball-focused condition produced MEPs of significantly larger amplitude in the FDI muscle, compared to the free observation or static hand conditions. Furthermore, regression analysis indicated that the number of fixations on the ball was a significant predictor of MEP amplitude in the ball-focused condition. These results have important implications for the design and delivery of action observation interventions in motor (re)learning settings. Specifically, providing viewing instructions that direct participants to focus visual attention on task-relevant objects affected by the observed movement promotes activity in the motor system in a more optimal manner than free observation or no instructions

Virtual feedback for motor and pain rehabilitation after spinal cord injury

Item does not contain fulltextStudy design:Interventions using virtual feedback (VF) impact on motor functions and pain and may be relevant for neurorehabilitation after spinal cord injury (SCI) in which motor dysfunctions and (concomitant) pain are frequently observed. Potential mechanisms underlying VF include a modulation of cortical sensorimotor integration, increased therapy engagement and distraction from effort and pain. Still, the optimal parameters for VF and their technical implementation are currently unknown.Objectives:To provide an overview of interventions that have used VF to improve motor functions or to reduce pain after SCI.Methods:Literature review.Results:A total number of 17 studies were identified. VF interventions commonly focused on improving motor functions (n=12) or reducing pain (n=4). Only one study assessed both motor functions and pain. Studies generally report beneficial effects. However, the evidence is of low-level quality and many practical as well as theoretical issues remain unclear. Remaining knowledge gaps include: (1) optimal VF system characteristics, (2) the impact of different VF modalities and tasks, (3) dose-response relationships and (4) the identification of patients that are likely to benefit from VF. Future work should start by closing these knowledge gaps using systematic and controlled multi-session interventions and by assessing the underlying mechanisms involved.Conclusion:These results provide an important incentive to further assess the potential of VF interventions to simultaneously improve motor functions and reduce pain after SCI, which could contribute to better neurorehabilitation outcomes after SCI

Effect of local versus remote tonic heat pain during training on acquisition and retention of a finger-tapping sequence task

Although pain is present in a large proportion of patients receiving rehabilitation, its impact on motor learning is still unclear, especially in the case of neuropathic pain that is not tightly linked to specific movements. The aim of this study was to determine the effect of local and remote tonic cutaneous heat pain applied during training on motor learning of a finger-tapping sequence task. Forty-five healthy participants, randomized to the control, local pain or remote pain groups, were trained to perform an explicit finger motor sequence of five items as fast as possible. During the 10 training blocks (30 s each), local pain and remote pain groups received a heat pain stimulus on the wrist or leg, respectively. Performance was tested in the absence of pain in all groups before (baseline), immediately after (post-immediate), 60 min after (post-60 min) and 24 h after training (post-24 h) to assess both acquisition and next-day retention. Speed increased over time from baseline to post-24 h (p < 0.001), without any significant effect of group (p = 0.804) or time x group interaction (p = 0.385), indicating that the acquisition and retention were not affected by the presence of pain during training. No changes were observed on error rates, which were very low even at baseline. These results with experimental heat pain suggest that the ability to relearn finger sequence should not be affected by concomitant neuropathic pain in neurorehabilitation. However, these results need to be validated in the context of chronic pain, by including pain as a co-variable in motor rehabilitation trials

Defining post-stroke pain: diagnostic challenges.

Contains fulltext : 88177.pdf (publisher's version ) (Closed access)1 april 201