Prognosis of Pain After Stroke During Rehabilitation Depends on the Pain Quality.

OBJECTIVE: Pain after a stroke interferes with daily life and the rehabilitation process. This study aimed to clarify the prognosis of pain in subgroups of patients with pain after a stroke using pain quality data. METHODS: The study included 85 patients with pain after stroke undergoing exercise-based rehabilitation. Items of the Neuropathic Pain Symptom Inventory (NPSI) were used, and patients with pain after stroke were clustered according to their scores of NPSI. Other clinical assessments, such as physical and psychological conditions, were assessed by interviews and questionnaires, and then these were compared among subgroups in a cross-sectional analysis. Longitudinal pain intensity in each subgroup was recorded during 12 weeks after the stroke and the patients' pain prognoses were compared between subgroups. RESULTS: Four distinct subgroups were clustered: cluster 1 (cold-evoked pain and tingling), cluster 2 (tingling only), cluster 3 (pressure-evoked pain), and cluster 4 (deep muscle pain with a squeezing and pressure sensation). The cross-sectional analysis showed varying clinical symptoms among the subgroups, with differences in the prevalence of joint pain, limited range of motion, somatosensory dysfunction, and allodynia. There were no significant differences in pain intensity at baseline among the subgroups. A longitudinal analysis showed divergent prognoses of pain intensity among the subgroups. The pain intensity in cluster 4 was significantly alleviated, which suggested that musculoskeletal pain could be reduced with conventional exercise-based rehabilitation. However, the pain intensity of patients in clusters 1 and 2 remained over 12 weeks. CONCLUSION: The study classified patients into clinically meaningful subgroups using pain quality data and provided insight into their prognosis of pain. The findings could be useful for guiding personalized rehabilitation strategies for pain management. IMPACT: Assessment of pain quality in patients with pain after stroke leads to personalized rehabilitation for pain management.

Thermal Grill Illusion in Post-Stroke Patients: Analysis of Clinical Features and Lesion Areas.

Purpose: In the thermal grill illusion, participants experience a feeling similar to burning pain. The illusion is induced by simultaneously touching warm and cool stimuli in alternating positions. In post-stroke pain, central sensitization is caused by a variety of factors, including damage to the spinothalamic tract and shoulder pain. Because the thermal grill illusion depends on central mechanisms, it has recently been suggested that it may be a useful indicator of central sensitization. Therefore, we hypothesized that post-stroke patients who are more likely to experience central sensitization may also be more likely to experience a thermal grill sensation of pain and discomfort than the likelihood among those who are less likely to experience central sensitization. However, the effects of the thermal grill illusion in post-stroke patients have not yet been reported. In this pilot study, we conducted the thermal grill illusion procedure in post-stroke patients and analyzed the relationship between clinical somatosensory functions and thermal grill sensations. We also conducted brain imaging analysis to identify brain lesion areas that were associated with thermal grill sensations. Patients and Methods: Twenty patients (65.7 ± 11.9 years old) with post-stroke patients participated in this study. The thermal grill illusion procedure was performed as follows: patients simultaneously touched eight water-filled copper bars, with the water temperature adjusted to provide alternate warm (40°C) and cold (20°C) stimuli. Results: Thermal grill sensation of pain and discomfort tended to be associated with the wind-up phenomenon in bedside quantitative sensory testing and thermal grill sensation of discomfort was also related to damage to the thalamic lateral nucleus. Conclusion: These findings suggest that the thermal grill illusion might measure central sensitization, and that secondary brain hyperactivity might lead to increased thermal grill sensations.

Dystonia-like Movement Disorders Ameliorated by Shear Force and Pressure Stimulation after Small Infarction in the Left Posterolateral Thalamus.

Focal dystonia (FD) can develop after thalamic lesions. Abnormal somatic sensations were argued to be responsible for FD. Our patient experienced FD-like movement disorders, agraphesthesia, and a reduced sense of shear force on the skin and pressure to deep tissues of the right upper limb following a small infarction in the left posterolateral thalamus. FD-like symptoms improved while the skin was being pulled or the deep tissue was being pushed in a manner proportional to the strength of muscle contractions. Therefore, the lack of these sensations was suggested to be related to FD-like symptoms.

Effect of neurocognitive rehabilitation on upper limb function in community-dwelling chronic stroke patients: A pilot study.

BACKGROUND: Although it has been reported that neurocognitive rehabilitation is effective for improving upper limb function in acute and subacute stroke patients, its effectiveness has not been clarified in community-dwelling chronic stroke patients. OBJECTIVE: To examine the effect of neurocognitive rehabilitation on upper limb function in community-dwelling chronic stroke patients. METHODS: Eight community-dwelling chronic stroke patients participated in the study. The mean period from the stroke onset to the start of the intervention was 425.3 days (approximately 14 months post-stroke). All patients received neurocognitive rehabilitation for 60 min, twice per week, for 3 months. Fugl-Meyer Assessments (FMA) were performed, and the amount of use (AOU) and quality of movement (QOM) of the Motor Activity Log (MAL) were measured before and after the intervention. We used the Wilcoxon signed-rank test to analyze the data. RESULTS: The total, shoulder/elbow/forearm, and wrist scores of the FMA, MAL-AOU, and MAL-QOM significantly improved after the intervention compared to those before the intervention. However, significant improvement was not observed in the hand score of the FMA. CONCLUSION: Neurocognitive rehabilitation could be effective for improving upper limb function in community-dwelling chronic stroke patients.