Bilateral motor cortex disinhibition in complex regional pain syndrome (CRPS) type I of the hand
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Based on bed-side neurological testing, it has recently been shown that 33% of chronic complex regional pain syndrome (CRPS) type I patients exhibit sensory impairments, which extend past the painful area of the affected limb in a hemisensory distribution (Pain, 80 (1999) 95). In the present study, the clinically observed changes in touch and temperature sensations on the side of the body ipsilateral to the affected limb were investigated quantitatively. Neurophysiological and psychological examinations were conducted to detect changes in the peripheral and central nervous system as well as psychopathological abnormalities. In 40 patients with CRPS, a bed-side neurological examination was performed. Quantitative sensory testing was conducted at five locations on each side of the body. The evaluation of touch thresholds was performed using von Frey filaments (n=40). To measure cool, warm and heat pain thresholds quantitatively, a thermal stimulator using a Peltier-element was used (n=28). With respect to clinical findings, the initiating trauma and severity of abnormalities on nerve conduction testing, three patients were diagnosed as having a reliable CRPS II (causalgia) and five patients a possible CRPS II. Thirty-two patients were diagnosed as having a CRPS I.On clinical examination, 15 patients revealed generalized sensory deficits on the side of the body ipsilateral to the affected limb (hemisensory deficit, n=12; sensory impairment in the upper quadrant of the body, n=3). Patients with these generalized sensory deficits had a significantly longer illness duration (P<0.05) and a significantly higher percentage of mechanical allodynia/hyperalgesia than patients with spatially restricted sensory deficits (n=25) (P<0.05). In patients with generalized sensory impairment, thresholds for touch, warm and cold sensations, and for heat pain were significantly increased at all five locations tested ipsilaterally compared with the contralateral body side, except for the cool threshold on the chest and the heat pain threshold distally on the affected limb. In patients with sensory deficits limited to the affected limb, the touch threshold was significantly higher only in the distal part of the affected limb when compared with the contralateral limb. In these patients, thermal testing revealed almost no differences in cool, warm and heat pain thresholds when comparing both sides. Repeated thermal testing conducted in five patients with generalized sensory impairment reproduced the significant differences between both sides for cool, warm and heat pain thresholds. However, the correlation between the results obtained in the first and second examinations was poor. Neurophysiological recordings revealed pathological results in 46% for nerve conduction studies, 24% for somatosensory evoked potentials and 39% for sympathetic skin response. For all methods applied, there was no statistically significant difference in the incidence of pathological results between patients with generalized and patients with spatially restricted s...
The purpose of the present study was to investigate the extent and quality of sensory impairment and their relation to pain characteristics and movement disorders in patients suffering from complex regional pain syndrome (CRPS) type I. Neurological testing was performed independently by two examiners in 24 patients with CRPS type I. In eight patients (33%), a hemisensory impairment with decreased temperature and pinprick sensation ipsilateral to the limb affected by CRPS could be observed. In four patients (17%), a sensory deficit in the upper quadrant of the body could be demonstrated and in eight patients (33%), sensory impairment was limited to the limb affected by CRPS. Mechanical allodynia and mechanical hyperalgesia could be observed in a higher percentage of patients with hemisensory deficit or sensory impairment in the upper quadrant (92%), than in those patients with sensory impairment limited to the affected limb (17%) (P < 0.005). In patients with left-sided CRPS, sensory abnormalities in the upper quadrant or hemisensory impairment were more frequently demonstrated (77%) than in patients with right-sided CRPS (18%) (P < 0.005). There was a high correlation (92%) for the sensory findings between the two examiners, and hemisensory abnormalities were stable over a period of 3-6 months in all six patients with repeated examinations. Motor impairment (contractures, weakness, tremor or difficulties in initiating movement) could be observed in a higher percentage in patients with sensory abnormalities in the upper quadrant or hemisensory impairment (83%) than in patients with sensory impairment limited to the affected limb (42%) (P < 0.05) and was significantly correlated with allodynia/hyperalgesia (P < 0.005). The results demonstrated that sensory deficits in patients with CRPS, frequently extend past the painful area of the affected limb. The increased frequency of mechanical allodynia and movement disorders in patients with hemisensory impairment or sensory deficits in the upper quadrant, might indicate that central mechanisms are involved in the pathogenesis of CRPS in these patients.
In order to determine the frequency of neck vessel injuries, Doppler investigations were performed in 60 patients following either severe head injury (n = 29), cervical spine injury (n = 26), or combined head and cervical spine injury (n = 5). The majority of patients were referred to our hospital for early rehabilitation; before admission Doppler investigations had been performed in only 2 patients. Clinically, 3 patients sustained severe cerebral ischemia due to neck vessel trauma: 1 patient with left-sided ICA dissection after head trauma revealed Doppler abnormalities only in the early phase of the disease; the second patient demonstrated persistent Doppler abnormalities due to traumatic right-sided ICA and VA occlusion. The third patient sustained a fatal vertebral and basilar artery thrombosis following cervical spine injury. In 57 patients without clinical signs suspicious of neck vessel trauma, sonography revealed abnormali- ties in 3 patients (11%) with severe head injury and in 6 patients (20%) with cervical spine or combined head and spine injury, in both groups mainly related to the vertebrobasilar system. Neck vessel injury is probably an underdiagnosed complication of severe head or cervical spine trauma. Although interpretation of Doppler findings may be difficult, particularly in the vertebrobasilar system, Doppler investigations can be recommended as a screening method to exclude neck vessel injuries.
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