OBJECTIVE:Complex regional pain syndrome I (CRPS I) is a frequent and debilitating condition with unclear etiology. Hypothesizing that maladaptive central processes play a crucial role in CRPS, the current study set out to explore cerebral activation during a task to suppress the feeling of pain under constant painful stimulation. METHODS:Ten individuals with CRPS I with symptoms on their left hand were subjected to electrical stimulation of both index fingers subsequently in a functional magnetic resonance imaging experiment. Their data were compared with 15 healthy controls. RESULTS: Concerning psychophysical measures, patients succeeded similarly as healthy controls in suppressing the feeling of pain. However, during constant painful stimulation and with the task to suppress the feeling of pain, there were significant differences in the interaction analyses of the corresponding cortical activation. DISCUSSION: Patients differ from healthy controls by the activation pattern of cerebral areas that belong to the descending opioid pain suppression pathway: PAG and cingulate cortex are activated significantly less during suppression of pain, regardless of whether the symptomatic or asymptomatic hand was stimulated. Thus, there is a generalized functional change in individuals with CRPS I. However, it cannot be deducted whether the abnormality is causative or merely an effect, possibly maladaptive.
RCT Entities:
OBJECTIVE: Complex regional pain syndrome I (CRPS I) is a frequent and debilitating condition with unclear etiology. Hypothesizing that maladaptive central processes play a crucial role in CRPS, the current study set out to explore cerebral activation during a task to suppress the feeling of pain under constant painful stimulation. METHODS: Ten individuals with CRPS I with symptoms on their left hand were subjected to electrical stimulation of both index fingers subsequently in a functional magnetic resonance imaging experiment. Their data were compared with 15 healthy controls. RESULTS: Concerning psychophysical measures, patients succeeded similarly as healthy controls in suppressing the feeling of pain. However, during constant painful stimulation and with the task to suppress the feeling of pain, there were significant differences in the interaction analyses of the corresponding cortical activation. DISCUSSION: Patients differ from healthy controls by the activation pattern of cerebral areas that belong to the descending opioid pain suppression pathway: PAG and cingulate cortex are activated significantly less during suppression of pain, regardless of whether the symptomatic or asymptomatic hand was stimulated. Thus, there is a generalized functional change in individuals with CRPS I. However, it cannot be deducted whether the abnormality is causative or merely an effect, possibly maladaptive.
Authors: Jessica A Cucinello-Ragland; Roshaun Mitchell-Cleveland; W Bradley Trimble; Amy P Urbina; Alice Y Yeh; Kimberly N Edwards; Patricia E Molina; Liz Simon Peter; Scott Edwards Journal: Neurosci Lett Date: 2021-07-17 Impact factor: 3.197
Authors: Wolfgang Freund; Sonja Faust; Christian Gaser; Georg Grön; Frank Birklein; Arthur P Wunderlich; Marguerite Müller; Christian Billich; Uwe H Schütz Journal: BMC Sports Sci Med Rehabil Date: 2014-01-17