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Abstract
Background
Deafferentiation pain following brachial plexus root avulsion has been documented to be severe enough to affect activities of daily living in patients. Microsurgical DREZotomy is known to alleviate the symptoms by decreasing the afferent signals transmitted from the spinal cord to sensory cortex.
Objectives
To document and analyse the effectiveness of DREZotomy and to evaluate the role of ‘sensory cortex’ in the cause and relief of dysesthetic pain, using fMRI.
Materials and methods
This was a prospective study conducted between 2010 and 2016 and included all patients who underwent DREZotomy for dysesthetic pain following traumatic brachial plexus injury (TBPI). Patients were evaluated both preoperatively and postoperatively with Visual Analogue Scale(VAS), Hospital Anxiety and Depression score (HADS) and SF36 questionnaire and effectiveness of surgery was assessed. Functional magnetic resonance imaging (fMRI) of the brain in resting state was performed before and after surgery and was also compared with controls. Patients underwent standard microsurgical DREZotomy from C5 to D1. Postoperative assessment was done at 6 weeks and 6 months following surgery.
Results
Our series had 18 patients aged between 22 and 63 years. RTA was the most common cause of injury. There was significant decrease in pain at 6 months follow up compared to pre-operative values as assessed by VAS, HADS, SF36 questionnaire. fMRI analysis revealed cluster activations in the sensory, motor cortex and in the right cingulate gyrus in the preoperative group which was higher than in normal controls. In the postoperative group, the size of the resting state activation was significantly reduced.
Conclusion
DREZotomy is an effective procedure for TBPI patients. We hypothesize that these fMRI findings reflect the cortical reorganization that occurs not only after injury but also following successful surgery which explains the cause and relief of dyesthetic pain.