Role of brain metabolites during acute phase of mild traumatic brain injury in prognosis of post-concussion syndrome: A 1H-MRS study.

This study has investigated the potency and accuracy of early magnetic resonance spectroscopy (MRS) to predict post-concussion syndrome (PCS) in adult patients with a single mild traumatic brain injury (mTBI) without abnormality on a routine brain scan. A total of 48 eligible mTBI patients and 24 volunteers in the control group participated in this project. Brain MRS over regions of interest (ROI) and signal stop task (SST) were done within the first 72 hours of TBI onset. After six months, PCS appearance and severity were determined. In non-PCS patients, N-acetyl aspartate (NAA) levels significantly increased in the dorsolateral prefrontal cortex (DLPFC) and anterior cingulate cortex (ACC) relative to the control group, however, this increase of NAA levels were recorded in all ROI versus PCS subjects. There were dramatic declines in creatinine (Cr) levels of all ROI and a decrease in choline levels of corpus callosum (CC) in the PCS group versus control and non-PCS ones. NAA and NAA/Cho values in ACC were the main predictors of PCS appearance. The Cho/Cr level in ACC was the first predictor of PCS severity. Predicting accuracy was higher in ACC than in other regions. This study suggested the significance of neuro-markers in ACC for optimal prediction of PCS and rendered a new insight into the biological mechanism of mTBI that underpins PCS.

Iatrogenic Cervical Nerve Root Injury After Spine Surgery: How Nerve Surgeons Can Assist Spine Surgeons.

BACKGROUND: Iatrogenic cervical nerve root injury may occur during cervical spine surgeries, which leads to upper limb palsy. The question of how a permanent iatrogenic upper limb palsy would be managed remains unclear. Recent developments of nerve transfer have led to a considerable interest in its applications. This study outlines a new reconstructive approach forupper limb palsy following cervical spine surgery using nerve transfer. METHODS: In an attempt to reconstruct iatrogenic upper limb palsy, we performed nerve transfer in 4 patients with permanently lost functions. Medical Research Council Scale for Muscle Strength was used to assess muscle strength. Electromyography was performed to assess the reinnervation of the target muscles. RESULTS: All patients underwent surgery between 7 and 12 months after primary injury. Spinal accessory nerve to suprascapular nerve transfer with or without transferring the long head of triceps branch of the radial nerve to anterior branch of the axillary nerve was used to reconstruct shoulder abduction in 2 patients. Double fascicular nerve transfer (a fascicle of the ulnar nerve to biceps branch and a fascicle of the median nerve to brachialis branch of the musculocutaneous nerve) was used to reconstruct elbow flexion in 3 patients. One patient had lost both his elbow flexion and shoulder abduction. After a mean of 10 months of follow-up, all patients improved to a muscle strength of M4 without donor deficit. CONCLUSION: In our view, these results represent an excellent initial step toward the treatment of iatrogenic nerve root injury after spine surgery.