Abstract
BackgroundManagement of brachial plexopathy requires proper localization of the site and nature of nerve injury. Nerve conduction studies and electrophysiological studies (ED) are crucial when diagnosing brachial neuropathy but these do not determine the actual site of the lesion. Conventional MRI has been used to evaluate the brachial plexus. Still, it carried the disadvantage of the inability to provide multi-planar images that depict the entire length of the neural plexus .It might be difficult to differentiate the brachial plexus nerves from adjacent vascular structures. Magnetic resonance neurography (MRN) is an innovative imaging technique for direct imaging of the spinal nerves. Our study aims to detect the additive role of MRN in the diagnosis of brachial plexopathy over ED. Forty cases of clinically suspected and proved by clinical examination and ED—traumatic (N = 30) and non-traumatic (N = 10)—were included in our study. We compared MRN finding with results of clinical examination and ED.ResultsMRN findings showed that the root was involved in 80% of cases, trunks in 70% of cases affecting the middle trunk in 40% of cases, the middle and posterior cord in 25%, lateral cord in 50%, and terminal branches on 10% of cases. Ten percent of cases were normal according to MRN, and 90% had abnormal findings in the form of preganglionic nerve root avulsion in 30% of cases, mild perineural edema surrounding C6/7 nerve roots in 20%, lower brachial trunk high signal in 10%, complicated with pseudo meningocele in 20%, and with increased shoulder muscle T2 signal intensity with muscle atrophy in 10%. There were minimal differences between clinical examination finding and MRN findings, with very good agreement between electromyography and nerve conduction (p value < 0.05, with sensitivity and specificity values of 94.44% and 100%, respectively).ConclusionMRN is important in differentiating different types of nerve injuries, nerve root avulsion, and nerve edema, playing an important role in differentiating the site of nerve injury, both preganglionic or postganglionic and planning for treatment of the cause of nerve injury, either medical or surgical.
Highlights
Management of brachial plexopathy requires proper localization of the site and nature of nerve injury
We show that 10% of cases (4 cases) were normal according to Magnetic resonance neurography (MRN) and 90% (36) had abnormal finding in the form of complete avulsion with pseudo meningocele and distal changes in the form of edema of distal trunks and divisions (24), distal muscle affection in 18 cases (18/24), brachial neuritis in the form of nerve thickening and high SI in FIASTA sequences 20% (8 cases), brachial neuritis in the form of nerve thickening and high SI in FIASTA sequences with distal muscle affection 20% (8 cases) as muscle edema, decrease in the muscle bulk, and muscle atrophy or combination of them
We found minimal differences between the clinical examination findings and the MRN findings, and good agreement between electromyography, nerve conduction, and the MRN finding, with a sensitivity of 94.44% and a specificity of 100%
Summary
Management of brachial plexopathy requires proper localization of the site and nature of nerve injury. The brachial plexus is a network of nerves formed by the ventral branches of the spinal nerves C5–T1 in the posterior triangle of the neck. It is responsible for motor and sensory innervation to the upper extremity [1, 2]. Traumatic injuries to the brachial plexus are associated with weakness and paresthesia of the upper extremity on the affected side. A thorough neurologic examination can be performed to localize the injury and to help pinpoint the location of pathology [4, 5]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
