IMAGING OF INTRANEURIAL EDEMA USING GADOLINIUM-ENHANCED MRI IN ENTRAPMENT NEUROPATHY

Abstract

The aim of the present investigation is to study the status of the blood-nerve barrier in the carpal tunnel syndrome and cubital tunnel syndrome using gadolinium enhanced MRI.

The subjects were 68 patients (92 hands) with idiopathic carpal tunnel syndrome and 21 patients (23 elbows) with cubital tunnel syndrome.

The MRI equipment used was a 0.3-T permanent magnet. Using the SE method, T1-weighted axial images were obtained. Then, we intravenously injected gadolinium for enhanced images. We studied the relationship between nerve enhancement and the symptoms of the patients.

Out of 92 hands with carpal tunnel syndrome, 74 hands (80%) showed enhancement of the median nerve. The patients had 58 hands classified as Grade I (sensory disturbance only) out of which 44 hands (76%) showed nerve enhancement , as did 25 out of 29 hands (86%) classified as Grade II (I + thenar muscle atrophy) and all 5 hands (100%) classified as Grade III (II + disturbance of opposition). Enhancement was more prominent in the patients with thenar muscle atrophy. All 23 elbows with cubital tunnel syndrome revealed enhancement of the ulnar nerve. Two elbows were categorized as grade I (sensory disturbance only), 12 as grade II (I + 1’st inter-osseus muscle atrophy), and 9 as grade III (II + claw finger deformity)

In general, capillaries exist inside the endoneurial spaces of peripheral nerves. Intraneural homeostasis is maintained by the perineurium as a diffusion barrier and by the blood-nerve barrier existing in the endothelium. MRI could demonstrate intraneural enhancement at the site of nerve entrapment where intraneural edema resulted from an increase in the vascular permeability of the endoneurium. We conclude that gadolinium-enhanced MR imaging can detect morphological and functional changes of peripheral nerve in patients with entrapment neuropathy.