Pathology May Distinguish Two Causes of Localized Motor Neuropathy: Multifocal Chronic Inflammatory Demyelinating Polyradiculoneuropathy and Multifocal Motor Neuropathy

Figure 7-1 3-Tesla T1-weighted axial magnetic resonance imaging scan of the brachial plexus from Case A showing enlarged cords (arrow) adjacent to the subclavian vein (arrowhead).



A right brachial plexus (medial cord) fascicular biopsy was performed. Two fascicles were obtained, each of which showed a focal area of centrally reduced myelinated fiber density; some of the fibers in these areas showed abnormally thin myelin, and regenerating clusters were present. Electron micrographs of the affected areas revealed onion bulb formations (Fig. 7-2). In addition, there were individual endoneurial inflammatory cells. Teased fiber evaluation showed 5% segmental remyelination, which is within normal limits. The patient was diagnosed as having multifocal CIDP, and treated with intravenous immunoglobulin (IVIg), which halted the progression of her symptoms. When IVIg was decreased from once every 2 weeks to once monthly, the patient had significant worsening of leg weakness. Her symptoms improved back to her baseline, with stabilization when the IVIg was again increased to every 2 weeks. On this treatment, she has remained stable for the past 6 months.


image

Figure 7-2 Right brachial plexus biopsy from a patient with purely motor syndrome primarily involving right upper limb (Case A) showing long-term inflammatory demyelinating changes. Teased fiber preparations show segmental demyelination (upper left), CD45 shows small collections of endoneurial leukocytes (upper right), and low-power epoxy sections stained with methylene blue show focal fiber loss reminiscent of the focal fiber loss of multifocal motor neuropathy (middle left). However, on high power, the area that appears as focal fiber loss is full of onion bulbs (arrows, middle right) and occasional regenerating clusters (arrowhead). The onion bulbs are better seen on electron microscopy at low (lower left, arrows) and high (lower right) powers. These focal areas of onion bulbs are markedly different than what we have seen in multifocal motor neuropathy and are strong evidence for focal multifocal chronic inflammatory demyelinating polyradiculoneuropathy.




Case B


A 46-year-old dextral man presented with a 6-year history of slowly progressive painless weakness and wasting of the intrinsic muscles of the right hand and a 1-year history of painless progressive weakness and wasting of the left hand, left biceps, and left brachioradialis muscles. He reported no sensory changes, no bladder or bowel involvement, and no cranial nerve symptoms. Occasional cramps were noted in both hands. There was no family history of neurologic disease. NCS revealed absent right median and ulnar motor responses with normal sensory nerve studies in the same nerves across the same segments. On the left side, there was a definite conduction block in the left median nerve 4 to 5 cm proximal to the wrist crease, and a probable conduction block in the left radial nerve between the axilla and the elbow. All sensory studies in the left arm were normal. Motor and sensory studies of both lower extremities were normal. Needle electromyographic examination revealed widespread partial active denervation and regeneration of C6 to C8 segmental muscles on the right and to a lesser extent on the left. Laboratory investigations revealed high titer immunoglobulin M antibodies to ganglioside epitopes GM1 and asialo GM1. Other routine laboratory investigations as per Case A were normal. CSF evaluation was entirely normal.


He underwent bilateral fascicular median nerve biopsies in the forearm using intraoperative NCS of select fascicles demonstrating conduction block. Postoperatively, there was no change in his upper limb neurologic status. The right median biopsy contained two fascicles, and the left biopsy contained two to four fascicles. Multiple level teased fiber examinations of the biopsies revealed a slightly increased rate of axonal degeneration (left 5%, right 8%). Both biopsies on light microscopy revealed no evidence of demyelination or inflammation, and staining for amyloid was negative. Light microscopy revealed a mildly increased number of degenerating profiles on both biopsies, worse on the right, decreased fiber density on the right, and prominent regenerative clusters on the left. These findings were confirmed on computerized nerve morphometry (Fig. 7-3). These findings are consistent with those reported in MMN and are interesting in that they reflect the clinical condition well; as there is a clear difference between the sides with the more recently affected side (left) showing far less involvement and significantly more evidence of nerve regeneration. Whereas on the right, there is severe clinical disease, some decrease in fiber density with selective loss of large fibers, an increased rate of axonal degeneration, but little evidence for regeneration.


image

Figure 7-3 Teased and epoxy sections taken from left and right fascicular nerve biopsies from the sites of conduction blocks. On the left median biopsy, there is axonal degeneration on teased fibers (upper left), normal distribution of both large and small myelinated fibers on epoxy section (middle left) and myelinated fiber size histogram (lower left) showing normal bimodal size distribution with large and small myelinated fibers. In contrast, the right median fascicular biopsy also shows axonal degeneration on teased fibers (upper right) but shows a loss of large myelinated nerve fibers on epoxy sections (middle right) and an abnormal size histogram (lower right) with loss of large myelinated fibers and increased small myelinated fibers. This supports a shift of large to small fibers.

Only gold members can continue reading. Log In or Register to continue

Stay updated, free articles. Join our Telegram channel

Dec 16, 2016 | Posted by in NEUROLOGY | Comments Off on Pathology May Distinguish Two Causes of Localized Motor Neuropathy: Multifocal Chronic Inflammatory Demyelinating Polyradiculoneuropathy and Multifocal Motor Neuropathy

Full access? Get Clinical Tree

Get Clinical Tree app for offline access