Multifocal motor neuropathy (MMN) is a rare inflammatory neuropathy characterized by slowly progressive, asymmetric distal limb weakness without sensory loss. The clinical presentation of MMN may mimic amyotrophic lateral sclerosis, other variants of motor neuron disease, or chronic inflammatory demyelinating polyneuropathy with asymmetric onset. Differentiation is important, as these diseases differ in prognosis and treatment. The electrophysiological finding of conduction block in the absence of abnormalities in sensory nerves is the hallmark of MMN, but can be difficult to detect. Intravenous immunoglobulin is efficacious in most patients, but long-term maintenance therapy does not prevent slowly progressive axonal degeneration. Moreover, cyclophosphamide, although effective, has substantial adverse effects, and the efficacy of other immunosuppressive drugs, including rituximab, is not established. The underlying pathological mechanisms of MMN are unclear, but IgM autoantibodies against the ganglioside GM1 may cause changes in nodal and perinodal structures that compromise nerve conduction. Further elucidation of the disease mechanisms may ultimately lead to improved treatment strategies. In this Review, we discuss the diagnostic criteria for MMN, and provide an update on the current understanding of MMN pathogenesis. We also describe available treatments and promising new therapeutic strategies.
In the second part of this review we deal with the clinical aspects of immune-mediated demyelinating neuropathies. We describe the relationship between pathophysiology and symptoms and discuss the pathophysiology of specific disease entities, including Guillain-Barré syndrome, chronic inflammatory demyelinating polyneuropathy, multifocal motor neuropathy, anti-myelin-associated glycoprotein neuropathy, and POEMS syndrome.
Increased weakness during cold (cold paresis) was reported in single cases of multifocal motor neuropathy (MMN). This was unexpected because demyelination is a feature of MMN and symptoms of demyelination improve, rather than worsen, in cold. It was hypothesized that cold paresis in MMN does not reflect demyelination only, but may indicate the existence of inflammatory nerve lesions with permanently depolarized axons that only just conduct at normal temperature, but fail at lower temperatures. We investigated symptoms of cold paresis in 50 MMN patients, 48 chronic inflammatory demyelinating polyneuropathy (CIDP) patients, 35 progressive spinal muscular atrophy (PSMA) patients, and 25 chronic idiopathic axonal polyneuropathy patients. We also investigated symptoms of increased weakness during warmth (heat paresis). Cold paresis was reported more often than heat paresis. Cold paresis was most frequently reported in MMN. Multivariate analysis indicated that MMN patients had a 4- to 6-fold higher risk of reporting cold paresis than CIDP or PSMA patients. Because cold paresis is not consistent with demyelination, the lesions in MMN may involve other mechanisms than demyelination only. In conclusion, symptoms of cold paresis are common in peripheral nervous system disorders, particularly in MMN. This supports the above-described hypothesis.
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