Threshold tracking was used to assess the excitability of sensory and motor axons. Measurements were sequentially performed before and after bortezomib treatment in nine patients with newly diagnosed multiple myeloma.
In total, 67% of patients finally developed symptomatic neuropathy. Changes in sensory axonal excitability indices readily occurred after the first course of administration. Patterns of changes in excitability indices suggest membrane depolarization (decreased superexcitability, P < 0.001; decreased depolarizing threshold electrotonus 90-100 ms, P = 0.02). Abnormalities in nerve conduction parameters suggestive of axonal degeneration appeared after the second course of treatment.
Bortezomib induces a depolarizing shift in resting membrane potential prior to the development of neuropathy. Membrane depolarization could be associated with impairment of electrogenic Na+-K+-ATPase-dependent pump caused by toxic effects of bortezomib on mitochondria.
Axonal depolarization and hyperexcitability might enhance neurodegeneration in bortezomib-induced neuropathy.