Using threshold tracking, differences have been established between large myelinated sensory and α motor axons in humans. Major differences are that sensory axons are relatively depolarised at rest such that they have a greater persistent Na⁺ current, and have greater activity of hyperpolarisation-activated cyclic nucleotide-gated (HCN) channels. Sensory axons may thereby be protected from hyperpolarising stresses, and are less likely to develop conduction block. However, the corollary is that sensory axons are more excitable and more likely to become ectopically active.

Citations

• Strength-duration properties and excitability of motor and sensory axons across different target thresholds
  Yoshimitsu Shimatani, Cindy Shin-Yi Lin, José Manuel Matamala, Matthew C. Kiernan
  Journal of Neurophysiology.2023; 129(6): 1434.     CrossRef
• Does Essential Tremor Alter the Axonal Excitability Properties of Lower Motor Neurons?
  Yerim Kim, Young Eun Kim, Joo Young Lee, Hyeo-Il Ma, Soon Kyung Shim, Sun min Yoon, Jong Seok Bae
  Journal of Clinical Neurophysiology.2022; 39(6): 492.     CrossRef
• Autonomic and Somatic Nerve Functions in Type 2 Diabetes Mellitus Patients: Electrophysiological Aspects
  Anca Motataianu, Laura Barcutean, Zoltan Bajko, Adina Stoian, Smaranda Maier, Septimiu Voidazan, Rodica Balasa
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• Simulating perinodal changes observed in immune-mediated neuropathies: impact on conduction in a model of myelinated motor and sensory axons
  Boudewijn T. H. M. Sleutjes, Maria O. Kovalchuk, Naric Durmus, Jan R. Buitenweg, Michel J. A. M. van Putten, Leonard H. van den Berg, Hessel Franssen
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