Effect of Tissue Temperatures and Blood Flow on Motor Nerve Conduction Velocity

Abstract

The existence of a relationship between peripheral nerve conduction velocity and ambient temperature is supported by considerable experimental evidence.^1-5 For example, Rosenberg and Sugimoto¹ exposed the sciatic nerve of frogs to a temperature range of 78.8 to 38.3 F (26 to 3.5 C) and noted that, on the average, conduction velocity decreased from 33 meters/sec to 6 meters/sec, the change occurring slowly above 53.6 F (12 C) and rapidly below this level. Gasser,² using the phrenic nerve of the dog, also showed that cooling this structure decreased its conduction velocity. Chatfield et al³ subsequently performed a similar type of procedure on the tibial nerves of rats and hamsters and came to the same conclusion. Tasaki and Fujita,⁴ studying the isolated single nerve fiber of the toad, found that the relationship between the ambient temperature and the logarithms of conduction time, spike duration, and chronaxie for