The review considers the basic stages in the study of rhythm transformation in the nerve fibers by local anesthetics and underlying use-dependent block of sodium channels. A potency of use-dependent local anesthetics to produce the rhythm transformation in nociceptive nerve fibers sufficient to attain local anesthesia without complete block of conduction was examined. A hypothesis was tested on attaining the conditions of local anesthesia by a decrease in discharge frequency of C-fiber nociceptors below the critical level separating the firing frequency in these sensors corresponding to their excitation with subnociceptive and nociceptive chemical stimuli. This critical level (about 2 Hz) was determined by comparison of the discharges in feline cutaneous C-fiber nociceptors during injection of chemical nociceptive and non-nociceptive stimuli. The discharge frequency in C-fiber nociceptors can be decreased in a use-dependent manner below the critical level by subcutaneous injection of lidocaine or N-propyl-ajmaline. The importance of use-dependent local anesthesia for preservation of trophic influences of the nervous system in the damaged tissue is discussed.