Electrophysiologic mapping and cadaveric dissection of the lateral foot: implications for tibial motor nerve conduction studies. Arch Phys Med Rehabil 1998 Jul;79(7):823-6
Date
07/31/1998Pubmed ID
9685099DOI
10.1016/s0003-9993(98)90364-1Scopus ID
2-s2.0-0031830463 (requires institutional sign-in at Scopus site) 10 CitationsAbstract
OBJECTIVE: To clarify, through electrophysiologic mapping and cadaveric dissection of the lateral foot, the previously published "proximal" and "distal" recording sites for tibial motor nerve conduction studies.
DESIGN: Observational.
SETTING: Electromyography laboratory; anatomy laboratory.
PATIENTS OR OTHER PARTICIPANTS: Ten asymptomatic feet; eight cadaveric feet.
MAIN OUTCOME MEASURES: (1) Amplitudes and onset latencies of compound muscle action potentials (CMAPs) recorded over a grid on the lateral foot that included the "proximal" and "distal" recording sites; (2) nerve supply and anatomic boundaries of the abductor digiti minimi pedis (ADMP) and nearby muscles, particularly as they relate to the above recording sites.
RESULTS: (1) Relatively large CMAPs were recorded at and around the "proximal" and "distal" sites, with significantly shorter "proximal" latencies. (2) In all cadaveric feet, ADMP was innervated by only the inferior calcaneal nerve (ICN) and was located deep to the "proximal" site, with virtually no muscle fibers deep to the "distal" site. The flexor digiti minimi brevis (FDMB) was conspicuously located immediately deep to the "distal" site and was innervated by only the lateral plantar nerve (LPN).
CONCLUSIONS: This study strongly suggests that the "proximal" site records predominantly from the ICN-innervated ADMP, whereas the "distal" site predominantly records from the LPN-innervated FDMB.
Author List
Del Toro DR, Mazur A, Dwzierzynski WW, Park TAAuthor
David R. Del Toro MD Professor in the Physical Medicine and Rehabilitation department at Medical College of WisconsinMESH terms used to index this publication - Major topics in bold
AdultFemale
Foot
Humans
Male
Motor Neurons
Muscle, Skeletal
Neural Conduction
Reaction Time
Reference Values
Tibial Nerve