Stump currents in regenerating salamanders and newts

31 July 1984

journal article
research article
Published by Wiley in Journal of Experimental Zoology

Vol. 231 (2) , 249-256
https://doi.org/10.1002/jez.1402310209

Abstract

We report here that a variety of salamanders and newts from differing habitats all drive a steady ionic electric current out of the forelimb stump tip after forelimb amputation. Several hours after amputation the density of this stump current ranges from about 10 to 100 μA/cm² in most species, and declines with time. In most cases, the magnitude of the stump current is dependent on the concentration of Na⁺ in the external medium (an artificial pondwater), suggesting that the well-known Na⁺-dependent transcutaneous voltage described in amphibia (particularly frogs) is the EMF for this stump current. These measurements add to those previously reported for the North American red spotted newt (Notophthalmus viridescens), and suggest that electrical changes following amputation of urodele limbs are widespread among members of this group.

This publication has 17 references indexed in Scilit:

A steady efflux of ionic current predicts hind limb development in the axolotl
Journal of Experimental Zoology, 1983
What Is the Role of Naturally Produced Electric Current in Vertebrate Regeneration and Healing?
Published by Elsevier ,1982
Measurement of electrical currents emerging during the regeneration of amputated finger tips in children
Clinical Physics and Physiological Measurement, 1980
Reduction of sodium dependent stump currents disturbs urodele limb regeneration
Journal of Experimental Zoology, 1979
Bioelectricity and Regeneration
BioScience, 1979
Bioelectricity and regeneration: large currents leave the stumps of regenerating newt limbs.
Proceedings of the National Academy of Sciences, 1977
The electrical P.D. across the integument of some neotenous urodele amphibians
Comparative Biochemistry and Physiology Part A: Physiology, 1975
Salinity tolerance and osmoregulation in the salamanderBatrachoseps
Journal of Comparative Physiology B, 1975
The Study of NaCl Transport in Aquatic Animals
American Zoologist, 1970
Current and potential of frog skin in vivo and in vitro
Journal of Cellular and Comparative Physiology, 1962