Corticosterone levels in mice exposed to high-intensity electric fields.
med./bio.
By:
Hackman RM, Graves HB
Published in: Behav Neural Biol 1981; 32 (2): 201-213
Journal partially peer-reviewed/unclear
This article has not been summarized yet.
You have to be logged in to request a summary of this article.
Exposure
Related articles
-
Harakawa S et al.
(2020):
Gender and Age Differences in the Suppressive Effect of a 50 Hz Electric Field on the Immobilization-Induced Increase of Plasma Glucocorticoid in Mice.
-
Harakawa S et al.
(2020):
Extremely low-frequency electric field suppresses not only induced stress response but also stress-related tissue damage in mice.
-
Hori T et al.
(2018):
Characterization of the suppressive effects of extremely-low-frequency electric fields on a stress-induced increase in the plasma glucocorticoid level in mice.
-
Hori T et al.
(2017):
Configuration-dependent variability of the effect of an electric field on the plasma glucocorticoid level in immobilized mice.
-
Harakawa S et al.
(2017):
Time-dependent changes in the suppressive effect of electric field exposure on immobilization-induced plasma glucocorticoid increase in mice.
-
Hori T et al.
(2015):
Exposure to 50 Hz electric fields reduces stress-induced glucocorticoid levels in BALB/c mice in a kV/m- and duration-dependent manner.
-
Harakawa S et al.
(2004):
Effect of a 50 Hz electric field on plasma ACTH, glucose, lactate, and pyruvate levels in stressed rats.
