TY  - JOUR
A1  - ,  
T1  - Computational study of the effect of forced exercise (swim stress) on the NADPH-diaphorase activity in the supraoptic nucleus
JO  - Eur. J. Anat.
SN  - 1136-4890
Y1  - 2002
VL  - 6
SP  - 65
EP  - 69
UR  - http://www.eurjanat.com/web/paper.php?id=02020065
KW  - nitric oxide synthase
KW  - reduced nicotinamide adenine dinucleotide phosphate dehydrogenase
KW  - animal experiment
KW  - animal tissue
KW  - anterior hypothalamus
KW  - article
KW  - cholestasis
KW  - cold exposure
KW  - exercise test
KW  - histochemistry
KW  - hybridization
KW  - hypotension
KW  - hypothalamus
KW  - immobilization
KW  - immunohistochemistry
KW  - male
KW  - nitrergic nerve
KW  - nonhuman
KW  - rat
KW  - salt loading
KW  - supraoptic nucleus
KW  - water deprivation
N2  - Nitric oxide synthesizing neurons of the hypothalamus show changes following a variety of experimental and pathological conditions, such as salt loading, hypotension, cholestasis, water deprivation, and several types of stress including immobilization, exposure to low temperature and changes of environment. Recently, our group has shown that forced exercise (swim stress) is an additional stressor for the nitrergic neurons located in the paraventricular nucleus of the hypothalamus. On the other hand it is currently well-known, by means of histochemical (NADPH-diaphorase), immunohistochemical and hybridization methods, that the supraoptic nucleus contains an important nitrergic population of neurons. In the present study, the effect of forced exercise on these neurons was investigated in a computational study of the NADPH-diaphorase positive population of the supraoptic nucleus. A significant increase in the number of positive neurons was observed following forced swimming, especially after 30 and 40 min. These data indicate: 1.- The influence of stress on the NADPH-diaphorase-activity in the supraoptic nucleus. 2.- The involvement of hypothalamic nitric oxide synthesizing-neurons in the response to different types of acute stressors. 3.- The excellence of a combination of morphological and computational tecniques for the detection of changes in plasticity of the hypothalamic neurons.
ER  -