Synergistic interactions between footshocks and non-osmotic hypovolemia on vasopressin secretion in rats

@article{Shibuki1987SynergisticIB,
  title={Synergistic interactions between footshocks and non-osmotic hypovolemia on vasopressin secretion in rats},
  author={Katsuei Shibuki and Tatsushi Onaka and Mitsuko Hamamura and Kinji Yagi and San‐e Ishikawa and Toshikazu Saito and S Yoshida},
  journal={Brain Research},
  year={1987},
  volume={410},
  pages={140-142}
}
Vasopressin secretion: suppression after light and tone stimuli previously paired with footshocks in rats
TLDR
The hypothesis that emotional stimuli suppress VP secretion is supported, as rats under a hypertonic condition simultaneously applied light and tone that had been paired previously with footshocks and quantified immunoreactive VP (ir-VP) in the plasma supported this finding.
Renal compensation for body water loss during dehydration in neonatal rats.
TLDR
The results indicate that neonatal rats of 4-14 d control their serum osmolality by reabsorbing free water in the kidney during the 10 or 12 h of milk deprivation.
Endocrine responses to multiple sensory input related to injury.
TLDR
An experimental approach has been to consider these responses to traumatic injury as expressions of the efferent limb of a broad neuroendocrine reflex, a reflex that derives its sensory input from multiple sources, requires integration by central neural pathways and is expressed as the autonomic or endocrine adjustments to the applied stimulus.

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