Preoperative sleep loss can amplify post-operative mechanical hyperalgesia. However, the underlying mechanisms are still largely unknown. In the current study, rats were randomly allocated to a control group and an acute sleep deprivation (ASD) group which experienced 6 h ASD before surgery. Then the variations in cerebral function and activity were investigated with multi-modal techniques, such as nuclear magnetic resonance, functional magnetic resonance imaging, c-Fos immunofluorescence, and electrophysiology. The results indicated that ASD induced hyperalgesia, and the metabolic kinetics were remarkably decreased in the striatum and midbrain. The functional connectivity (FC) between the nucleus accumbens (NAc, a subregion of the ventral striatum) and the ventrolateral periaqueductal gray (vLPAG) was significantly reduced, and the c-Fos expression in the NAc and the vLPAG was suppressed. Furthermore, the electrophysiological recordings demonstrated that both the neuronal activity in the NAc and the vLPAG, and the coherence of the NAc-vLPAG were suppressed in both resting and task states. This study showed that neuronal activity in the NAc and the vLPAG were weakened and the FC between the NAc and the vLPAG was also suppressed in rats with ASD-induced hyperalgesia. This study highlights the importance of preoperative sleep management for surgical patients.
Rats ; Animals ; Hyperalgesia/metabolism* ; Sleep Deprivation/metabolism* ; Rats, Sprague-Dawley ; Periaqueductal Gray/pathology* ; Proto-Oncogene Proteins c-fos/metabolism* ; Pain, Postoperative/pathology*

OBJECTIVE: To observe the changes of adenylate cyclase(AC) on cerebral regions related to morphine dependence in rats and investigate the relationship between the enzymological changes and the mechanism of morphine dependence. METHODS: The technique of enzyme-histochemistry was used to detect the variations of AC of special seven cerebral regions including frontalis cortex, lenticula, corpus amygdaloideun, substantia nigra, hippocampus, periaqueductal gray and locus coerleus in morphine dependent rats. The enzymological changes were observed by optical microscope. Changes of gray degree of these cerebral regions were also observed by using the image analysis system. RESULTS: Compared with those in control group, the contents of AC in morphine dependent groups were increased. CONCLUSION The contents of AC are increase in those regions. The mechanism of morphine dependence close related to the increasing of AC. The correlation of the mechanism of morphine dependence and up-regulation of AC/cAMP-PKA system is discussed.
Adenylyl Cyclases/metabolism* ; Animals ; Brain/pathology* ; Cerebral Cortex/enzymology* ; Disease Models, Animal ; Female ; Hippocampus/enzymology* ; Male ; Morphine Dependence/pathology* ; Periaqueductal Gray/enzymology* ; Rats ; Rats, Sprague-Dawley ; Substance Withdrawal Syndrome/metabolism* ; Time Factors