The American journal of physiology
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We assessed local cerebral glucose metabolism (lCMRGlc) and blood flow (lCBF) interrelationships in the first hour after parasagittal fluid-percussion head injury (FPI) in rats. Matched series were studied autoradiographically for lCMRGlc and lCBF with 2-[14C]deoxyglucose and 14C-labeled iodoantipyrine, respectively. Three-dimensional autoradiographic-image mapping was to generate average data sets from which a mean ICMRGlc-to-lCBF ratio data set was derived. lCBF in neocortical regions ipsilateral to the trauma were depressed, on average, by 44% compared with sham-FPI rats, whereas contralateral lCBF values were not altered. ⋯ The extent of metabolism-flow uncoupling, on average, amounted to 2.5-fold in the ipsilateral hippocampus and neocortex and 1.7-fold contralaterally. The loci of pronounced metabolism-flow dissociation corresponded closely to the previously documented histological distribution of neuronal necrosis. Our findings resemble events occurring in the acute focal ischemic penumbra and suggest that similar injury mechanisms may be operative.
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We examined the effect of oropharyngeal stimulation on thirst, secretion of arginine vasopressin ([AVP]p), and fluid intake in six healthy adults after dehydration (28.6 +/- 1.4 ml/kg water loss) induced by mild exercise in the heat (2 h, 38 degrees C, relative humidity < 30%). Subjects performed three identical dehydration protocols followed by 75 min of rehydration at 27 degrees C consisting of 1) ad libitum drinking (Con), 2) infusion of a similar volume of water directly into the stomach via a nasogastric tube (Inf) during the first 25 min followed by combined Inf and ad libitum drinking during the remaining 50 min of rehydration; or 3) ad libitum drinking with simultaneous extraction of ingested fluid via a nasogastric tube (Ext). Plasma osmolality (Posm), [AVP]p, fluid intake, and thirst perceptions were measured throughout. ⋯ Reflex inhibition of [AVP]p and thirst occurred within 5 min of rehydration in Con and Ext (P < 0.05) but not during Inf, supporting the hypothesis that oropharyngeal reflexes modulate osmotically stimulated thirst and [AVP]p. However, the reduction in [AVP]p during the first 5 min of Ext (-1.1 +/- 0.3 pg/ml) was less than that seen during Con (-2.1 +/- 0.4 pg/ml), suggesting that oropharyngeal stimulation is not the only factor contributing to the rapid reduction in [AVP]p during the first 5 min of drinking. During Con, subjects ingested 20.0 +/- 2.0 ml/kg of water but only drank 15% more (31.3 +/- 7.1 ml/kg) during Ext, demonstrating a clear role of oropharyngeal metering in limiting total fluid intake in humans in the presence of a persistently high dipsogenic drive.