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Query: UMLS:C0016382 (flushing)
 6,387 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In recent studies of bilirubin encephalopathy, in situ flushing of the cerebral vessels has been used to clear blood from the brain. The effectiveness of such procedures has not been adequately documented. Herein young, male Sprague-Dawley rats were given about 750 KBq of 51Cr-labelled rat erythrocytes 3 min prior to sacrifice. There were four experimental groups: control, displacer (sulfisoxazole), hyperosmolality, and hypercarbia. Half of the rats in each group had the brain vasculature flushed in situ, while the remaining rat brains were not flushed. The brains were dissected into seven regions, and the radioactivity in the tissues was compared to that of blood drawn from the rats immediately before death. Significant amounts of blood (22-42%) remained after in situ flushing. Retention was significantly higher in the hyperosmolar animals, and significantly lower in the hypercarbic animals as compared to controls. Interregional differences in blood volumes per gram wet weight were significant without, but not with flushing. Similar observations were made using 125I-IgM as a marker for the plasma compartment. In studies of brain uptake of substances with high plasma concentrations, substance remaining within the cerebral vessels may contribute significantly to the apparent brain uptake values.
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PMID:Cerebral blood volumes in young rats with and without in situ saline flushing of cerebral vasculature. Implications for in vivo studies of brain substance uptake. 275 81

The isolated rat kidney perfused at 37 C with dialyzed bovine serum albumin (6.5 g/100 ml) in Krebs-Henseleit buffer was used to examine why a hypertonic citrate flush permits rapid recovery of renal function after storage. The composition of the original hyperosmolar citrate solution was varied so that the roles of osmolality, magnesium, and citrate could be evaluated. All kidneys were flushed with the test solutions and stored for 24 hr in the test solutions at 0 C. The citrate flushing solution requires both the citrate anion and magnesium for efficacy. Hyperosmolality does not enhance its action, an isosmolar solution is more effective. Citrate can be replaced by a nonmetabolizable analogue, tricarballylate, if the solution is suitably buffered. The mechanism of action of citrate is still uncertain, it does not seem primarily to act as a metabolic fuel or inhibitor.
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PMID:Evaluation of citrate flushing solution using the isolated perfused rat kidney. 700 41