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补充外源性尿素氮可改善摄入蛋白质略不足的正常男性的氮平衡。

Salvage of exogenous urea nitrogen enhances nitrogen balance in normal men consuming marginally inadequate protein diets.

作者信息

Meakins T S, Jackson A A

机构信息

Department of Human Nutrition, University of Southampton, U.K.

出版信息

Clin Sci (Lond). 1996 Mar;90(3):215-25. doi: 10.1042/cs0900215.

DOI:10.1042/cs0900215
PMID:8777827
Abstract
  1. Urea kinetics were measured in six healthy men using prime/intermittent oral doses of [15N15N] urea, after five days consuming one of four diets which varied in their nitrogen content: a reference diet (REF, 70 g of protein and 11.2 g of N); a low-protein diet (LP, 30 g of protein and 4.8 g of N); a low-protein diet with 6.9 g of urea added (LP-U1, 30 g of protein and 8 g of N); a low-protein diet with 13.7 g of urea added (LP-U2, 30 g of protein and 11.2 g of N). 2. Apparent nitrogen balance on the REF diet was significantly better than on the LP or the LP-U1 diets. The addition of the higher level of urea in the LP-U2 diet enhanced apparent nitrogen balance compared with the LP or LP-U1 diets, and was not different to apparent nitrogen balance on the REF diet. 3. On the LP, LP-U1 and LP-U2 diets, the rate of endogenous urea production was not different, and was about 60% of that on the REF diet, a statistically significant difference. The addition of a dietary supplement of urea increased the rate of urea appearance in the urea pool in direct relation to the dose of urea taken. There was no difference in the rate of appearance between the REF and LP-U2 diets, for both of which the rate of appearance was significantly greater than on the LP diet. 4. The excretion of urea in urine on the LP diet was 62% of that on the REF diet, a significant difference. There was no significant difference in the rate of urea excretion between the REF, LP-U1 and LP-U2 diets. 5. The rate of urea hydrolysis by the colonic microflora on the REF diet was more than twice that on the LP or LP-U1 diets. Supplementation with urea at the higher level, LP-U2, significantly increased hydrolysis to the same level as on the REF diet. Most of the nitrogen derived from urea hydrolysis was retained in the metabolic pool (> 80%), with no difference in the rate of retention between the REF and LP-U2 diets, both greater than the LP or LP-U1 diets. 6. The dietary supplements of urea increased the size of the body urea pool significantly. Renal clearance of urea was highest on the REF diet and decreased 13-29% on the low-protein diets. Bowel clearance was highest on the REF diet and decreased 46-55% on the low-protein diets. Neither urinary excretion of urea nor urea hydrolysis in the bowel were related simply to the concentration of urea in blood. Urea hydrolysis related most closely to the rate of appearance of urea in the urea pool. 7. The salvage of urea nitrogen was increased on the highest level of supplementation, but the overall sensitivity of the system was low, suggesting that other factors might be limiting for effective urea hydrolysis and the salvage of urea nitrogen.
摘要
  1. 对6名健康男性使用[¹⁵N¹⁵N]尿素的首剂/间歇口服剂量来测量尿素动力学,此前他们连续5天食用了4种氮含量不同的饮食之一:参考饮食(REF,70克蛋白质和11.2克氮);低蛋白饮食(LP,30克蛋白质和4.8克氮);添加6.9克尿素的低蛋白饮食(LP-U1,30克蛋白质和8克氮);添加13.7克尿素的低蛋白饮食(LP-U2,30克蛋白质和11.2克氮)。2. REF饮食的表观氮平衡显著优于LP或LP-U1饮食。与LP或LP-U1饮食相比,LP-U2饮食中添加较高水平的尿素可提高表观氮平衡,且与REF饮食的表观氮平衡无差异。3. 在LP、LP-U1和LP-U2饮食中,内源性尿素生成速率无差异,约为REF饮食的60%,差异有统计学意义。添加膳食尿素补充剂使尿素池中尿素的出现速率与所摄入的尿素剂量直接相关。REF和LP-U2饮食的出现速率无差异,二者均显著高于LP饮食。4. LP饮食中尿素的尿排泄量为REF饮食的62%,差异显著。REF、LP-U1和LP-U2饮食之间的尿素排泄速率无显著差异。5. REF饮食中结肠微生物群对尿素的水解速率是LP或LP-U1饮食的两倍多。较高水平(LP-U2)的尿素补充显著增加水解至与REF饮食相同的水平。来自尿素水解的大部分氮保留在代谢池中(>80%),REF和LP-U2饮食之间的保留速率无差异,二者均高于LP或LP-U1饮食。6. 膳食尿素补充剂显著增加了体内尿素池的大小。REF饮食中尿素的肾清除率最高,低蛋白饮食时降低13 - 29%。REF饮食中尿素的肠道清除率最高,低蛋白饮食时降低46 - 55%。尿素的尿排泄和肠道中的尿素水解均不简单地与血液中尿素的浓度相关。尿素水解与尿素池中尿素的出现速率最密切相关。7. 在最高补充水平时尿素氮的回收增加,但该系统的总体敏感性较低,表明其他因素可能限制了有效的尿素水解和尿素氮的回收。 }

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