早产儿的食物矿物质组成与酸碱平衡

Food mineral composition and acid-base balance in preterm infants.

作者信息

Kalhoff Hermann, Manz Friedrich, Kiwull Peter, Kiwull-Schöne Heidrun

机构信息

Paediatric Clinic, 44137 Dortmund, Germany.

出版信息

Eur J Nutr. 2007 Jun;46(4):188-95. doi: 10.1007/s00394-007-0646-y. Epub 2007 May 3.

DOI:10.1007/s00394-007-0646-y

PMID:17479211

Abstract

BACKGROUND

Due to a transient age-related low renal capacity for net acid excretion, preterm infants fed formula are at a considerable risk of spontaneously developing incipient late metabolic acidosis, clinically characterized by e.g., disturbed bone mineralization and impaired growth.

AIM OF THE STUDY

From acid-base data in blood and urine under different diets of modified human milk or preterm formulas is attempted to explore the impact of food mineral (and protein) composition on renal regulation and systemic acid-base balance in preterm infants.

PATIENTS AND METHODS

Data were collected from 48 infants fed their own mother's milk (28 native human milk, 20 enriched with fortifier) and 34 patients on formula (23 on a standard batch, 11 on a modified batch with reduced acid load). Intake of food was measured and acid-base data were determined in blood and timed-urine (8-12 h) samples.

RESULTS

Differences in mineral composition of the diets led to considerable differences of daily "alkali-intake", without significant effects on non-respiratory (base excess, BE) and respiratory (PCO(2)) acid-base data in the blood. In contrast, a highly significant proportionality between individual dietary alkali intake and daily renal base (Na(+) + K(+)-Cl(-)) excretion was observed (y = 0.32x-0.70, n = 80, r = 0.77, P < 0.0001), irrespective of the type of the diet.

CONCLUSION

Renal base saving mechanisms are normally effective in preterm infants to compensate for differences in dietary acid-base load. Generally, nutritional acid-base challenges can be judged much earlier and more safely by urinary than by blood acid-base analysis. Taking into account the age specific low capacity for renal NAE, the relatively high nutritional acid load of preterm standard formula should be reduced.

摘要

背景

由于与年龄相关的肾脏净酸排泄能力短暂下降，以配方奶喂养的早产儿有相当大的风险自发发展为早期迟发性代谢性酸中毒，其临床特征例如骨矿化紊乱和生长受损。

研究目的

根据不同饮食（改良人乳或早产儿配方奶）下血液和尿液中的酸碱数据，试图探究食物矿物质（和蛋白质）组成对早产儿肾脏调节和全身酸碱平衡的影响。

患者与方法

收集了48例食用自己母亲母乳的婴儿（28例天然人乳，20例添加强化剂）和34例食用配方奶的患者（23例食用标准批次，11例食用酸负荷降低的改良批次）的数据。测量食物摄入量，并测定血液和定时尿液（8 - 12小时）样本中的酸碱数据。

结果

饮食中矿物质组成的差异导致每日“碱摄入量”有显著差异，但对血液中的非呼吸性（碱剩余，BE）和呼吸性（PCO₂）酸碱数据无显著影响。相反，观察到个体饮食碱摄入量与每日肾脏碱（Na⁺ + K⁺ - Cl⁻）排泄之间存在高度显著的比例关系（y = 0.32x - 0.70，n = 80，r = 0.77，P < 0.0001），与饮食类型无关。

结论

肾脏碱保存机制通常在早产儿中有效，以补偿饮食酸碱负荷的差异。一般来说，通过尿液判断营养酸碱挑战比通过血液酸碱分析能更早、更安全地进行。考虑到特定年龄的肾脏净酸排泄能力较低，应降低早产儿标准配方奶相对较高的营养酸负荷。

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早产儿的食物矿物质组成与酸碱平衡

Food mineral composition and acid-base balance in preterm infants.

作者信息

机构信息

出版信息

BACKGROUND

AIM OF THE STUDY

PATIENTS AND METHODS

RESULTS

CONCLUSION

背景

研究目的

患者与方法

结果

结论

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