脱水和睡眠不足会加重儿童早期的肾脏损伤：来自 PROC 研究的纵向发现。

Dehydration and Suboptimal Sleep Aggravate Early Renal Impairment in Children: Longitudinal Findings from the PROC Study.

机构信息

Department of Child, Adolescent Health and Maternal Care, School of Public Health, Capital Medical University, Beijing 100069, China.

Department of Pediatrics, School of Medicine, Yale University, New Haven, CT 06510, USA.

出版信息

Nutrients. 2024 Oct 14;16(20):3472. doi: 10.3390/nu16203472.

DOI:10.3390/nu16203472

PMID:39458467

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11510355/

Abstract

BACKGROUND

While dehydration is associated with pediatric renal impairment, the regulation of hydration status can be affected by sleep. However, the interaction of hydration and sleep on kidney health remains unclear.

METHODS

We conducted a cohort study among 1914 healthy primary school children from October 2018 to November 2019 in Beijing, China. Four-wave urinary β-microglobulin and microalbumin excretion were assayed to assess transient renal tubular and glomerular impairment, and specific gravity was measured to determine hydration status with contemporaneous assessment of sleep duration, other anthropometric, and lifestyle covariates. We used generalized linear mixed-effects models to assess longitudinal associations of sleep duration and hydration status with renal impairment.

RESULTS

We observed 1378 children with optimal sleep (9-<11 h/d, 72.0%), 472 with short sleep (<9 h/d), and 64 with long sleep (≥11 h/d, 3.3%). Over half (55.4%) of events determined across 6968 person-visits were transient dehydration, 19.4% were tubular, and 4.9% were glomerular impairment events. Taking optimal sleep + euhydration as the reference, the results of generalized linear mixed-effects models showed that children with long sleep + dehydration (odds ratio [OR]: 3.87 for tubular impairment [tubules] and 3.47 for glomerular impairment [glomerulus]), long sleep + euhydration (OR: 2.43 for tubules), optimal sleep + dehydration (OR: 2.35 for tubules and 3.00 for glomerulus), short sleep + dehydration (OR: 2.07 for tubules and 2.69 for glomerulus), or short sleep + euhydration (OR: 1.29 for tubules) were more likely to present transient renal impairment, adjusting for sex, age, body mass index z-score, systolic blood pressure z-score, screen time, physical activity, and Mediterranean diet adherence.

CONCLUSIONS

Dehydration and suboptimal sleep aggravate transient renal impairment in children, suggesting its role in maintaining pediatric kidney health.

摘要

背景

脱水与儿科肾功能损害有关，而水合状态的调节可能受到睡眠的影响。然而，水合作用和睡眠对肾脏健康的相互作用尚不清楚。

方法

我们在中国北京的一所小学于 2018 年 10 月至 2019 年 11 月期间进行了一项队列研究，纳入了 1914 名健康的小学生。通过四次尿液β-微球蛋白和微量白蛋白排泄来评估肾小管和肾小球的短暂损伤，并用比重来确定水合状态，同时评估睡眠持续时间、其他人体测量学和生活方式的协变量。我们使用广义线性混合效应模型来评估睡眠持续时间和水合状态与肾功能损害的纵向关联。

结果

我们观察到 1378 名儿童睡眠充足（9-<11 小时/天，72.0%），472 名儿童睡眠不足（<9 小时/天），64 名儿童睡眠过多（≥11 小时/天，3.3%）。在 6968 人次的随访中，超过一半（55.4%）的事件是短暂性脱水，19.4%是肾小管损伤，4.9%是肾小球损伤。以最佳睡眠+水合作用作为参考，广义线性混合效应模型的结果显示，长睡眠+脱水（肾小管损伤的比值比[OR]：3.87；肾小球损伤的 OR：3.47）、长睡眠+水合作用（OR：2.43 肾小管）、最佳睡眠+脱水（OR：2.35 肾小管和 3.00 肾小球）、短睡眠+脱水（OR：2.07 肾小管和 2.69 肾小球）或短睡眠+水合作用（OR：1.29 肾小管）更容易出现短暂性肾功能损害，调整性别、年龄、体重指数 z 评分、收缩压 z 评分、屏幕时间、身体活动和地中海饮食依从性后。

结论

脱水和睡眠不足会加重儿童的短暂性肾功能损害，提示其在维持儿童肾脏健康方面的作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2448/11510355/7e55393e01b2/nutrients-16-03472-g001.jpg

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脱水和睡眠不足会加重儿童早期的肾脏损伤：来自 PROC 研究的纵向发现。

Dehydration and Suboptimal Sleep Aggravate Early Renal Impairment in Children: Longitudinal Findings from the PROC Study.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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