健康儿童肝脏糖原储备的磁共振波谱研究：随机对照试验

Liver glycogen stores via C magnetic resonance spectroscopy in healthy children: randomized, controlled study.

作者信息

Horstman Astrid Mh, Bawden Stephen J, Spicer Abi, Darwish Noura, Goyer Amélie, Egli Léonie, Rupp Natacha, Minehira Kaori, Gowland Penny, Breuillé Denis, Macdonald Ian A, Simpson Elizabeth J

机构信息

Nestlé Institute of Health Sciences, Nestlé Research, EPFL Innovation Park, Lausanne, Switzerland.

National Institute for Health Research Biomedical Research Centre, Queen's Medical Centre, Nottingham, United Kingdom; Sir Peter Mansfield Imaging Centre, School of Physics and Astronomy, University of Nottingham, Nottingham, United Kingdom.

出版信息

Am J Clin Nutr. 2023 Apr;117(4):709-716. doi: 10.1016/j.ajcnut.2023.01.014. Epub 2023 Jan 20.

DOI:10.1016/j.ajcnut.2023.01.014

PMID:36797201

Abstract

BACKGROUND

Owing to its role in glucose homeostasis, liver glycogen concentration ([LGly]) can be a marker of altered metabolism seen in disorders that impact the health of children. However, there is a paucity of normative data for this measure in children to allow comparison with patients, and time-course assessment of [LGly] in response to feeding has not been reported. In addition, carbon-13 magnetic resonance spectroscopy (C-MRS) is used extensively in research to assess liver metabolites in adult health and disease noninvasively, but similar measurements in children are lacking.

OBJECTIVES

The main objectives were to quantify the depletion of [LGly] after overnight fasting and the subsequent response to feeding.

METHODS

In a randomly assigned, open-label, incomplete block design study, healthy, normal-weight children (8-12 y) attended 2 evening visits, each separated by ≥5 d and directly followed by a morning visit. An individually tailored, standardized meal was consumed 3-h prior to evening assessments. Participants then remained fasted until the morning visit. [LGly] was assessed once in the fed (20:00) and fasted state (08:00) using C-MRS. After the 8:00 assessment, 200 ml of a mixed-macronutrient drink containing 15.5 g (402 kJ) or 31 g carbohydrates (804 kJ), or water only, was consumed, with C-MRS measurements then performed hourly for 4 h. Each child was randomly assigned to 2 of 3 drink options across the 2 mornings. Data are expressed as mean (SD).

RESULTS

Twenty-four children including females and males (13F:11M) completed the study [9.9 (1.1) y, BMI percentile 45.7 (25.9)]. [LGly] decreased from 377.9 (141.3) to 277.3 (107.4) mmol/L overnight; depletion rate 0.14 (0.15) mmol/L min. Incremental responses of [LGly] to test drinks differed (P < 0.001), with incremental net area under the curve of [LGly] over 4 h being higher for 15.5 g [-67.1 (205.8) mmol/L·240 min; P < 0.01] and 31 g carbohydrates [101.6 (180.9) mmol/L·240 min; P < 0.005] compared with water [-253.1 (231.2) mmol/L·240 min].

CONCLUSIONS

After overnight fasting, [LGly] decreased by 22.9 (25.1)%, and [LGly] incremental net area under the curve over 4 h was higher after subsequent consumption of 15.5 g and 31 g carbohydrates, compared to water. Am J Clin Nutr 20XX;xx:xx-xx.

摘要

背景

由于肝脏糖原浓度（[LGly]）在葡萄糖稳态中发挥作用，它可能是儿童健康受影响疾病中代谢改变的一个标志物。然而，儿童中该指标的正常参考数据匮乏，无法与患者进行比较，且尚未有关于[LGly]对进食反应的时间进程评估报告。此外，碳 - 13磁共振波谱（C - MRS）在研究中被广泛用于无创评估成人健康与疾病状态下的肝脏代谢物，但儿童中的类似测量尚缺。

目的

主要目的是量化过夜禁食后[LGly]的消耗情况以及随后对进食的反应。

方法

在一项随机分配、开放标签、不完全区组设计研究中，健康、体重正常的儿童（8 - 12岁）参加2次晚间访视，每次访视间隔≥5天，且随后直接进行一次早晨访视。在晚间评估前3小时食用一份个体化定制的标准化餐食。参与者随后禁食直至早晨访视。使用C - MRS在进食状态（20:00）和禁食状态（08:00）各评估一次[LGly]。8:00评估后，饮用200毫升含有15.5克（402千焦）或31克碳水化合物（804千焦）的混合宏量营养素饮料，或仅饮用清水，随后每小时进行一次C - MRS测量，共4小时。每个儿童在2个早晨随机分配到3种饮料选项中的2种。数据以均值（标准差）表示。

结果

24名儿童（包括女性和男性，13名女性:11名男性）完成研究[年龄9.9（1.1）岁，BMI百分位数45.7（25.9）]。[LGly]在夜间从377.9（141.3）降至277.3（107.4）毫摩尔/升；消耗速率为0.14（0.15）毫摩尔/升·分钟。[LGly]对测试饮料的增量反应不同（P < 0.001），与饮用清水相比，15.5克碳水化合物组[ - 67.1（205.8）毫摩尔/升·240分钟；P < 0.01]和31克碳水化合物组[101.6（180.9）毫摩尔/升·240分钟；P < 0.005]在4小时内[LGly]曲线下增量净面积更高，饮用清水组为[ - 253.1（231.2）毫摩尔/升·240分钟]。