临床实践中乳果糖、乳糖和果糖呼气试验的评估：聚焦于甲烷。

Evaluation of lactulose, lactose, and fructose breath testing in clinical practice: A focus on methane.

作者信息

Harvie Ruth M, Tuck Caroline J, Schultz Michael

机构信息

Department of Medicine, Dunedin School of Medicine University of Otago Dunedin New Zealand.

Gastrointestinal Disease Research Unit, Kingston General Hospital Queen's University Kingston Ontario Canada.

出版信息

JGH Open. 2019 Aug 20;4(2):198-205. doi: 10.1002/jgh3.12240. eCollection 2020 Apr.

DOI:10.1002/jgh3.12240

PMID:32280765

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7144793/

Abstract

BACKGROUND AND AIM

Breath testing (BT) is used to identify carbohydrate malabsorption and small intestine bacterial overgrowth. Measuring methane alongside hydrogen is advocated to reduce false-negative studies, but the variability of methane production is unknown. The aim of this study is to examine the effect of high methane production on hydrogen excretion after ingesting lactulose, fructose, or lactose.

METHODS

A retrospective audit was performed of patients with gastrointestinal symptoms who underwent BT. Following a low fermentable carbohydrate diet for 24-h, a fasting BT before consuming 35 ml lactulose, 35 g fructose, or lactose in 200 ml water, followed by BT every 10-15 min for up to 3-h, was performed. A positive test was defined as a ≥20 ppm rise of hydrogen or methane from baseline. A high methane producer had an initial reading of ≥5 ppm. Breath hydrogen and methane production were measured as area under the curve. Chi-squared tests were used to compare proportions of those meeting the cut-off criteria.

RESULTS

Of patients, 26% (28/106) were high methane producers at their initial lactulose test. The test-retest repeatability of methane production was high, with the same methane production status before ingesting lactose in all (70/70) and before ingesting fructose in most (71/73). Methane production was highly variable during testing, with 38% (10/26) having ≥1 reading lower than baseline. Hydrogen produced by high or low methane producers did not differ (1528 [960-3645] ppm min 2375 [1810-3195] ppm min [ = 0.11]). Symptoms and breath test results were not positively related.

CONCLUSION

The validity of including an increase of ≥20 ppm methane to identify carbohydrate malabsorption or small intestine bacterial overgrowth should be questioned due to the variability of readings during testing.

摘要

背景与目的

呼气试验（BT）用于识别碳水化合物吸收不良和小肠细菌过度生长。提倡同时测量甲烷和氢气以减少假阴性研究，但甲烷产生的变异性尚不清楚。本研究的目的是探讨高甲烷产生对摄入乳果糖、果糖或乳糖后氢气排泄的影响。

方法

对接受BT的胃肠道症状患者进行回顾性审计。在进行24小时低发酵碳水化合物饮食后，在饮用200毫升水中的35毫升乳果糖、35克果糖或乳糖之前进行空腹BT，然后每10 - 15分钟进行一次BT，持续长达3小时。阳性试验定义为氢气或甲烷从基线上升≥20 ppm。高甲烷产生者的初始读数≥5 ppm。呼气氢气和甲烷产生量以曲线下面积测量。使用卡方检验比较符合截断标准者的比例。

结果

在最初的乳果糖试验中，26%（28/106）的患者为高甲烷产生者。甲烷产生的重测重复性很高，在所有患者（70/70）摄入乳糖之前以及大多数患者（71/73）摄入果糖之前，甲烷产生状态相同。测试期间甲烷产生高度可变，38%（10/26）的读数至少有一次低于基线。高甲烷产生者和低甲烷产生者产生的氢气无差异（1528 [960 - 3645] ppm·分钟对2375 [1810 - 3195] ppm·分钟[P = 0.11]）。症状与呼气试验结果无正相关。

结论

由于测试期间读数的变异性，将甲烷增加≥20 ppm用于识别碳水化合物吸收不良或小肠细菌过度生长的有效性值得质疑。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/17bb/7144793/7234fc8b6952/JGH3-4-198-g001.jpg

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临床实践中乳果糖、乳糖和果糖呼气试验的评估：聚焦于甲烷。

Evaluation of lactulose, lactose, and fructose breath testing in clinical practice: A focus on methane.

作者信息

机构信息

出版信息

BACKGROUND AND AIM

METHODS

RESULTS

CONCLUSION

背景与目的

方法

结果

结论

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