Effectiveness of breath acetone monitoring in reducing body fat and improving body composition: a randomized controlled study.

IF 3.7 4区医学 Q1 BIOCHEMICAL RESEARCH METHODS Journal of breath research Pub Date : 2024-01-18 DOI:10.1088/1752-7163/ad1b19

Seonggyu Choi, Minsuk Oh, Okimitsu Oyama, Dong-Hyuk Park, Sunghyun Hong, Tae Ho Lee, Junho Hwang, Hyun-Sook Lee, Yong-Sahm Choe, Wooyoung Lee, Justin Y Jeon

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Abstract

When attempts to lose body fat mass frequently fail, breath acetone (BA) monitoring may assist fat mass loss during a low-carbohydrate diet as it can provide real-time body fat oxidation levels. This randomized controlled study aimed to evaluate the effectiveness of monitoring BA levels and providing feedback on fat oxidation during a three-week low-carbohydrate diet intervention. Forty-seven participants (mean age = 27.8 ± 4.4 years, 53.3% females, body mass index = 24.1 ± 3.4 kg m^-2) were randomly assigned to three groups (1:1:1 ratio): daily BA assessment with a low-carbohydrate diet, body weight assessment (body scale (BS)) with a low-carbohydrate diet, and low-carbohydrate diet only. Primary outcome was the change in fat mass and secondary outcomes were the changes in body weight and body composition. Forty-five participants completed the study (compliance rate: 95.7%). Fat mass was significantly reduced in all three groups (allP< 0.05); however, the greatest reduction in fat mass was observed in the BA group compared to the BS (differences in changes in fat mass, -1.1 kg; 95% confidence interval: -2.3, -0.2;P= 0.040) and control (differences in changes in fat mass, -1.3 kg; 95% confidence interval: -2.1, -0.4;P= 0.013) groups. The BA group showed significantly greater reductions in body weight and visceral fat mass than the BS and control groups (allP< 0.05). In addition, the percent body fat and skeletal muscle mass were significantly reduced in both BA and BS groups (allP< 0.05). However, no significant differences were found in changes in body fat percentage and skeletal muscle mass between the study groups. Monitoring BA levels, which could have motivated participants to adhere more closely to the low-carbohydrate diet, to assess body fat oxidation rates may be an effective intervention for reducing body fat mass (compared to body weight assessment or control conditions). This approach could be beneficial for individuals seeking to manage body fat and prevent obesity.

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呼吸丙酮监测对减少体脂和改善身体成分的效果：随机对照研究

当试图减少体内脂肪量的努力经常失败时，呼气丙酮监测可提供实时的体内脂肪氧化水平，因此可能有助于在低碳水化合物饮食期间减少脂肪量。这项随机对照研究旨在评估在为期三周的低碳水化合物饮食干预期间监测呼气丙酮水平和提供脂肪氧化反馈的有效性。47名参与者（平均年龄=27.8±4.4岁，女性占53.3%，体重指数=24.1±3.4 kg/m2）被随机分配到三组（1:1:1比例）：每日呼气丙酮评估与低碳水化合物饮食组、体重评估（体重秤）与低碳水化合物饮食组和仅低碳水化合物饮食组。主要结果是脂肪量的变化，次要结果是体重和身体成分的变化。45 名参与者完成了研究（符合率：95.7%）。所有三个组的脂肪量都明显减少（P

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来源期刊

Journal of breath research BIOCHEMICAL RESEARCH METHODS-RESPIRATORY SYSTEM

CiteScore

7.60

自引率

21.10%

发文量

审稿时长

>12 weeks

期刊介绍： Journal of Breath Research is dedicated to all aspects of scientific breath research. The traditional focus is on analysis of volatile compounds and aerosols in exhaled breath for the investigation of exogenous exposures, metabolism, toxicology, health status and the diagnosis of disease and breath odours. The journal also welcomes other breath-related topics. Typical areas of interest include: Big laboratory instrumentation: describing new state-of-the-art analytical instrumentation capable of performing high-resolution discovery and targeted breath research; exploiting complex technologies drawn from other areas of biochemistry and genetics for breath research. Engineering solutions: developing new breath sampling technologies for condensate and aerosols, for chemical and optical sensors, for extraction and sample preparation methods, for automation and standardization, and for multiplex analyses to preserve the breath matrix and facilitating analytical throughput. Measure exhaled constituents (e.g. CO2, acetone, isoprene) as markers of human presence or mitigate such contaminants in enclosed environments. Human and animal in vivo studies: decoding the ''breath exposome'', implementing exposure and intervention studies, performing cross-sectional and case-control research, assaying immune and inflammatory response, and testing mammalian host response to infections and exogenous exposures to develop information directly applicable to systems biology. Studying inhalation toxicology; inhaled breath as a source of internal dose; resultant blood, breath and urinary biomarkers linked to inhalation pathway. Cellular and molecular level in vitro studies. Clinical, pharmacological and forensic applications. Mathematical, statistical and graphical data interpretation.