Current Status and Potential Recommendations of Childhood Obesity in China

Ji, Kai; Li, Chenming

doi:10.54254/2753-7048/45/20230532

LNEP

2024

DOI: 10.54254/2753-7048/45/20230532

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Current Status and Potential Recommendations of Childhood Obesity in China

Kai Ji,

Chenming Li

Abstract: Childhood obesity has become a thorny issue that has aroused mounting concern worldwide. Especially in China, the prevalence of overweight and obesity among Chinese children has risen rapidly in recent decades, which face serious challenges. Despite lacking the research focused on the economic burden of childhood obesity in China, it can be inferred that childhood obesity and possible health risks in adulthood will impose tremendous economic burden. In China, there were many effective interventions that can he… Show more

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2024

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Cited by 1 publication

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Differential Identification of Childhood Overweight and Obesity Based on Bioimpedance Analysis of Body Composition

zhong,

zhou,

zhai

et al. 2024

Preprint

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Objective: This study introduces a novel diagnostic algorithm utilizing bioimpedance analysis to comprehensively evaluate children's body composition, assessing body fat mass, muscle mass, and fat distribution. Materials and Methods: Bioelectrical impedance measurements were conducted using a bioelectrical impedance analyzer (DongHWA DBA-510, China). Metrics including body weight, BMI, body fat mass, muscle mass, protein content, and waist-to-hip ratio were evaluated. The proposed algorithm was applied to a sample of 1826 children aged 6 to 10, enhancing the classification based on BMI. A comparison was made between BMI-based groupings and those based on BF% and MU. Results: The algorithm consists of three steps, categorizing children according to BMI, body fat mass, and central fat distribution. Notably, it reveals prognostically unfavorable body types, such as sarcopenic obesity with central fat distribution, highlighting potential health risks. The current BMI-centered diagnostics might misclassify cardiometabolic risks, making early detection challenging. The introduced fat distribution characteristic, the WHR index, offers a practical method for determining children's body types. Conclusion: This integrated algorithm provides an alternative to BMI-based classification, enabling early detection of obesity and associated risks. Further validation through large-scale epidemiological studies is crucial for establishing correlations between body types and cardiometabolic risks, thereby promoting a more nuanced and personalized approach to pediatric obesity management. Impact Statement: BMI is still used as a diagnostic tool for childhood obesity and overweight. This study introduces a body composition analyzer and explores new calculation methods to make a new attempt at diagnosing childhood obesity.

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Differential Identification of Childhood Overweight and Obesity Based on Bioimpedance Analysis of Body Composition

zhong,

zhou,

zhai

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Current Status and Potential Recommendations of Childhood Obesity in China

Cited by 1 publication

References 18 publications

Differential Identification of Childhood Overweight and Obesity Based on Bioimpedance Analysis of Body Composition

Differential Identification of Childhood Overweight and Obesity Based on Bioimpedance Analysis of Body Composition

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