Waist-to-height ratio as a screening tool for cardiometabolic risk in children and adolescents: a nationwide cross-sectional study in China

Childhood obesity has reached epidemic levels in developed countries. Twenty five percent of children in the US are overweight and 11% are obese. Overweight and obesity in childhood are known to have significant impact on both physical and psychological health. The mechanism of obesity development is not fully understood and it is believed to be a disorder with multiple causes. Environmental factors, lifestyle preferences, and cultural environment play pivotal roles in the rising prevalence of obesity worldwide. In general, overweight and obesity are assumed to be the results of an increase in caloric and fat intake. On the other hand, there are supporting evidence that excessive sugar intake by soft drink, increased portion size, and steady decline in physical activity have been playing major roles in the rising rates of obesity all around the world. Consequently, both over-consumption of calories and reduced physical activity are involved in childhood obesity. Almost all researchers agree that prevention could be the key strategy for controlling the current epidemic of obesity. Prevention may include primary prevention of overweight or obesity, secondary prevention or prevention of weight regains following weight loss, and avoidance of more weight increase in obese persons unable to lose weight. Until now, most approaches have focused on changing the behaviour of individuals in diet and exercise. It seems, however, that these strategies have had little impact on the growing increase of the obesity epidemic. While about 50% of the adults are overweight and obese in many countries, it is difficult to reduce excessive weight once it becomes established. Children should therefore be considered the priority population for intervention strategies. Prevention may be achieved through a variety of interventions targeting built environment, physical activity, and diet. Some of these potential strategies for intervention in children can be implemented by targeting preschool institutions, schools or after-school care services as natural setting for influencing the diet and physical activity. All in all, there is an urgent need to initiate prevention and treatment of obesity in children.

To establish a national body mass index (BMI) reference norm for the purpose of screening and more active prevention and cure on overweight and obesity in Chinese children and adolescents. The 2000 Chinese National Survey on Students Constitution and Health was used as reference population. In total there were more than 244.2 thousands of primary and secondary Han nationality students aged 7 through 18 years old included in this study. The BMI distribution of various Chinese children and adolescent groups were compared with the NCHS international norm, the percentage values and with advanced ages, were calculated. In the beginning, three temporary norms were set up, using the different combination of P(85), P(90) and P(95) BMI percentages. Based on the intersect testing and varifying of physiological, lipidemia biochemical and body composition measures, the best norm was then selected. B-spline smoothing method was used to correct the curves, both for males and females, composed by cut-off points at different ages. Using samples from the costal developed metropolis, the BMI curves successfully overcame the shortcomings of low and depressive phenomenon of the total population, in particular after the mid-adolescent period. The temporary Norm II, composed by cut-off points of P(85) for overweight and P(95) for obesity, was found to be the best among the three temporary norms, both shown by its sensitivity and specificity. 24 and 28 were used as cut-off points for overweight and obesity in this norm, both for males and females aged 18 years. These two cut-off points were consistent with those shown in the Body Mass Index Reference Norm for Screening Overweight and Obesity in Chinese Adults. Three samples from Beijing, Henan and Sichuan, used as representatives of upper, middle and relative low levels of physical growth of children and adolescents in China, were used for extra tests. The screening results showed that among the male and female subjects aged 7 through 18 years, the prevalence rates were 17.00% and 9.46% for overweight, 9.99% and 6.47% for obesity in Beijing while 10.86% and 6.64% for overweight, 4.27% and 3.07% for obesity in Henan, and 6.95% and 4.23% for overweight and 2.84% and 2.09% for obesity in Sichuan, respectively. Data clearly showed that the results were in accordance with the actural situation seen in the Chinese students in 2000. The newly established reference norm seemed to be good for prospective studies as it considered the facts regarding the rapid and strong tendency of secular growth changes seen in the Chinese children and adolescents. It also decreased the difference of growth levels between the Chinese children and adolescents and those of the international norms. This norm was particularly developed for the Chinese which was also in consistent with the Eastern Asia ethnic characteristics so could be promoted in China.

Background There is now overwhelming scientific evidence that central obesity, as opposed to total obesity assessed by body mass index (BMI), is associated with the most health risks and that the waist-to-height ratio (WHtR) is a simple proxy for this central fat distribution. This Opinion reviews the evidence for the use of WHtR to predict mortality and for its association with morbidity. A boundary value of WHtR of 0.5 has been proposed and become widely used. This translates into the simple screening message ‘Keep your waist to less than half your height’. Not only does this message appear to be suitable for all ethnic groups, it also works well with children. Discussion Ignoring this simple message and continuing to use BMI as a sole indicator of risk would mean that 10% of the whole UK population, and more than 25% of the UK population who are judged to be normal weight using BMI, are misclassified and might not be alerted to the need to take care or to take action. Summary Accepting that a boundary value whereby WHtR should be less than 0.5 not only lends itself to the simple message ‘Keep your waist to less than half your height’ but it also provides a very cheap primary screening method for increased health risks: A piece of string, measuring exactly half a person’s height should fit around that person’s waist.