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Increased sedentary time from childhood through young adulthood caused increased body fat and abdominal fat in a new follow-up study. However, the results also showed that light physical activity (LPA) may completely reverse the adverse process. Moderate-to-vigorous physical activity (MVPA) may only reduce the effect. The study was conducted in collaboration between the University of Bristol in the UK, can buspar and wellbutrin be taken together the University of Exeter in the UK, the University of Colorado in the US, and the University of Eastern Finland, and the results were published in the prestigious Nature Communications.

Increased sedentary time from 6 hours/day in childhood to 9 hours/day in young adulthood may potentially cause a significant increase in total body fat mass and trunk fat mass during growth from childhood to young adulthood. However, engaging in at least 3 hours/day of light physical activity may be more effective than 60 minutes/day of moderate-to-vigorous physical activity in reversing and preventing worsening fat mass obesity. Image: Andrew Agbaje.

Childhood and adolescent obesity have been associated with cardiovascular, metabolic, neurological, and musculoskeletal diseases in adulthood. Moreover, childhood obesity measured with body mass index was recently associated with an increased risk of premature death by the mid-forties. Body mass index (BMI) is a poor measure of obesity in childhood and adolescence since it does not distinguish between muscle mass and fat mass. Lifestyle changes such as reducing sedentary behavior and physical inactivity may improve health but long-term accelerometer data with gold-standard fat mass measures in children are scarce.

There is no information on the effectiveness of LPA in preventing obesity and how much sedentary time needs to be reduced for better health in the young population. These gaps in knowledge significantly limit current health guidelines. Recent reports concluded that more than 80% of adolescents across the globe do not meet the World Health Organization’s recommended average of 60 minutes/day of MVPA. It is estimated that physical inactivity will have caused 500 million new cases of heart disease, obesity, diabetes or other noncommunicable diseases by 2030, costing US$ 27 billion annually. This alarming forecast regarding the morbid danger of physical inactivity necessitates urgent research on the most effective preventive approach.

The long-term effect of movement behavior, objectively measured with an accelerometer, on dual-energy X-ray absorptiometry (DEXA)-measured total body fat mass and abdominal fat mass in the pediatric population has not been previously studied. This is due to the cost and logistic challenges of repeatedly measuring both movement behavior and fat mass in a very large cohort during growth from childhood through young adulthood.

The current study is the largest and the longest follow-up objectively measured PA and fat mass study in the world which used the University of Bristol’s Children of the 90s data (also known as the Avon Longitudinal Study of Parents and Children). The study included 6,059 children (53% females) aged 11 years who were followed up until age 24 years, with a follow-up time of approximately 13 years. Waist-worn accelerometer measures of sedentary time, LPA, and MVPA, and DEXA-measured fat mass and skeletal muscle mass were collected at ages 11, 15, and 24 years. These children also had their fasting blood samples repeatedly measured for, e.g., glucose, insulin, high-density lipoprotein cholesterol, low-density lipoprotein cholesterol, triglyceride, and high-sensitivity C-reactive protein. In addition, blood pressure, heart rate, smoking status, socio-economic status, and family history of cardiovascular disease were measured and controlled for in the analyses.

During the 13-year follow-up, sedentary time increased from approximately 6 hours/day in childhood to 9 hours/day in young adulthood. LPA decreased from 6 hours/day to 3 hours/day while MVPA was relatively stable around 50 mins/day from childhood through young adulthood. It was observed that each 1-minute spent sedentary was associated with a 1.3-gram increase in total body fat mass. Both male and female children gained an average of 10 kg of fat mass during growth from childhood until young adulthood. However, sedentary time potentially contributed 700 grams to 1 kg of fat mass (approximately 7 – 10%) of the total fat mass gained during growth from childhood until young adulthood.

Contrariwise, each 1-minute spent in LPA during growth from childhood through young adulthood was associated with a 3.6-gram reduction in total body fat mass. This implies that cumulative LPA decreased total body fat mass by 950 grams to 1.5 kg during growth from childhood to young adulthood, (approximately 9.5 – 15% decrease in overall gain in fat mass during the 13-year observation period). Of note, time spent in MVPA including meeting the 60-minute/day of MVPA recommended by the WHO during growth from childhood through young adulthood was associated with 70 to 170 grams (approximately 0.7 – 1.7%) reduction in total body fat mass.

“Our study provides novel information that would be useful in updating future health guidelines and policy statements. Prior to this study, it has not been possible to quantify the long-term contribution of sedentary time to fat mass obesity and the magnitude by which PA may reduce it. Our study confirmed the report from a recent meta-analysis of 140 school-based randomized controlled trials across the globe that engaging in MVPA had minimal or no effect in reducing childhood BMI-obesity,” says Andrew Agbaje, an award-winning physician and pediatric clinical epidemiologist at the University of Eastern Finland.

We have also recently reported that LPA promotes healthy heart, lowers inflammation and lowers cholesterol levels among children, adolescents, and young adults better than MVPA. These new findings strongly emphasize that LPA may be an unsung hero in preventing fat mass obesity from early life, and in this regard, it could lower fat mass nearly 10 times more than MVPA, except that it requires at least 3 hours per day. Examples of LPA are long walks, house chores, slow dancing, slow swimming and slow bicycling.”

Andrew Agbaje, Award-winning Physician and Pediatric Clinical Epidemiologist, University of Eastern Finland

“It is high time the world replaced the mantra of ‘an average of 60 minutes/day of MVPA’ with ‘at least 3 hours/day of LPA’ since LPA appears as the antidote to the deleterious effect of sedentary time in the young population. Combined evidence from our recent studies suggests a paradigm shift in the preventive battles against obesity, inflammation, and heart damage from childhood. We may need to de-emphasize that 80% of adolescents do not meet MVPA guidelines but rather promote LPA. Therefore, public health experts, health policymakers, health journalists and bloggers, pediatricians, and parents should encourage continued and sustained participation in LPA to prevent childhood obesity,” Agbaje continues.

Dr Agbaje’s research group (urFIT-child) is supported by research grants from Jenny and Antti Wihuri Foundation, the Finnish Cultural Foundation Central Fund, the Finnish Cultural Foundation North Savo Regional Fund, the Orion Research Foundation, the Aarne Koskelo Foundation, the Antti and Tyyne Soininen Foundation, the Paulo Foundation, the Yrjö Jahnsson Foundation, the Paavo Nurmi Foundation, the Finnish Foundation for Cardiovascular Research, Ida Montin Foundation, Eino Räsänen Fund, Matti and Vappu Maukonen Fund, Foundation for Pediatric Research, and Alfred Kordelin Foundation.


University of Eastern Finland

Journal reference:

Agbaje, A. O., et al. (2023). Effects of accelerometer-based sedentary time and physical activity on DEXA-measured fat mass in 6059 children. Nature Communications.

Posted in: Child Health News | Medical Research News

Tags: Adolescents, Antidote, Blood, Blood Pressure, Body Mass Index, Cardiovascular Disease, Childhood Obesity, Children, Cholesterol, C-Reactive Protein, Dancing, Diabetes, Fasting, Glucose, Heart, Heart Disease, Heart Rate, Inflammation, Insulin, Lipoprotein, Muscle, Musculoskeletal, Obesity, Physical Activity, Protein, Public Health, Research, Smoking, Swimming, Triglyceride, X-Ray

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