Secular Trends in the Performance of Children and Adolescents (1980–2000)

It is widely believed that the performance of children and adolescents on aerobic fitness tests is declining. To test this hypothesis, this meta-analysis compared the results of 55 reports of the performance of children and adolescents aged 6–19 years who have used the 20m shuttle run test (20mSRT). All data were collected in the period 1981–2000.Following corrections for methodological variation, the results of all studies were expressed using the common metric of running speed (km/h) at the last completed stage. Raw data were combined with pseudodata generated from reported means and standard deviations using Monte Carlo simulation. Where data were available on children and adolescents from the same country of the same age and sex, but tested at different times, linear regression was used to calculate rates of change. This was possible for 11 (mainly developed) countries, representing a total of 129 882 children and adolescents in 151 age × sex × country slices.There has been a significant decline in performance in the 11 countries where data were available, and in most age × sex groups, with a sample-weighted mean decline of 0.43% of mean values per year. The decline was most marked in older age groups and the rate of decline was similar for boys and girls.There has been a very rapid secular decline in the 20mSRT performance of children and adolescents over the last 20 years, at least in developed countries. The rate of decline is not related to the change in the country’s relative wealth, as quantified by per capita gross domestic product (GDP).

[1]  文部科学省,et al.  Statistical abstract of education, science and culture , 1978 .

[2]  Cunningham Da,et al.  Daily energy expenditure of young boys as related to maximal aerobic power. , 1981 .

[3]  L. Léger,et al.  Capacité aérobie des Québécois de 6 à 17 ans--test navette de 20 mètres avec paliers de 1 minute. , 1984 .

[4]  J. Poortmans,et al.  Estimation indirecte de la puissance aérobie maximale d'une population bruxelloise masculine et féminine âgée de 6 à 23 ans. Comparaison avec une technique directe de la mesure de la consommation maximale d'oxygène , 1986 .

[5]  L. Léger,et al.  The multistage 20 metre shuttle run test for aerobic fitness. , 1988, Journal of sports sciences.

[6]  M. Bedu,et al.  Comparaison entre O2 max direct et indirect chez l'enfant de 7 et 12 ans. Validation d'une épreuve de terrain , 1988 .

[7]  K. Carlsen,et al.  Children and exercise XIII , 1989 .

[8]  B. Kirby,et al.  Peak Oxygen Uptake and Physical Activity in 11- to 16-Year-Olds. , 1990, Pediatric exercise science.

[9]  C. Boreham,et al.  A comparison of the PWC170 and 20-MST tests of aerobic fitness in adolescent schoolchildren. , 1990, The Journal of sports medicine and physical fitness.

[10]  W. Mechelen,et al.  EUROFIT: Handleiding met referentieschalen voor 12-tot en met 16-jarige jongens en meisjes in Nederland , 1991 .

[11]  Rosa María Sainz Varona Aptitudes psíquicas y físicas: estudio de la aptitud física de los adolescentes de la provincia de Vizcaya y su relación con la personalidad , 1992 .

[12]  S A Plowman,et al.  The reliability and validity of the 20-meter shuttle test in American students 12 to 15 years old. , 1992, Research quarterly for exercise and sport.

[13]  Gaston Beunen,et al.  Fysieke Fitheid en Sportbeoefening van de Vlaamse Jeugd , 1992 .

[14]  R. Vandongen,et al.  Relationships between blood pressure and measures of dietary energy intake, physical fitness, and physical activity in Australian children aged 11-12 years. , 1992, Journal of epidemiology and community health.

[15]  J. Durnin Physical Activity and Health: Physical activity levels – past and present , 1992 .

[16]  C. Mahoney 20-MST and PWC170 validity in non-Caucasian children in the UK. , 1992, British journal of sports medicine.

[17]  Gregory S. Anderson The 1600-M Run and Multistage 20-M Shuttle Run as Predictive Tests of Aerobic Capacity in Children , 1992 .

[18]  A. Barnett,et al.  A Preliminary Study of the 20-m Multistage Shuttle Run as a Predictor of Peak VO2 in Hong Kong Chinese Students , 1993 .

[19]  Darrell M. Wilson,et al.  Does television viewing increase obesity and reduce physical activity? Cross-sectional and longitudinal analyses among adolescent girls. , 1993, Pediatrics.

[20]  M. Pratt,et al.  Physical activity patterns in American high school students. Results from the 1990 Youth Risk Behavior Survey. , 1994, Archives of pediatrics & adolescent medicine.

[21]  S. Wright Catalysts for change. , 1994, Elderly care.

[22]  N. Armstrong,et al.  Assessment and Interpretation of Aerobic Fitness in Children and Adolescents , 1994, Exercise and sport sciences reviews.

[23]  A. C. Payne,et al.  The Reliability and Validity of the 20-Meter Shuttle Test as a Predictor of Peak Oxygen Uptake in Edinburgh School Children, Age 13 to 14 Years , 1995 .

[24]  A. Prentice,et al.  Obesity in Britain: gluttony or sloth? , 1995, BMJ.

[25]  R. Vandongen,et al.  A controlled evaluation of a fitness and nutrition intervention program on cardiovascular health in 10- to 12-year-old children. , 1995, Preventive medicine.

[26]  L. Mcnaughton,et al.  An investigation into the fitness levels of Tasmanian primary school children , 1996 .

[27]  Rosa María Sainz Varona La batería Eurofit en Euskadi , 1996 .

[28]  G A Colditz,et al.  Television viewing as a cause of increasing obesity among children in the United States, 1986-1990. , 1996, Archives of pediatrics & adolescent medicine.

[29]  I. Roberts Safely to school? , 1996, The Lancet.

[30]  David A. Rowe,et al.  Criterion-Referenced and Norm-Referenced Agreement Between the Mile Run/Walk and PACER , 1997 .

[31]  A. Bauman,et al.  NSW Schools Fitness and Physical Activity Survey , 1997 .

[32]  L. Scott,et al.  Physical Activity and Rural Middle School Adolescents , 1998 .

[33]  N. Wolford The difference in physical fitness levels of fifth graders according to socioeconomic groups and gender , 1998 .

[34]  John P. Robinson,et al.  Time for Life: The Surprising Ways Americans Use Their Time , 1998 .

[35]  Y. Manios,et al.  Gender differences in physical activity and physical fitness in young children in Crete. , 1999, The Journal of sports medicine and physical fitness.

[36]  Michael Pratt,et al.  Levels of physical activity and inactivity in children and adults in the United States: current evidence and research issues. , 1999, Medicine and science in sports and exercise.

[37]  J. Strain,et al.  Clustering of Biological Risk Factors for Cardiovascular Disease and the Longitudinal Relationship with Lifestyle of an Adolescent Population: The Northern Ireland Young Hearts Project , 1999, Journal of cardiovascular risk.

[38]  L. Mcnaughton,et al.  Aerobic Fitness of Tasmanian Secondary School Children Using the 20-M Shuttle Run Test , 1999, Perceptual and motor skills.

[39]  T. Olds,et al.  The Evolution of Fitness and Fatness in 10–11-Year-Old Australian Schoolchildren: Changes in Distributional Characteristics between 1985 and 1997 , 1999 .

[40]  R. Jeffery,et al.  Temporal trends in energy intake in the United States: an ecologic perspective. , 2000, The American journal of clinical nutrition.

[41]  G. Baquet Fréquence cardiaque chez des adolescents âgés de 11 à 16 ans lors de séances d'éducation physique intensifiéesHeart rate in adolescents aged 11 to 16 during intensified physical education lessons , 2001 .

[42]  S. Berthoin,et al.  High-intensity aerobic training during a 10 week one-hour physical education cycle: effects on physical fitness of adolescents aged 11 to 16. , 2001, International journal of sports medicine.

[43]  E. V. Praagh,et al.  Effets d'un entraînement intermittent à haute intensité sur le pic de VO2 de garçons et de filles prépubères , 2001 .

[44]  J. Twisk,et al.  Fitness, fatness, and coronary heart disease risk in adolescents: the Northern Ireland Young Hearts Project. , 2001, Medicine and science in sports and exercise.

[45]  Tim Olds,et al.  One Hundred Years of Growth: The Evolution of Height, Mass, and Body Composition in Australian Children, 1899-1999 , 2001, Human biology.

[46]  B. Ainsworth,et al.  Active Commuting to School , 2001, Sports medicine.

[47]  R. Jeffery,et al.  Environmental influences on eating and physical activity. , 2001, Annual review of public health.

[48]  C. Black,et al.  Encouraging Walking: The Case of Journey-to-school Trips in Compact Urban Areas , 2001 .

[49]  M. Hamlin,et al.  Trends in the Health-Related Physical Fitness of 10-14 Year Old New Zealand Children , 2001 .

[50]  T. Olds,et al.  Secular trends in physical performance of Australian children. Evidence from the Talent Search program. , 2003, The Journal of sports medicine and physical fitness.

[51]  L. Léger,et al.  A maximal multistage 20-m shuttle run test to predict $$\dot V$$ O2 max , 2004, European Journal of Applied Physiology and Occupational Physiology.

[52]  W. van Mechelen,et al.  Validation of two running tests as estimates of maximal aerobic power in children , 2004, European Journal of Applied Physiology and Occupational Physiology.