Validity of the computer science and applications (CSA) activity monitor in children.

PURPOSE The purpose of this study was to evaluate the validity of the CSA activity monitor as a measure of children's physical activity using energy expenditure (EE) as a criterion measure. METHODS Thirty subjects aged 10 to 14 performed three 5-min treadmill bouts at 3, 4, and 6 mph, respectively. While on the treadmill, subjects wore CSA (WAM 7164) activity monitors on the right and left hips. VO2 was monitored continuously by an automated system. EE was determined by multiplying the average VO2 by the caloric equivalent of the mean respiratory exchange ratio. RESULTS Repeated measures ANOVA indicated that both CSA monitors were sensitive to changes in treadmill speed. Mean activity counts from each CSA unit were not significantly different and the intraclass reliability coefficient for the two CSA units across all speeds was 0.87. Activity counts from both CSA units were strongly correlated with EE (r = 0.86 and 0.87, P < 0.001). An EE prediction equation was developed from 20 randomly selected subjects and cross-validated on the remaining 10. The equation predicted mean EE within 0.01 kcal.min-1. The correlation between actual and predicted values was 0.93 (P < 0.01) and the SEE was 0.93 kcal.min-1. CONCLUSION These data indicate that the CSA monitor is a valid and reliable tool for quantifying treadmill walking and running in children.

[1]  Bernard Gutin,et al.  Validation of the Caltrac Movement Sensor Using Direct Observation in Young Children , 1990 .

[2]  W. Haskell,et al.  Simultaneous measurement of heart rate and body motion to quantitate physical activity. , 1993, Medicine and science in sports and exercise.

[3]  B. Simons-Morton,et al.  Physical Activity and Blood Lipids in Adolescents , 1994 .

[4]  J. Wilmore,et al.  Physical Activity and Blood Pressure in Adolescents , 1994 .

[5]  J. D. Janssen,et al.  Assessment of energy expenditure for physical activity using a triaxial accelerometer. , 1994, Medicine and science in sports and exercise.

[6]  James R. Morrow,et al.  Caltrac Validity for Estimating Caloric Expenditure With Children , 1992 .

[7]  H. Al-Hazzaa,et al.  Cardiorespiratory Fitness, Physical Activity Patterns and Coronary Risk Factors in Preadolescent Boys , 1994, International journal of sports medicine.

[8]  K. Janz Validation of the CSA accelerometer for assessing children's physical activity. , 1994, Medicine and science in sports and exercise.

[9]  P. Freedson,et al.  Validity of the Computer Science and Applications, Inc. (CSA) activity monitor. , 1995, Medicine and science in sports and exercise.

[10]  K. Patrick,et al.  Physical Activity Guidelines for Adolescents: Consensus Statement , 1994 .

[11]  W. Taylor,et al.  Effects of Physical Activity on Psychological Variables in Adolescents , 1994 .

[12]  R. Pate,et al.  Descriptive Epidemiology of Physical Activity in Adolescents , 1994 .

[13]  J R Morrow,et al.  Caltrac versus calorimeter determination of 24-h energy expenditure in female children and adolescents. , 1994, Medicine and science in sports and exercise.

[14]  R. Pate Physical activity assessment in children and adolescents. , 1993, Critical reviews in food science and nutrition.

[15]  Alex Martin,et al.  Physical Activity and Skeletal Health in Adolescents , 1994 .

[16]  C B Corbin,et al.  The validity of the Tritrac-R3D Activity Monitor for the assessment of physical activity in children. , 1995, Research quarterly for exercise and sport.

[17]  P S Freedson,et al.  Electronic motion sensors and heart rate as measures of physical activity in children. , 1991, The Journal of school health.

[18]  Bruce Simons-Morton,et al.  Children and Fitness: A Public Health Perspective , 1987 .

[19]  D. Holtzman,et al.  Sports participation, age at smoking initiation, and the risk of smoking among US high school students. , 1993, JAMA.

[20]  K. Patrick,et al.  Physical Activity and Public Health: A Recommendation From the Centers for Disease Control and Prevention and the American College of Sports Medicine , 1995 .

[21]  W. Thorland,et al.  Comparison of serum lipids between habitually high and low active pre-adolescent males. , 1981, Medicine & Science in Sports & Exercise.

[22]  O. Bar-or,et al.  Physical Activity, Adiposity, and Obesity among Adolescents , 1994 .