Validation of accelerometer wear and nonwear time classification algorithm.

INTRODUCTION the use of movement monitors (accelerometers) for measuring physical activity (PA) in intervention and population-based studies is becoming a standard methodology for the objective measurement of sedentary and active behaviors and for the validation of subjective PA self-reports. A vital step in PA measurement is the classification of daily time into accelerometer wear and nonwear intervals using its recordings (counts) and an accelerometer-specific algorithm. PURPOSE the purpose of this study was to validate and improve a commonly used algorithm for classifying accelerometer wear and nonwear time intervals using objective movement data obtained in the whole-room indirect calorimeter. METHODS we conducted a validation study of a wear or nonwear automatic algorithm using data obtained from 49 adults and 76 youth wearing accelerometers during a strictly monitored 24-h stay in a room calorimeter. The accelerometer wear and nonwear time classified by the algorithm was compared with actual wearing time. Potential improvements to the algorithm were examined using the minimum classification error as an optimization target. RESULTS the recommended elements in the new algorithm are as follows: 1) zero-count threshold during a nonwear time interval, 2) 90-min time window for consecutive zero or nonzero counts, and 3) allowance of 2-min interval of nonzero counts with the upstream or downstream 30-min consecutive zero-count window for detection of artifactual movements. Compared with the true wearing status, improvements to the algorithm decreased nonwear time misclassification during the waking and the 24-h periods (all P values < 0.001). CONCLUSIONS the accelerometer wear or nonwear time algorithm improvements may lead to more accurate estimation of time spent in sedentary and active behaviors.

[1]  P. Freedson,et al.  Amount of time spent in sedentary behaviors in the United States, 2003-2004. , 2008, American journal of epidemiology.

[2]  M. Sun,et al.  Patterns of physical activity in free-living adults in the Southern United States , 2004, European Journal of Clinical Nutrition.

[3]  H. Kohl,et al.  Sedentary behavior, physical activity, and the metabolic syndrome among U.S. adults. , 2005, Obesity research.

[4]  D. Jacobs,et al.  Validity and reliability of activity measures in African-American girls for GEMS. , 2003, Medicine and science in sports and exercise.

[5]  W. van Mechelen,et al.  Clinimetric review of motion sensors in children and adolescents. , 2006, Journal of clinical epidemiology.

[6]  A. Rowlands Accelerometer assessment of physical activity in children: an update. , 2007, Pediatric exercise science.

[7]  Daniel S. Laferriere,et al.  Procedures used to standardize data collected by RT3 triaxial accelerometers in a large-scale weight-loss trial. , 2009, Journal of physical activity & health.

[8]  R. Eston,et al.  Patterns of habitual activity across weekdays and weekend days in 9-11-year-old children. , 2008, Preventive medicine.

[9]  L. Andersen,et al.  Health‐related aspects of objectively measured daily physical activity in children , 2008, Clinical physiology and functional imaging.

[10]  Maciej S Buchowski,et al.  Validation of the ActiGraph two-regression model for predicting energy expenditure. , 2010, Medicine and science in sports and exercise.

[11]  J. B. Weir New methods for calculating metabolic rate with special reference to protein metabolism , 1949, The Journal of physiology.

[12]  J. Manson,et al.  Diet, lifestyle, and the risk of type 2 diabetes mellitus in women. , 2001, The New England journal of medicine.

[13]  R. Hanson,et al.  Childhood obesity, other cardiovascular risk factors, and premature death. , 2010, The New England journal of medicine.

[14]  J O Hill,et al.  Modification of a whole room indirect calorimeter for measurement of rapid changes in energy expenditure. , 1994, Journal of applied physiology.

[15]  D. Bassett,et al.  The technology of accelerometry-based activity monitors: current and future. , 2005, Medicine and science in sports and exercise.

[16]  J. Manson,et al.  Physical activity and mortality: a prospective study among women. , 2001, American journal of public health.

[17]  M. Hagströmer,et al.  Physical activity and inactivity in an adult population assessed by accelerometry. , 2007, Medicine and science in sports and exercise.

[18]  R. Cottrell,et al.  A review and meta-analysis of the effect of weight loss on all-cause mortality risk , 2009, Nutrition Research Reviews.

[19]  Richard P Troiano,et al.  Large-scale applications of accelerometers: new frontiers and new questions. , 2007, Medicine and science in sports and exercise.

[20]  Leena Choi,et al.  Distributed lag and spline modeling for predicting energy expenditure from accelerometry in youth. , 2010, Journal of applied physiology.

[21]  Philip Greenland,et al.  Prevalence and cardiovascular disease correlates of low cardiorespiratory fitness in adolescents and adults. , 2005, JAMA.

[22]  Claude Bouchard,et al.  Genes, exercise, growth, and the sedentary, obese child. , 2008, Journal of applied physiology.

[23]  S. Blair,et al.  Intraindividual variation of objectively measured physical activity in children. , 2007, Medicine and science in sports and exercise.

[24]  Mark S Tremblay,et al.  Quality control and data reduction procedures for accelerometry-derived measures of physical activity. , 2010, Health reports.

[25]  J. Brug,et al.  Potential environmental determinants of physical activity in adults: a systematic review , 2007, Obesity reviews : an official journal of the International Association for the Study of Obesity.

[26]  C. Matthews,et al.  Distinguishing True Sedentary From Accelerometer Non-wearing Time: Accuracy Of Two Automated Wear-time Estimations: 1088 , 2009 .

[27]  W. Willett,et al.  Physical activity and risk of breast cancer in premenopausal women , 2003, British Journal of Cancer.

[28]  A. Hills,et al.  The Contribution of Physical Activity and Sedentary Behaviours to the Growth and Development of Children and Adolescents , 2007, Sports medicine.