The validity of two Omron pedometers during treadmill walking is speed dependent

The purpose of this study was to examine the effects of walking speed on the accuracy of measurement of steps, distance, and energy expenditure of two commercially available Omron pedometers [HJ-720IT-E2 (HJ-720) and HJ-113-E (HJ-113)]. Twenty-four untrained males (age, 22.7 ± 2.8 years; BMI, 24.38 ± 2.19 kg m−2; body fat (%), 16 ± 2.2; VO2max, 40.2 ± 6.5 ml kg−1 min−1) and 18 females (age, 22.4 ± 2.9 years; BMI, 21.68 ± 2.43 kg m−2; body fat (%), 23% ± 1.8; VO2max, 35.9 ± 2.8 ml kg−1 min−1) walked at five different velocities (54, 67, 80, 94 and 107 m min−1) on a treadmill in 5-min stages while wearing three types of pedometers: (a) HJ-720, (b) HJ-113, and (c) Yamax Digi-Walker SW-200 (YAM). Step-count for each pedometer was recorded at the end of each stage and compared with the value of a hand counter. Additionally, Omron pedometers were evaluated on their distance and energy expenditure (against VO2 measurement with a gas-exchange analyzer) accuracy during each stage. HJ-720 and HJ-113 demonstrated high accuracy (r = 0.80–0.99) at all speeds. YAM underestimated step-count only at 54 m min−1 (r = 0.46). HJ-720 and HJ-113 overestimated distance at slower speeds and underestimated distance at faster speeds, providing mean distance values that where to within 1.5–4% at 80 m min−1. HJ-720 and HJ-113 underestimated energy expenditure (gross kilocalories) by 28%, when compared to indirect calorimetry. These results suggest that although the Omron HJ-720 and HJ-113 pedometers are accurate in the measurement of step-count, they demonstrate limited accuracy in the assessment of traveled distance and energy expenditure in a speed-dependent manner.

[1]  K. Ishii,et al.  Accuracy of spring-levered and piezo-electric pedometers in primary school Japanese children. , 2008, Journal of physiological anthropology.

[2]  S. Blair,et al.  Cardiorespiratory fitness attenuates the effects of the metabolic syndrome on all-cause and cardiovascular disease mortality in men. , 2004, Archives of internal medicine.

[3]  D. Bassett,et al.  Comparison of two waist-mounted and two ankle-mounted electronic pedometers , 2005, European Journal of Applied Physiology.

[4]  Minsoo Kang,et al.  Validity and reliability of Omron pedometers for prescribed and self-paced walking. , 2009, Medicine and science in sports and exercise.

[5]  A. Swartz,et al.  Validity of Physical Activity Monitors in Assessing Energy Expenditure in Normal, Overweight, and Obese Adults. , 2009, The open sports sciences journal.

[6]  D. Bassett,et al.  Pedometer measures of free-living physical activity: comparison of 13 models. , 2004, Medicine and science in sports and exercise.

[7]  C. Tudor-Locke,et al.  Pedometer-determined step count guidelines for classifying walking intensity in a young ostensibly healthy population. , 2005, Canadian journal of applied physiology = Revue canadienne de physiologie appliquee.

[8]  R. Eston,et al.  Influence of speed and step frequency during walking and running on motion sensor output. , 2007, Medicine and science in sports and exercise.

[9]  A. Jamurtas,et al.  Leptin and adiponectin responses in overweight inactive elderly following resistance training and detraining are intensity related. , 2005, The Journal of clinical endocrinology and metabolism.

[10]  W. van Mechelen,et al.  Validity and reproducibility of motion sensors in youth: a systematic update. , 2009, Medicine and science in sports and exercise.

[11]  T P Schmalzried,et al.  Step activity monitor: Increased accuracy in quantifying ambulatory activity , 1999, Journal of orthopaedic research : official publication of the Orthopaedic Research Society.

[12]  Catrine Tudor-Locke,et al.  Descriptive epidemiology of youth pedometer-determined physical activity: CANPLAY. , 2010, Medicine and science in sports and exercise.

[13]  Barbara E. Ainsworth,et al.  Accuracy of five electronic pedometers for measuring distance walked. , 1996, Medicine and science in sports and exercise.

[14]  Søren Brage,et al.  Accelerometers and pedometers: methodology and clinical application , 2007, Current opinion in clinical nutrition and metabolic care.

[15]  A. Manley Physical Activity And Health: A Report Of The Surgeon General , 2004 .

[16]  Scott E Crouter,et al.  Validity of 10 electronic pedometers for measuring steps, distance, and energy cost. , 2003, Medicine and science in sports and exercise.

[17]  B J Whipp,et al.  A test to establish maximum O2 uptake despite no plateau in the O2 uptake response to ramp incremental exercise. , 2006, Journal of applied physiology.

[18]  Walking and measurement. , 2008, Medicine and science in sports and exercise.

[19]  B E Ainsworth,et al.  Validity of four motion sensors in measuring moderate intensity physical activity. , 2000, Medicine and science in sports and exercise.

[20]  Catrine Tudor-Locke,et al.  Comparison of pedometer and accelerometer accuracy under controlled conditions. , 2003, Medicine and science in sports and exercise.

[21]  E. Melanson,et al.  Commercially available pedometers: considerations for accurate step counting. , 2004, Preventive medicine.

[22]  J. Andrew Doyle,et al.  Validation of an Electronic Pedometer in a Field-Based Setting: 1331 , 2007 .

[23]  Scott E Crouter,et al.  Spring-levered versus piezo-electric pedometer accuracy in overweight and obese adults. , 2005, Medicine and science in sports and exercise.

[24]  Catrine Tudor-Locke,et al.  Utility of pedometers for assessing physical activity: convergent validity. , 2002, Sports medicine.

[25]  H. Nagaraja,et al.  Comparisons of four methods of estimating physical activity in adult women. , 2000, Medicine and science in sports and exercise.

[26]  P. Thompson,et al.  ACSM's Guidelines for Exercise Testing and Prescription , 1995 .

[27]  M. Ayabe,et al.  Pedometer accuracy during stair climbing and bench stepping exercises. , 2008, Journal of sports science & medicine.

[28]  S. Blair,et al.  The utility of the Digi-walker step counter to assess daily physical activity patterns. , 2000, Medicine and science in sports and exercise.

[29]  P. Freedson,et al.  Validity of accelerometry for the assessment of moderate intensity physical activity in the field. , 2000, Medicine and science in sports and exercise.

[30]  B E Ainsworth,et al.  Accuracy of five electronic pedometers for measuring distance walked. , 1996, Medicine and science in sports and exercise.

[31]  Anita M. Myers,et al.  Methodological Considerations for Researchers and Practitioners Using Pedometers to Measure Physical (Ambulatory) Activity , 2001, Research quarterly for exercise and sport.

[32]  Ann P Rafferty,et al.  Physical activity patterns among walkers and compliance with public health recommendations. , 2002, Medicine and science in sports and exercise.

[33]  Z. Šidák Rectangular Confidence Regions for the Means of Multivariate Normal Distributions , 1967 .

[34]  C. Craig,et al.  Process and treatment of pedometer data collection for youth: the Canadian Physical Activity Levels among Youth study. , 2010, Medicine and science in sports and exercise.

[35]  Catrine Tudor-Locke,et al.  Utility of Pedometers for Assessing Physical Activity , 2002 .

[36]  Scott E Crouter,et al.  Accuracy and reliability of 10 pedometers for measuring steps over a 400-m walk. , 2003, Medicine and science in sports and exercise.

[37]  B. Sjödin,et al.  Immunological changes in human skeletal muscle and blood after eccentric exercise and multiple biopsies , 2000, The Journal of physiology.

[38]  John Staudenmayer,et al.  Validity of the Omron HJ-112 pedometer during treadmill walking. , 2009, Medicine and science in sports and exercise.

[39]  C. Tudor-Locke,et al.  Motion sensor accuracy under controlled and free-living conditions. , 2004, Medicine and science in sports and exercise.

[40]  Michael W. Beets,et al.  The accuracy of pedometer steps and time during walking in children. , 2005, Medicine and science in sports and exercise.

[41]  W. M. Sherman,et al.  Comparison Of Activity Monitors Worn During Treadmill Walking , 1998 .