Omron HJ-720 Research Articles

Step count for 7th and 8th grade students in structured and unstructured physical education classes

The aim of the study was to analyze step counts of middle school students in structured and unstructured physical education classes (PE) according to age, gender, and school type. Data were collected on a sample of 74 students, 40 7th and 34 8th grade students recruited from private and public middle schools. Omron HJ-112 pedometers were used in this study to obtain step counts. There were statistically significant differences between boys and girls in the step counts in both structured and unstructured PE. A significant difference was observed between school types in step counts during structured PE in both genders, while no significant difference was found for unstructured PE. Significant difference was found between step counts of only boys of different grades in unstructured PE. Boys made more steps than girls both in structured and unstructured PE. In structured PE, 7th grade boys reached a higher number of steps than 8th grade boys.

The effect of daily walking exercise on sleep quality in healthy young adults

PurposeWalking has beneficial effects on sleep quality in elderly population and patients in clinical settings. However, less is known whether walking improves sleep quality among healthy young adults. This study examined the effectiveness of a 12-week walking intervention on sleep quality among sedentary young adults.MethodsFifty-four healthy adults aged 19 to 36-years old participated a pedometer based aerobic walking intervention, a cross-over randomized control trial. Participants were assigned into two groups (group A and group B) randomly. The 12-week intervention was divided into three sessions equally. Sleep quality was assessed by Pittsburgh Sleep Quality Index (PSQI) before and after session 1 and session 3. Omron HJ-112 pedometer and daily walking diary facilitated the intervention process. Within group and between group comparisons were made for statistical analysis.ResultsWithin group comparison by repeated measures showed that sleep duration (p < 0.01, F-test 22.79), sleep medication (p < 0.05, F-test 5.22), subjective sleep (p < 0.05, F-test 5.51) and global sleep quality (p < 0.01, F-test 12.19) were significantly improved. The comparison between intervention group and control group showed that sleep disturbance was significantly improved (p < 0.05).ConclusionDaily walking exercise has a significant effect on facilitating sleep quality and sleep components among young adults. Further studies are suggested to examine the impact of walking intensity on sleep quality.

Effects of a pedometer-based walking intervention on young adults’ sleep quality, stress and life satisfaction: Randomized controlled trial

ObjectiveThe purpose of this study was to evaluate the effect of daily walking exercise on sleep quality, perceived stress and life satisfaction. It aimed to investigate the interaction between daily walking exercise and sleep components (sleep quality, sleep latency, sleep duration, sleep disturbance, sleep medication use, and daytime functioning). MethodsA four-week randomized control trial (RCT) was conducted by assigning 54 research volunteers into two groups randomly. The participants in the intervention group (IG) were asked to carry out a daily aerobic walking exercise (DAWE), and participants in the control group (CG) were requested to maintain a sedentary life style. Sleep quality, perceived stress and life satisfaction were assessed at the baseline and at the end of the intervention. All participants were equipped with Omron HJ-112 pedometer to record their daily exercise and to fulfil a daily diary sheet. ResultsBy the end of the intervention, 26 out of 54 participants (Mage = 24.96; SD = 5.13) completed the task. There was no statistical significance between the two groups when comparing global sleep quality, stress and life satisfaction. The within group comparison showed positive effect of DAWE on subjective sleep quality (p = 0.05), less sleep medication use (p < 0.05), positive effect on daytime function (p < 0.01) and improved life satisfaction (p = 0.05) after four weeks of intervention. ConclusionFindings suggested that incorporating daily aerobic walking exercise might be beneficial to sleep health. Further studies are suggested to ascertain the pedometer-based daily walking exercise's long-term effects and to unfold the biological mechanisms leading to its sleep quality improvement effect.

Physical Activity Monitor Accuracy for Overground Walking and Free-Living Conditions Among Pregnant Women

Purpose: We aimed to determine the step-count validity of commonly used physical activity monitors for pregnancy overground walking and during free-living conditions. Methods: Participants (n = 39, 12–38 weeks gestational age) completed six 100-step overground walking trials (three self-selected “normal pace”, three “brisk pace”) while wearing five physical activity monitors: Omron HJ-720 (OM), New Lifestyles 2000 (NL), Fitbit Flex (FF), ActiGraph Link (AG), and Modus StepWatch (SW). For each walking trial, monitor-recorded steps and criterion-measured steps were assessed. Participants also wore all activity monitors for an extended free-living period (72 hours), with the SW used as the criterion device. Mean absolute percent error (MAPE) was calculated for overground walking and free-living protocols and compared across monitors. Results: For overground walking, the OM, NL, and SW performed well (&lt;5% MAPE) for normal and brisk pace walking trials, and also when trials were analyzed by actual speeds. The AG and FF had significantly greater MAPE for overground walking trials (11.9–14.7%). Trimester did affect device accuracy to some degree for the AG, FF, and SW, with error being lower in the third trimester compared to the second. For the free-living period, the OM, NL, AG, and FF significantly underestimated (&gt;32% MAPE) actual steps taken per day as measured by the criterion SW (M [SD] = 9,350 [3,910]). MAPE for the OM was particularly high (45.3%). Conclusion: The OM, NL, and SW monitors are valid measures for overground step-counting during pregnancy walking. However, the OM and NL significantly underestimate steps by second and third trimester pregnant women in free-living conditions.

Accuracy of Physical Activity Monitors for Steps and Calorie Measurement During Pregnancy Walking

Purpose: This purpose of this study was to validate consumer-based and research-grade PA monitors for step counting and Calorie expenditure during treadmill walking. Methods: Participants (n = 40, 24 in second trimester and 16 in third trimester) completed five 2-minute walking activities (1.5–3.5 miles/hour in 0.5 mile/hour increments) while wearing five PA monitors (right hip: ActiGraph Link [AG]; left hip: Omron HJ-720 [OM]; left front pants pocket: New Lifestyles NL 2000 [NL]; non-dominant wrist: Fitbit Flex [FF]; right ankle: StepWatch [SW]). Mean absolute percent error (MAPE) was used to determine device accuracy for step counting (all monitors) and Calorie expenditure (AG with Freedson equations and FF) compared to criterion measures (hand tally for steps, indirect Calorimetry for Calories). Results: For step counting, the SW had MAPE ≤ 10% at all walking speeds, and the OM and NL had MAPE ≤ 10% for all speeds but 1.5 miles/hour. The AG had MAPE ≤ 10% for only 3.0–3.5 miles/hour speeds, and the FF had high MAPE for all speeds. For Calories, the FF and AG had MAPE &gt; 10% for all speeds, with the FF overestimating Calories expended. Trimester did not affect PA monitor accuracy for step counting but did affect accuracy for Calorie expenditure. Conclusion: The ankle-worn SW and hip-worn OM had high accuracy for measuring step counts at all treadmill walking speeds, whereas the NL had high accuracy for speeds ≥2.0 miles/hour. Conversely, the monitors tested for Calorie expenditure have poor accuracy and should be interpreted cautiously for walking behavior.

Evaluating patients' walking capacity during hospitalization for lung cancer resection.

The goal of this study was to describe non-supervised daily physical activity in patients during the period immediately following anatomical lung resection. The study was an observational study on 50 consecutive patients (33 men) admitted for anatomical lung resection over a 4-month period. All cases were approached using a minimally invasive technique. Patients were instructed by nursing and physiotherapy staff and asked to wear a portable pedometer (Omron HJ-720 T-E2) from admission until hospital discharge, excluding the day of the operation and the first hours in the recovery room. The variables collected included sex, age, body mass index, type of lung resection, cardiopulmonary postoperative complications, percentage forced expiratory volume in 1 s, percentage single-breath carbon monoxide diffusing capacity, predicted postoperative forced expiratory volume in 1 s calculated according to functional segments removed at surgery, predicted postoperative single-breath carbon monoxide diffusing capacity calculated according to functional segments removed at surgery, total steps, aerobic steps and daily total strolled distance in metres. Comparison of activity was analysed using the paired t-test for individual data evolution and the unpaired t-test for patients showing complications or not. Body mass index and exercise capacity were analysed using the Spearman correlation analysis. A total of 34 patients underwent lobectomy or bilobectomy. All patients could walk on the first postoperative day. The average walked distance on the first and fourth postoperative days was 6100 m and 7400 m, respectively. Compared with the preoperative day, patients walked significantly fewer total steps on Day 1 and Day 2 (Day 1, P = 0.0001; Day 2, P = 0.049). The rate of aerobic to total daily steps was comparable after the second postoperative day. Patients having any postoperative cardiopulmonary complication showed a significantly inferior walking capacity (P < 0.001), both preoperatively and postoperatively, than their peers without complications. After anatomical lung resection, patients could perform a relevant amount of physical activity. These data could be useful for designing physical recovery programmes to be implemented postoperatively.

The Effect of Ramadan Month on Changes in Objectively Assessed Physical Activity in Adults

Ramadan is the Islamic month, when Muslims around the world participate in an intermittent fast for 29 to 30 days as a part of their religious obligation. During this period, Muslims abstain from eating and drinking during daylight hours. Studies have shown that Ramadan fasting has negative influence on sleep, physical performance and attention. However, the effects of Ramadan fasting on physical activity are not clear. PURPOSE: To determine the impact of Ramadan month on objectively assessed physical activity among Muslim adults. METHODS: Around 802 Muslim adults (Males 51.7%) ages ranging from 18 to 60 years, were sampled from a national community health program in Qatar representing two consecutive years. Physical activity was assessed daily using a pedometer (Omron HJ-720 ITC). Daily average step count and aerobic step count during the days of Ramadan month was compared during non-Ramadan months (one month prior and one month after Ramadan). For this longitudinal study design, a linear mixed model statistical procedure was adopted to adjust for demographic and environmental factors to test the study hypothesis. RESULTS: Objectively assessed physical activity, i.e. daily average step counts per day, declined during the month of Ramadan compared to non-Ramadan months in this population. The average daily steps per day during Ramadan month was 7,267 (95% CI 7,180 to 7354) steps. When compared to one month prior Ramadan there was an average reduction of 619 steps (95% CI 483 to 755) per day p<0.001. The decline in physical activity during Ramadan was higher men (-729±74) steps compared to women (-490±81). However, one month post Ramadan the physical activity levels defined by daily average step counts increased by average 548 steps (95% CI 407 to 688) compared to Ramadan (P<0.001) and were similar to pre-Ramadan month (P=0.692). CONCLUSIONS: This study confirmed that in this population, due to the shift in time of activity as well as calorie intake from daylight to evening hours during Ramadan there was substantial decline in objectively assessed daily physical activity among Muslim adults. Interventions are needed to promote physical activity during this period.

Reliability and validity of the Omron HJ-720 ITC pedometer when worn at four different locations on the body

AbstractPurpose: To determine the reliability and validity of the Omron HJ-720 ITC pedometer when worn at four different locations on the body. Methods: Subjects wore pedometers at the hip, chest, back, and pocket. Subjects’ stature, body mass, and stride length were entered in to each pedometer prior to walking one mile on a track while wearing a portable metabolic analyzer. Results: Intraclass correlation coefficients (ICCs) revealed that the pedometer produced high and statistically significant inter-device reliability for steps (ICC = 0.95), distance (ICC = 0.93), and kcal expenditure (ICC = 0.87), regardless of placement on the body. Measures of percent agreement and one-way ANOVAs revealed that the pedometer was valid for measures of steps and distance, but there was a statistical difference between actual and pedometer-estimated kcal expenditure (p < 0.05). Conclusions: Although the Omron pedometer produced reliable results regardless of placement on the body, it did not produce valid estimates of ...

Impact of Climatic Conditions on Physical Activity: A 2-Year Cohort Study in the Arabian Gulf Region.

Little is known about the effects that climatic conditions, especially extreme heat, have on physical activity (PA) levels. The aim of this 2-year cohort analysis undertaken in the Arabian Gulf region was to assess changes in objectively-assessed PA as a result of changes in climatic conditions. A total of 2088 adults (1390 men and 698 women) from many regions of the world were enrolled in a community health program in Qatar, were included in this study. For 2 years participants recorded daily step count using an Omron HJ-720 ITC pedometer. Daily climate parameters included temperature, relative humidity and other conditions. From linear mixed model analysis it was evident that higher average temperature and humidity, and the Wet bulb Globe Temperature (WbGT), resulted in a reduction of the number of steps taken per day. Analysis of interaction effects also revealed that the effects of heat stress were equivalent across gender, age, and the region participants came from according to a World Health Organization classification scheme. Increased temperature and humidity are associated with a reduction in the number of steps taken per day. Community-based PA programs in hot hot/humid climates should consider novel approaches to increase PA levels.

Validation of Consumer-Based Hip and Wrist Activity Monitors in Older Adults With Varied Ambulatory Abilities.

The accuracy of step detection in consumer-based wearable activity monitors in older adults with varied ambulatory abilities is not known. We assessed the validity of two hip-worn (Fitbit One and Omron HJ-112) and two wrist-worn (Fitbit Flex and Jawbone UP) activity monitors in 99 older adults of varying ambulatory abilities and also included the validity results from the ankle-worn StepWatch as a comparison device. Nonimpaired, impaired (Short Physical Performance Battery Score < 9), cane-using, or walker-using older adults (62 and older) ambulated at a self-selected pace for 100 m wearing all activity monitors simultaneously. The criterion measure was directly observed steps. Intraclass correlation coefficients (ICC), mean percent error and mean absolute percent error, equivalency, and Bland-Altman plots were used to assess accuracy. Nonimpaired adults steps were underestimated by 4.4% for StepWatch (ICC = 0.87), 2.6% for Fitbit One (ICC = 0.80), 4.5% for Omron HJ-112 (ICC = 0.72), 26.9% for Fitbit Flex (ICC = 0.15), and 2.9% for Jawbone UP (ICC = 0.55). Impaired adults steps were underestimated by 3.5% for StepWatch (ICC = 0.91), 1.7% for Fitbit One (ICC = 0.96), 3.2% for Omron HJ-112 (ICC = 0.89), 16.3% for Fitbit Flex (ICC = 0.25), and 8.4% for Jawbone UP (ICC = 0.50). Cane-user and walker-user steps were underestimated by StepWatch by 1.8% (ICC = 0.98) and 1.3% (ICC = 0.99), respectively, where all other monitors underestimated steps by >11.5% (ICCs < 0.05). StepWatch, Omron HJ-112, Fitbit One, and Jawbone UP appeared accurate at measuring steps in older adults with nonimpaired and impaired ambulation during a self-paced walking test. StepWatch also appeared accurate at measuring steps in cane-users.

An Internet-Mediated Pedometer-Based Program Improves Health-Related Quality-of-Life Domains and Daily Step Counts in COPD

Low levels of physical activity (PA) are associated with poor outcomes in people with COPD. Interventions to increase PA could improve outcomes. We tested the efficacy of a novel Internet-mediated, pedometer-based exercise intervention. Veterans with COPD (N = 239) were randomized in a 2:1 ratio to the (1) intervention group (Omron HJ-720 ITC pedometer and Internet-mediated program) or (2) wait-list control group (pedometer). The primary outcome was health-related quality of life (HRQL), assessed by the St. George's Respiratory Questionnaire (SGRQ), at 4 months. We examined the SGRQ total score (SGRQ-TS) and three domain scores: Symptoms, Activities, and Impact. The secondary outcome was daily step counts. Linear regression models assessed the effect of intervention on outcomes. Participants had a mean age of 67 ± 9 years, and 94% were men. There was no significant between-group difference in mean 4-month SGRQ-TS (2.3 units, P = .14). Nevertheless, a significantly greater proportion of intervention participants than control subjects had at least a 4-unit improvement in SGRQ-TS, the minimum clinically important difference (53% vs 39%, respectively, P = .05). For domain scores, the intervention group had a lower (reflecting better HRQL) mean than the control group by 4.6 units for Symptoms (P = .046) and by 3.3 units for Impact (P = .049). There was no significant difference in Activities score between the two groups. Compared with the control subjects, intervention participants walked 779 more steps per day at 4 months (P = .005). An Internet-mediated, pedometer-based walking program can improve domains of HRQL and daily step counts at 4 months in people with COPD. Clinical Trials.gov; No.: NCT01102777; URL: www.clinicaltrials.gov.

Activity Monitors Step Count Accuracy in Community-Dwelling Older Adults.

Objective: To examine the step count accuracy of activity monitors in community-dwelling older adults. Method: Twenty-nine participants aged 67.70 ± 6.07 participated. Three pedometers and the Actical accelerometer step count functions were compared with actual steps taken during a 200-m walk around an indoor track and during treadmill walking at three different speeds. Results: There was no statistical difference between activity monitors step counts and actual steps during self-selected pace walking. During treadmill walking at 0.67 m∙s−1, all activity monitors step counts were significantly different from actual steps. During treadmill walking at 0.894m∙s−1, the Omron HJ-112 pedometer step counts were not significantly different from actual steps. During treadmill walking at 1.12 m∙s−1, the Yamax SW-200 pedometer steps were significantly different from actual steps. Discussion: Activity monitor selection should be deliberate when examining the walking behaviors of community-dwelling older adults, especially for those who walk at a slower pace.

Concurrent validation of the Actigraph gt3x+, Polar Active accelerometer, Omron HJ-720 and Yamax Digiwalker SW-701 pedometer step counts in lab-based and free-living settings

Activity monitors are frequently used to assess activity in many settings. But as technology advances, so do the mechanisms used to estimate activity causing a continuous need to validate newly developed monitors. The purpose of this study was to examine the step count validity of the Yamax Digiwalker SW-701 pedometer (YX), Omron HJ-720 T pedometer (OP), Polar Active accelerometer (PAC) and Actigraph gt3x+ accelerometer (AG) under controlled and free-living conditions. Participants completed five stages of treadmill walking (n = 43) and a subset of these completed a 3-day free-living wear period (n = 37). Manually counted (MC) steps provided a criterion measure for treadmill walking, whereas the comparative measure during free-living was the YX. During treadmill walking, the OP was the most accurate monitor across all speeds (±1.1% of MC steps), while the PAC underestimated steps by 6.7–16.0% per stage. During free-living, the OP and AG counted 97.5% and 98.5% of YX steps, respectively. The PAC overestimated steps by 44.0%, or 5,265 steps per day. The Omron pedometer seems to provide the most reliable and valid estimate of steps taken, as it was the best performer under lab-based conditions and provided comparable results to the YX in free-living. Future studies should consider these monitors in additional populations and settings.

Pedometer Accuracy in Persons Using Lower-Limb Prostheses

It is important that all individuals obtain sufficient physical activity to increase health and fitness for the reduction of risk factors associated with cardiovascular disease. Pedometers are a means by which one can monitor and assess physical activity levels. The objective of this study was to assess the accuracy of three commercially available pedometers in persons with lower-limb amputations. Thirty-nine participants were fitted with an Omron HJ-112, a New Lifestyles 800, and a Digiwalker SW-701 on the right side of the hip, then walked at a self-selected pace on a carpeted level surface for 200 m. Repeated-measures (RM) analysis of variance (ANOVA) indicated a significant difference between the pedometers and the actual counts (ACs). Whereas the HJ-112 (mean [SD], 312.5 [38.3] steps) and the NL-800 (307.2 [35.1] steps) were not significantly different from AC (314.7 [73.9] steps), the SW-701 (255.57 [8.5] steps) significantly underestimated step counts, p < 0.05. Bland-Altman plots indicated the HJ-112 had the best agreement with AC, followed by the NL-800. Percentage error was lowest in the HJ-112 (0.69%), followed by NL-800 (2.4%), with the SW-701 eliciting the greatest error (18.8%). The HJ-12 and the NL-800 are viable options for persons with lower-limb amputations seeking to assess and/or monitor their physical activity levels.

Abstract P443: Move for Health: Pedometer Based Assessment for Physical Activity among Resident Physicians at a Busy New York City Hospital

Background: Regular physical activity (PA) improves mental health and decreases the incidence of coronary heart disease. Current guidelines recommend &gt;10,000 steps/day (s/d) as an appropriate PA target. We studied the self-perception of PA among the physicians and compared it with an objective measure using a pedometer. Methods: 85 internal medicine physicians,91% residents (age: 30±3.8 yrs; 57% Male) were enrolled in this study. Demographic and international physical activity questionnaire (IPAQ) were obtained. Participants were instructed to wear an Omron HJ-720 pedometer all day except during sleep to record average s/d over a 7 day period. The pedometer steps were not made visible to the participants. Physicians were stratified according to sedentary lifestyle [SL] (7500 s/d). Results: Mean daily steps were 6521 ± 2524 s/d. Only 8(9.4%) participants reached the recommended target of &gt;10,000 s/d. Mean daily steps at work (6AM to 5PM) were 4420±2242 s/d, which constituted 68% ± 24% of their daily PA. There were 26 (31%) subjects in the SL group (3551 ±1075 s/d), 27 (32%) LA group (6340 ± 819 s/d) and 32 (38%) in SA group (9086 ± 1243 s/d). Step count did not correlate with age, gender, BMI, foreign or American medical graduate, PGY status, or type of rotation (floors,ICU, electives). At the time of enrollment, 56% of physicians stated that they achieve “enough” PA. According to the IPAQ, 61% of physicians were in the high PA group. However, these PA levels did not correlate with objective pedometer measurements. SA group had higher work time PA (p&lt;0.001). All groups maintained the week day PA during the weekends. Conclusion: Despite the perception of being PA, most physicians in our study did not achieve the recommended daily steps/day. “Walking at work” is not enough to reach recommended PA targets. Future research is needed for successful strategies to create awareness and improve PA among physicians.

Body mass index, weekday and weekend days step counts for Fifth grade Costa Rican children

The purpose of this study was to determine the differences in physical activity levels (pedometer step count) over a seven day period between normal weight and overweight/obese fifth grade Costa Rican boys and girls. Children’s (n = 188) weight and height were measured. Each child wore an Omron HJ-720 ITC pedometer for one week to assess step count. Participants were placed into one of two groups (Obese/Overweight or Normal weight) based on BMI. A 2 (Sex) x 2 (BMI Groups) x 2 (Week/Weekend) mixed model ANOVA revealed no interactions among variables. However, there were statistically significant differences for the within-subjects effect, with average step counts for weekdays and weekend days, F = 19.421, p < .001, and statistically significant between-subjects effects for step counts and BMI groups, F = 4.09, p = .044, and Sex, F = 6.80, p = .010. All children engaged in more daily steps during the weekdays than the weekend days. Daily step counts for children in the Obese/Overweight BMI group were lower than children in the Normal BMI group. Boys engaged in more daily steps than girls all days of the week. Interventions to provide weekend physical activity should be promoted based on these findings, particularly for girls and children with high BMIs.

Validation of Physical Activity Monitors in Individuals with Diabetes: Energy Expenditure Estimation by the Multisensor SenseWear Armband Pro3 and the Step Counter Omron HJ-720 Against Indirect Calorimetry During Walking

The purpose of this study is to test the agreement between energy expenditure estimate of the SenseWear(®) Armband Pro3 (SWA) (BodyMedia, Pittsburgh, PA) and the Omron HJ-720 (Omron Healthcare, Kyoto, Japan) step counter with indirect calorimetry (IC) as a gold standard in older individuals with type 1 and type 2 diabetes mellitus while walking on a treadmill. In total, six men (60.3±3.1 years old) and 13 women (51.1±11.0 years old) with type 1 or type 2 diabetes mellitus were included in the study. Each subject performed three 15-min walking sessions with different combinations of speed and incline (3 km/h, 0%; 4 km/h, 0%; 5 km/h, 5%) on a treadmill. Energy expenditure (EE) was simultaneously measured by the SWA, Omron, and IC. Mean over-/underestimation and Pearson's correlation coefficients were used for statistical evaluation of the agreement between tested methods and IC. At the speed of 3 km/h with 0% incline, mean overestimation of +81.19±23.81% was found for SWA (r=0.79, P<0.001) and +70.51±20.91% for Omron (r=0.77, P<0.001). At the speed of 4 km/h and 0% incline, mean overestimation found for SWA was +78.18±33.96% (r=0.63, P<0.01) and +75.77±33.36% for Omron (r=0.52, P<0.05). At the level of high-intensity exercise at the speed of 5 km/h and 5% incline, mean underestimation was -7.88±16.86% for SWA (r=0.74, P<0.001) and -7.37±16.07% for Omron (r=0.75, P<0.001). Both methods led to considerable overestimation of calculated EE in level walking and a relatively minor underestimation during fast uphill walking.

Use of pedometers and accelerometers in clinical populations: validity and reliability issues

Background: Pedometers and accelerometers are often used in clinical research studies, and have the potential to provide valid and objective information on physical activity.Objectives: The purposes of this review are to introduce clinicians to various activity monitors that are commercially available, and to discuss their strengths and limitations. Scientific articles over the past 20 years were reviewed, and the most common types of physical activity monitors were identified. Emphasis was placed on devices with established validity and reliability, which were acceptable to participants and did not interfere with their activities. Ease-of-use from the investigator's standpoint was also considered.Major findings: A number of activity monitors were identified, including four pedometers (Yamax SW digiwalker, New Lifestyles NL-2000, Omron HJ-720 ITC, and StepWatch), three accelerometer-based activity monitors (ActiGraph, Actical, and RT3), and a multisensor device (Sensewear Armband). Validity and reliability of these devices is discussed.Conclusions: Pedometers and accelerometers are useful for tracking ambulatory physical activity in clinical populations, and those that display steps and/or calories are useful in motivating patients to increase their activity levels.

Accuracy of Physical Activity Monitors in Pregnant Women

No physical activity (PA) monitor has been validated in pregnant women. PA monitors may assist pregnant women in the adoption and maintenance of a PA program. PURPOSE: To determine the accuracy of three pedometers and one accelerometer in pregnant women during treadmill walking. METHODS: Subjects were 18 women in the second or third trimester (20-36 weeks) who were screened for pregnancy-related risk factors by the nursing staff at an obstetrics office. Only those free of all risk factors were eligible to participate. Each subject was fitted with a belt below the abdomen containing three PA monitors: Yamax Digiwalker SW-200 (DW), New Lifestyles NL-2000 (NL), and GT3X Actigraph Accelerometer (ACT). The Omron HJ-112 (HJ) was placed in the pants pocket. Subjects walked at 54, 67, 80, and 94 m/min for two minutes each. Actual steps for each speed were hand-tallied and compared with steps recorded by each PA monitor. Percentage of actual steps was calculated for each device at each speed. Data were analyzed using repeated measures ANOVA. Paired t-tests and Bonferroni adjustment were used to further explore interactions. RESULTS: There were significant effects of speed and device as well as a significant interaction. At 54 m/min, the PA monitors were significantly less accurate (80.0+34.3%) compared to 67 (98.7+14.4%), 80 (99.3+14.8%), and 94 (96.5+16.4%) m/min (P<0.05). Overall, the HJ (98.4+7.9%) and the NL (105.6+15.0%) were significantly more accurate than the ACT (89.1+14.9%) and DW (81.0+35.5%) (P<0.05). There was a significant interaction between device and speed (F 9,7)=18.447, P<0.001). At 54 m/min, the HJ (95.8+15.1%) and NL (108.4+19.3%) were more accurate (P<0.05) than the ACT (81.5+19.1%) and DW (34.1+24.4%). The DW was less accurate than the ACT (P<0.05). At 67 m/min, the NL (105.4+24.4%) was significantly more accurate (P<0.05) than the ACT (89.8+19.1%). At 80 m/min there were no significant device differences. At 94 m/min, there were significant device differences (P<0.05), with the ACT (86.6+15.4%) being less accurate than the HJ (98.7+4.6%) and NL (104.4+10.8%). CONCLUSIONS: In pregnant women, the ACT and DW are less accurate than the HJ and NL. The HJ appeared to be the most accurate. These results can be useful in developing further research and PA programs that focus on walking during pregnancy.

RESPONSE

Dear Editor-in-Chief: We thank Jehn et al. (3) for their interest in our article. The primary objective of our study (2) was to examine the validity of step counts measured with the Omron HJ-112 pedometer and to assess the effect of pedometer placement during treadmill walking in healthy, normal/overweight, and obese adults. We examined pedometer accuracy during a variable-speed condition and at slow (1.12 m·s−1 or 2.5 mph), moderate (1.34 m·s−1 or 3.0 mph), and fast (1.56 m·s−1 or 3.5 mph) speeds. The primary findings of this study were that the Omron HJ-112 pedometer validly assesses steps in both normal/overweight and obese individuals during constant and variable-speed walking when positioned around the neck, in a shirt pocket, or at the hip. Although there are limited data regarding preferred walking speeds for the general population, recently published data from Kang and Dingwell (5) and Finnis and Walton (1) suggest that the speeds used in our study were appropriate for our healthy adult population. In healthy young adults (n = 17, age = 23.3 ± 2.6 yr, body mass index [BMI] = 23.5 ± 1.7 kg·m−2), Kang and Dingwell (5) reported a preferred walking speed of 1.30 ± 0.10 m·s−1 (range = 1.16-1.56 m·s−1). In healthy older adults (n = 18, age = 72.1 ± 6.0 yr, BMI = 25.4 ± 3.2 kg·m−2), the preferred walking speed was 1.29 ± 0.15 m·s−1 (range = 0.93-1.52 m·s−1). Furthermore, researchers who have measured pedestrian walking speeds for the purpose of planning pedestrian walking facilities have reported an average walking speed of 1.33 m·s−1 for the general population (1). Thus, a walking speed of 1.12 m·s−1 may exceed that typically considered as slow and should have been designated as slow relative to the other constant speed conditions included in our study. Nevertheless, we are confident that the speeds chosen for this particular study accurately represent the range of preferred walking speeds in a free-living environment for a healthy, ambulatory, adult population. Jehn et al. (3) correctly note that previous studies have found inaccuracies in pedometer step counting at speeds below 0.83 m·s−1. Assessing pedometer accuracy at extremely slow speeds would most likely be uncomfortable for a healthy, ambulatory participant and would likely result in changes in walking gait such as stride length and frequency (4). Each of these walking parameters could potentially change the accuracy of the pedometer. However, healthy, ambulatory, adult individuals rarely walk at such slow speeds for a prolonged period. We agree with Jehn et al. (3) that the reliability of the piezoelectric pedometer should be validated at walking speeds of 0.83 m·s−1 or slower, which are typically reported in special populations with irregular walking gaits; however, that was not the purpose of our study. Our goal was to validate the Omron HJ-112 pedometer for different BMI groups because the advances in pedometer design were likely to make the pedometer less susceptible to problems associated with positioning in obese participants; and we did so at speeds that are preferred in a healthy, ambulatory, adult population. Rebecca E. Hasson Jeannie Haller David M. Pober Department of Kinesiology University of Massachusetts Amherst, MA John S. Staudenmayer Department of Mathematics and Statistics University of Massachusetts Amherst, MA Patty S. Freedson Department of Kinesiology University of Massachusetts Amherst, MA