Can a Free Wearable Activity Tracker Change Behavior? The Impact of Trackers on Adults in a Physician-Led Wellness Group

Lisa Gualtieri, Sandra Rosenbluth, Jeffrey Phillips, Lisa Gualtieri, Sandra Rosenbluth, Jeffrey Phillips

Abstract

Background: Wearable activity trackers (trackers) are increasingly popular devices used to track step count and other health indicators. Trackers have the potential to benefit those in need of increased physical activity, such as adults who are older and face significant health challenges. These populations are least likely to purchase trackers and most likely to face challenges in using them, yet may derive educational, motivational, and health benefits from their use once these barriers are removed.

Objective: The aim of this pilot research is to investigate the use of trackers by adults with chronic medical conditions who have never used trackers previously. Specifically, we aim to determine (1) if participants would accept and use trackers to increase their physical activity; (2) if there were barriers to use besides cost and training; (3) if trackers would educate participants on their baseline and ongoing activity levels and support behavior change; and (4) if clinical outcomes would show improvements in participants' health.

Methods: This study was conducted with patients (N=10) in a 12-week physician-led wellness group offered by Family Doctors, LLC. Patients were given trackers in the second week of The Wellness Group and were interviewed 2 to 4 weeks after it ended. The study investigators analyzed the interview notes to extract themes about the participants' attitudes and behavior changes and collected and analyzed participants' clinical data, including weight and low-density lipoprotein (LDL) cholesterol over the course of the study.

Results: Over the 12 to 14 weeks of tracker use, improvements were seen in clinical outcomes, attitudes towards the trackers, and physical activity behaviors. Participants lost an average of 0.5 lbs per week (SD 0.4), with a mean total weight loss of 5.97 lbs (P=.004). Other short-term clinical outcomes included a 9.2% decrease in LDL levels (P=.038). All participants reported an increase in well-being and confidence in their ability to lead more active lives. We identified the following 6 major attitudinal themes from our qualitative analysis of the interview notes: (1) barriers to tracker purchase included cost, perceived value, and choice confusion; (2) attitudes towards the trackers shifted for many, from half of the participants expressing excitement and hope and half expressing hesitation or trepidation, to all participants feeling positive towards their tracker at the time of the interviews; (3) trackers served as educational tools for baseline activity levels; (4) trackers provided concrete feedback on physical activity, which motivated behavior change; (5) tracker use reinforced wellness group activities and goals; and (6) although commitment to tracker use did not waver, external circumstances influenced some participants' ongoing use.

Conclusions: Our findings suggest that adding trackers to wellness groups comprising primarily older adults with chronic medical conditions can support education and behavior change to be more physically active. The trackers increased participant self-efficacy by providing a tangible, visible reminder of a commitment to increasing activity and immediate feedback on step count and progress towards a daily step goal. While acceptance was high and attitudes ultimately positive, training and support are needed and short-term drop-off in participant use is to be expected. Future research will further consider the potential of trackers in older adults with chronic medical conditions who are unlikely to purchase them, and studies will use larger samples, continue over a longer period of time, and evaluate outcomes independent of a wellness group.

Keywords: behavior change; chronic disease; digital health; fitness trackers; older adults; physical activity; trackers; wearable activity trackers; wellness; wellness group.

Conflict of interest statement

Conflicts of Interest: None declared.

©Lisa Gualtieri, Sandra Rosenbluth, Jeffrey Phillips. Originally published in JMIR Research Protocols (http://www.researchprotocols.org), 30.11.2016.

References

    1. Berra K, Rippe J, Manson JE. Making physical activity counseling a priority in clinical practice: the time for action is now. JAMA. 2015;314(24):2617–8. doi: 10.1001/jama.2015.16244.
    1. Office of Disease Prevention and Health Promotion Chapter 4: Active Adults. 2008. [2016-06-22]. .
    1. US Department of Health and Human Services. Centers for Disease Control and Prevention. National Center for Health Statistics Summary Health Statistics: National Health Interview Survey, 2013. 2013. .
    1. Ghose T. Step It Up! The States Where People Walk Most. 2015. [2016-06-22]. .
    1. IDC Worldwide Wearables Market Increases 67.2% Amid Seasonal Retrenchment, According to IDC. 2016. May 16, [2016-06-22]. .
    1. Das R. US Consumers Are Still Not Engaged With Their Health. 2016. May 23, .
    1. Ledger D, McCaffrey D. [2016-06-22]. How the science of human behavior change offers the secret to long-term engagement. Inside Wearables. 2014. .
    1. Nielsen. Tech-Styles: Are Consumers Really Interested in Wearing Tech on Their Sleeves?. 2014 Mar 20. .
    1. Allen LN, Christie GP. The emergence of personalized health technology. J Med Internet Res. 2016 May 10;18(5):e99. doi: 10.2196/jmir.5357.
    1. Ledger D. [2016-06-22]. A look at the uncertain future of smart wearable devices, and five industry developments that will be necessary for meaningful mass market adoption and sustained engagement. Inside Wearables - Part 2. 2014. .
    1. Sarahsohn-Kahn J. One in two people use wearable tech in 2016. Health Populi. 2016.
    1. Technology A. [2016-06-22]. Wearable technology & preventative healthcare: trends in fitness tracking among US adults. 2014. .
    1. Sands D. Evidence! New S4PM survey shows people want to collaborate with their doctors and co-produce their clinical data. e-patients. 2016. .
    1. National Cancer Institute Health Information National Trends Survey. 2014. .
    1. Koeneman MA, Verheijden MW, Chinapaw MJ, Hopman-Rock M. Determinants of physical activity and exercise in healthy older adults: a systematic review. Int J Behav Nutr Phys Act. 2011 Dec 28;8:142. doi: 10.1186/1479-5868-8-142.
    1. Loewenstein G, Brennan T, Volpp KG. Asymmetric paternalism to improve health behaviors. JAMA. 2007 Nov 28;298(20):2415–7. doi: 10.1001/jama.298.20.2415.
    1. Patel MS, Asch DA, Volpp KG. Wearable devices as facilitators, not drivers, of health behavior change. JAMA. 2015 Feb 3;313(5):459–60. doi: 10.1001/jama.2014.14781.
    1. Stubbs B, Williams J, Gaughran F, Craig T. How sedentary are people with psychosis? A systematic review and meta-analysis. Schizophr Res. 2016 Mar;171(1-3):103–9. doi: 10.1016/j.schres.2016.01.034.
    1. Frost & Sullivan. Creating a Culture of Health—A 2015 Survey of US Consumers: Benchmarking consumer attitudes on health and wellness along the road to patient engagement. 2016 Jan 06. .
    1. Mercer K, Giangregorio L, Schneider E, Chilana P, Li M, Grindrod K. Acceptance of commercially available wearable activity trackers among adults aged over 50 and with chronic illness: a mixed-methods evaluation. JMIR Mhealth Uhealth. 2016 Jan 27;4(1):e7. doi: 10.2196/mhealth.4225.
    1. Cadmus-Bertram L, Marcus BH, Patterson RE, Parker BA, Morey BL. Use of the Fitbit to measure adherence to a physical activity intervention among overweight or obese, postmenopausal women: self-monitoring trajectory during 16 weeks. JMIR Mhealth Uhealth. 2015 Nov 19;3(4):e96. doi: 10.2196/mhealth.4229.
    1. McMahon SK, Lewis B, Oakes M, Guan W, Wyman JF, Rothman AJ. Older adults' experiences using a commercially available monitor to self-track their physical activity. JMIR Mhealth Uhealth. 2016 Apr 13;4(2):e35. doi: 10.2196/mhealth.5120.
    1. Smith A. Older adults and technology use. Washington, DC: Pew Research Center; 2014. Apr 03,
    1. American Association of Retired Persons Activity And Sleep Trackers Show Promise For Improving Overall Health of Older Consumers Despite Some Usability Challenges. 2015. Jun 14, [2016-06-22]. .
    1. Torous J, Gualtieri L. Wearable devices for mental health: knowns and unknowns. Psychiatr Times. 2016;33(6):25–32.
    1. GraphPad Software QuickCalcs. 2016. [2016-06-28].
    1. Centers for Disease Control and Prevention Losing Weight. 2015. May 15, .

Source: PubMed

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