Technology-Assisted Behavioral Intervention to Extend Sleep Duration: Development and Design of the Sleep Bunny Mobile App

Overview

Journal JMIR Ment Health

Specialties Health Services
Psychiatry
Psychology

Date 2018 Jan 12

PMID 29321122

Citations 12

Authors

Kelly Glazer Baron

Jennifer Duffecy

Kathryn Reid

Mark Begale

Lauren Caccamo

Affiliations

Soon will be listed here.

Abstract

Background: Despite the high prevalence of short sleep duration (29.2% of adults sleep <6 hours on weekdays), there are no existing theory-based behavioral interventions to extend sleep duration. The popularity of wearable sleep trackers provides an opportunity to engage users in interventions.

Objective: The objective of this study was to outline the theoretical foundation and iterative process of designing the "Sleep Bunny," a technology-assisted sleep extension intervention including a mobile phone app, wearable sleep tracker, and brief telephone coaching. We conducted a two-step process in the development of this intervention, which was as follows: (1) user testing of the app and (2) a field trial that was completed by 2 participants with short sleep duration and a cardiovascular disease risk factor linked to short sleep duration (body mass index [BMI] >25).

Methods: All participants had habitual sleep duration <6.5 hours verified by 7 days of actigraphy. A total of 6 individuals completed initial user testing in the development phase, and 2 participants completed field testing. Participants in the user testing and field testing responded to open-ended surveys about the design and utility of the app. Participants in the field testing completed the Epworth Sleepiness Scale and also wore an actigraph for a 1-week baseline period and during the 4-week intervention period.

Results: The feedback suggests that users enjoyed the wearable sleep tracker and found the app visually pleasing, but they suggested improvements to the notification and reminder features of the app. The 2 participants who completed the field test demonstrated significant improvements in sleep duration and daytime sleepiness.

Conclusions: Further testing is needed to determine effects of this intervention in populations at risk for the mental and physical consequences of sleep loss.

Citing Articles

Sleep extension and cardiometabolic health: what it is, possible mechanisms and real-world applications.

Duraccio K, Kamhout S, Baron K, Reutrakul S, Depner C J Physiol. 2024; 602(23):6571-6586.

PMID: 38268197 PMC: 11266528. DOI: 10.1113/JP284911.

Sleep Technology Intervention to Target Cardiometabolic Health (STITCH): a randomized controlled study of a behavioral sleep extension intervention compared to an education control to improve sleep duration, blood pressure, and cardiometabolic....

Baron K, Duffecy J, Simonsen S, Bress A, Conroy M, Greene T Trials. 2023; 24(1):658.

PMID: 37817267 PMC: 10566182. DOI: 10.1186/s13063-023-07658-6.

A feasibility study to understand the components of behavioral sleep extension.

Baron K, Trela-Hoskins S, Duffecy J, Allen C PEC Innov. 2023; 2:100114.

PMID: 37214497 PMC: 10194216. DOI: 10.1016/j.pecinn.2022.100114.

eHealth-Based Psychosocial Interventions for Adults With Insomnia: Systematic Review and Meta-analysis of Randomized Controlled Trials.

Deng W, van der Kleij R, Shen H, Wei J, Brakema E, Guldemond N J Med Internet Res. 2023; 25:e39250.

PMID: 36917145 PMC: 10131777. DOI: 10.2196/39250.

Human-Centered Design Approaches in Digital Mental Health Interventions: Exploratory Mapping Review.

Vial S, Boudhraa S, Dumont M JMIR Ment Health. 2022; 9(6):e35591.

PMID: 35671081 PMC: 9214621. DOI: 10.2196/35591.

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