TY - JOUR
T1 - Effects of a wearable technology-based physical activity intervention on sleep quality in breast cancer survivors
T2 - the ACTIVATE Trial
AU - Nguyen, Nga H.
AU - Vallance, Jeff K.
AU - Buman, Matthew P.
AU - Moore, Melissa M.
AU - Reeves, Marina M.
AU - Rosenberg, Dori E.
AU - Boyle, Terry
AU - Milton, Shakira
AU - Friedenreich, Christine M.
AU - English, Dallas R.
AU - Lynch, Brigid M.
N1 - Funding Information:
This research was supported by Register4 through its members’ participation in research and/or provision of samples and information. Thanks also to the National Breast Cancer Foundation, the Breast Cancer Network of Australia, and Counterpart for their promotion of the ACTIVATE Trial and assistance with recruitment.
Funding Information:
This work was enabled by a grant from the World Cancer Research Fund International (2015/1397). Vallance was supported by the Canada Research Chairs program; Buman was supported by an Endeavour Research Fellowship from the Department of Education and Training of the Australian Government (6316 – 2018); Boyle was supported by a National Health and Medical Research Council Early Career Fellowship (1072266); Lynch was supported by a National Breast Cancer Foundation Fellowship (ECF-15-012). Acknowledgments
Publisher Copyright:
© 2020, Springer Science+Business Media, LLC, part of Springer Nature.
PY - 2021/4
Y1 - 2021/4
N2 - Introduction: Physical activity interventions can improve sleep quality in breast cancer survivors. This paper examines the effects of the ACTIVATE Trial, a wearable-based physical activity intervention (Garmin Vivofit2® coupled with behavioral feedback, goal setting, and health coaching) on sleep outcomes. Methods: Post-primary treatment, inactive, postmenopausal breast cancer survivors were recruited and randomized to primary intervention or waitlist. Wrist-worn actigraphy (sleep onset latency, SOL; total sleep time, TST; sleep efficiency, SE; wake after sleep onset, WASO; and number of awakenings, NWAKE) and questionnaire-derived sleep measures (Pittsburgh Sleep Quality Index) were assessed at baseline (T1), 12 weeks (end of primary intervention and start of waitlist intervention, T2), and at 24 weeks (T3). Results: Eighty-three women (mean age = 62 years) were randomized; trial retention was 94% at T2 and 87% at T3. At T2, primary intervention participants had greater improvements in WASO (− 5.7 min, 95% CI − 11.7 to − 0.2) and NWAKE compared with the waitlist arm (− 2.0, 95% CI − 3.6 to − 0.4). At T3, within-group improvements were observed for SE (both groups), WASO (both groups), NWAKE (primary intervention group only), total PSQI score (primary intervention group), and sleep efficacy (primary intervention group). Conclusions: The intervention reduced actigraphy-measured sleep disturbances. Within-group analyses suggest that improvements in sleep quality are sustained over a longer duration, and there may be similar benefits from an abridged intervention (wearable device only). Actigraphy-measured effects appeared stronger in participants who were poor sleepers at study entry. Implications for Cancer Survivors: Wearable technology can increase physical activity and improve sleep for breast cancer survivors.
AB - Introduction: Physical activity interventions can improve sleep quality in breast cancer survivors. This paper examines the effects of the ACTIVATE Trial, a wearable-based physical activity intervention (Garmin Vivofit2® coupled with behavioral feedback, goal setting, and health coaching) on sleep outcomes. Methods: Post-primary treatment, inactive, postmenopausal breast cancer survivors were recruited and randomized to primary intervention or waitlist. Wrist-worn actigraphy (sleep onset latency, SOL; total sleep time, TST; sleep efficiency, SE; wake after sleep onset, WASO; and number of awakenings, NWAKE) and questionnaire-derived sleep measures (Pittsburgh Sleep Quality Index) were assessed at baseline (T1), 12 weeks (end of primary intervention and start of waitlist intervention, T2), and at 24 weeks (T3). Results: Eighty-three women (mean age = 62 years) were randomized; trial retention was 94% at T2 and 87% at T3. At T2, primary intervention participants had greater improvements in WASO (− 5.7 min, 95% CI − 11.7 to − 0.2) and NWAKE compared with the waitlist arm (− 2.0, 95% CI − 3.6 to − 0.4). At T3, within-group improvements were observed for SE (both groups), WASO (both groups), NWAKE (primary intervention group only), total PSQI score (primary intervention group), and sleep efficacy (primary intervention group). Conclusions: The intervention reduced actigraphy-measured sleep disturbances. Within-group analyses suggest that improvements in sleep quality are sustained over a longer duration, and there may be similar benefits from an abridged intervention (wearable device only). Actigraphy-measured effects appeared stronger in participants who were poor sleepers at study entry. Implications for Cancer Survivors: Wearable technology can increase physical activity and improve sleep for breast cancer survivors.
KW - Accelerometry
KW - Breast neoplasms
KW - Fitness trackers
KW - Physical activity
KW - Sleep
KW - Survivorship
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U2 - 10.1007/s11764-020-00930-7
DO - 10.1007/s11764-020-00930-7
M3 - Article
C2 - 32875536
AN - SCOPUS:85090122248
SN - 1932-2259
VL - 15
SP - 273
EP - 280
JO - Journal of Cancer Survivorship
JF - Journal of Cancer Survivorship
IS - 2
ER -