Association of sit-to-stand capacity and free-living performance using thigh-worn accelerometers among 60-90-year-old adults
Löppönen, A., Delecluse, C., Suorsa, K., Karavirta, L., Leskinen, T., Meulemans, L., Portegijs, E., Finni, T., Rantanen, T., Stenholm, S., Rantalainen, T., & Van Roie, E. (2023). Association of sit-to-stand capacity and free-living performance using thigh-worn accelerometers among 60-90-year-old adults. European Journal of Public Health, 33(Supplement_1), i70. https://doi.org/10.1093/eurpub/ckad133.173
Published in
European Journal of Public HealthAuthors
Date
2023Discipline
Hyvinvoinnin tutkimuksen yhteisöGerontologia ja kansanterveysBiomekaniikkaSchool of WellbeingGerontology and Public HealthBiomechanicsCopyright
© The Author(s) 2023. Published by Oxford University Press on behalf of the European Public Health Association.
Abstract
Introduction
Five times sit-to-stand (STS) test is commonly used as a clinical assessment of lower-extremity functional ability, but its association with free-living performance has not been studied. Therefore, we investigated the association between laboratory-based STS capacity and free-living STS performance using accelerometry. The results were stratified according to age and functional ability groups.
Methods
This cross-sectional study included 497 (63% women) participants aged 60–90 years from three independent studies. A thigh-worn tri-axial accelerometer was used to estimate angular velocity in maximal laboratory-based STS capacity and in free-living STS transitions over 3-7 days of continuous monitoring. Functional ability was assessed with Short Physical Performance Battery (SPPB).
Results
Laboratory-based STS capacity was moderately associated with the free-living mean and maximal STS performance (r = 0.52 - 0.65, p < .01). Angular velocity was lower in older compared to younger and in low- versus high-functioning groups, both in capacity and free-living STS variables (all p < .05). Overall, angular velocity was higher in capacity compared to free-living STS performance. The STS reserve (test capacity – free-living maximal performance) was larger in younger and in high-functioning compared to older and low-functioning groups (all p < .05).
Conclusion
Laboratory-based STS capacity and free-living performance were found to be associated. However, capacity and performance are not interchangeable, but rather provide complementary information. Older and low-functioning individuals seemed to perform free-living STS movements at a higher percentage of their maximal capacity compared to younger and high-functioning individuals. Therefore, we postulate that low capacity may limit free-living performance.
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Publisher
Oxford University Press (OUP)Conference
Conference of HEPA EuropeISSN Search the Publication Forum
1101-1262Publication in research information system
https://converis.jyu.fi/converis/portal/detail/Publication/184839811
Metadata
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Additional information about funding
This study was supported by the Research Foundation Flanders, Belgium, the Academy of Finland, the Finnish Ministry of Education and Culture and an Advanced Grant from the European Research Council.License
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