BACKGROUND: Fatigue related to task standardized by duration and intensity, termed fatigability, could manifest as shortening of activity bouts throughout the day causing daily activity to accumulate in a more fragmented pattern. Our purpose was to study the association of activity fragmentation with physical and mental dimensions of fatigability. METHODS: A cross-sectional study of 485 community-dwelling 75-, 80-, and 85-year-old people using a thigh-worn accelerometer for 3-7 days. Activity fragmentation was studied as Active-to-Sedentary Transition Probability for 2 operational definitions of physical activity: accelerations equivalent to at least light physical activity and for upright posture. Physical fatigability was assessed as perceived exertion fatigability, performance fatigability severity, and with the Physical Fatigue Subscale of the Situational Fatigue Scale. Mental fatigability was assessed with the Mental Fatigue Subscale of the Situational Fatigue Scale and as a decrease in perceived mental alertness after a 6-minute walk test. RESULTS: Higher activity fragmentation was associated with higher self-reported physical fatigability, perceived exertion fatigability, and performance fatigability severity, independent of total activity minutes (β = 0.13-0.33, p < .05 for all). Higher activity fragmentation was not associated with mental fatigability in the fully adjusted models. The associations with fatigability indices were similar for both activity fragmentation indicators. Associations of activity fragmentation and performance fatigability severity were similar also among those with the highest intensity-based physical activity volume. CONCLUSIONS: The findings provide support that studying fragmented activity patterns can be useful in identifying those at risk for high fatigability, even among those with relatively high physical activity level.
BACKGROUND:Fatigue related to task standardized by duration and intensity, termed fatigability, could manifest as shortening of activity bouts throughout the day causing daily activity to accumulate in a more fragmented pattern. Our purpose was to study the association of activity fragmentation with physical and mental dimensions of fatigability. METHODS: A cross-sectional study of 485 community-dwelling 75-, 80-, and 85-year-old people using a thigh-worn accelerometer for 3-7 days. Activity fragmentation was studied as Active-to-Sedentary Transition Probability for 2 operational definitions of physical activity: accelerations equivalent to at least light physical activity and for upright posture. Physical fatigability was assessed as perceived exertion fatigability, performance fatigability severity, and with the Physical Fatigue Subscale of the Situational Fatigue Scale. Mental fatigability was assessed with the Mental Fatigue Subscale of the Situational Fatigue Scale and as a decrease in perceived mental alertness after a 6-minute walk test. RESULTS: Higher activity fragmentation was associated with higher self-reported physical fatigability, perceived exertion fatigability, and performance fatigability severity, independent of total activity minutes (β = 0.13-0.33, p < .05 for all). Higher activity fragmentation was not associated with mental fatigability in the fully adjusted models. The associations with fatigability indices were similar for both activity fragmentation indicators. Associations of activity fragmentation and performance fatigability severity were similar also among those with the highest intensity-based physical activity volume. CONCLUSIONS: The findings provide support that studying fragmented activity patterns can be useful in identifying those at risk for high fatigability, even among those with relatively high physical activity level.
Authors: Amal A Wanigatunga; Yurun Cai; Jacek K Urbanek; Christine M Mitchell; David L Roth; Edgar R Miller; Erin D Michos; Stephen P Juraschek; Jeremy Walston; Qian-Li Xue; Lawrence J Appel; Jennifer A Schrack Journal: J Gerontol A Biol Sci Med Sci Date: 2022-09-01 Impact factor: 6.591
Authors: Fangyu Liu; Amal A Wanigatunga; Pei-Lun Kuo; Vadim Zipunnikov; Eleanor M Simonsick; Luigi Ferrucci; Jennifer A Schrack Journal: J Gerontol A Biol Sci Med Sci Date: 2021-09-13 Impact factor: 6.053
Authors: Matthew L Stevens; Nidhi Gupta; Elif Inan Eroglu; Patrick Joseph Crowley; Barbaros Eroglu; Adrian Bauman; Malcolm Granat; Leon Straker; Peter Palm; Sari Stenholm; Mette Aadahl; Paul Mork; Sebastien Chastin; Vegar Rangul; Mark Hamer; Annemarie Koster; Andreas Holtermann; Emmanuel Stamatakis Journal: BMJ Open Sport Exerc Med Date: 2020-12-24