Coralie English1, Genevieve N Healy2, Alison Coates3, Lucy Lewis4, Tim Olds5, Julie Bernhardt6. 1. C. English, PhD, International Centre for Allied Health Evidence, Sansom Institute of Health Research, School of Health Sciences, University of South Australia, PO Box 2471, Adelaide, South Australia 5001, Australia, and Stroke Division, Florey Institute of Neuroscience and Mental Health, Melbourne, Victoria, Australia. Coralie.english@unisa.edu.au. 2. G.N. Healy, PhD, School of Population Health, The University of Queensland, Brisbane, Queensland, Australia; Baker IDI Heart and Diabetes Institute, Melbourne, Victoria, Australia; and School of Physiotherapy, Curtin University, Perth, Western Australia, Australia. 3. A. Coates, PhD, Alliance for Research in Exercise, Nutrition and Activity (ARENA), Sansom Institute of Health Research, University of South Australia. 4. L. Lewis, PhD, Alliance for Research in Exercise, Nutrition and Activity (ARENA), Sansom Institute of Health Research, University of South Australia. 5. T. Olds, PhD, Alliance for Research in Exercise, Nutrition and Activity (ARENA), Sansom Institute of Health Research, University of South Australia. 6. J. Bernhardt, PhD, Stroke Division, Florey Institute of Neuroscience and Mental Health.
Abstract
BACKGROUND: Excessive sitting time is linked to cardiovascular disease morbidity. To date, no studies have accurately measured sitting time patterns in people with stroke. OBJECTIVE: The purpose of this study was to investigate the amount and pattern of accumulation of sitting time, physical activity, and use of time in people with stroke compared with age-matched healthy peers. DESIGN: This study used an observational design. METHODS: Sitting time (total and time accumulated in prolonged, unbroken bouts of ≥30 minutes) was measured with an activity monitor. Physical activity and daily energy expenditure were measured using an accelerometer and a multisensory array armband, respectively. All monitors had a 7-day wear protocol. Participants recalled 1 day of activity (during monitor wear time) using the Multimedia Activity Recall for Children and Adults. RESULTS: Sixty-three adults (40 with stroke and 23 age-matched healthy controls) participated. The participants (35% female, 65% male) had a mean age of 68.4 years (SD=10.0). Participants with stroke spent significantly more time sitting (X̅=10.9 h/d, SD=2.0) compared with controls (X̅=8.2 h/d, SD=2.0), with much of this sitting time prolonged (stroke group: X̅=7.4 h/d, SD=2.8; control group: X̅=3.7 h/d, SD=1.7). Participants with stroke accumulated most of their sitting time while watching television and in general quiet time, whereas control participants spent more time reading and on the computer. Physical activity and daily energy expenditure were lower in the stroke group compared with the control group. LIMITATIONS: A sample of convenience was used to select participants for the stroke and control groups, which may reduce the generalizability of results. CONCLUSIONS: Participants with stroke spent more time sitting and less time in activity than their age-matched peers. Further work is needed to determine whether reducing sitting time is feasible and leads to clinically important reductions in cardiovascular risk in this population.
BACKGROUND: Excessive sitting time is linked to cardiovascular disease morbidity. To date, no studies have accurately measured sitting time patterns in people with stroke. OBJECTIVE: The purpose of this study was to investigate the amount and pattern of accumulation of sitting time, physical activity, and use of time in people with stroke compared with age-matched healthy peers. DESIGN: This study used an observational design. METHODS: Sitting time (total and time accumulated in prolonged, unbroken bouts of ≥30 minutes) was measured with an activity monitor. Physical activity and daily energy expenditure were measured using an accelerometer and a multisensory array armband, respectively. All monitors had a 7-day wear protocol. Participants recalled 1 day of activity (during monitor wear time) using the Multimedia Activity Recall for Children and Adults. RESULTS: Sixty-three adults (40 with stroke and 23 age-matched healthy controls) participated. The participants (35% female, 65% male) had a mean age of 68.4 years (SD=10.0). Participants with stroke spent significantly more time sitting (X̅=10.9 h/d, SD=2.0) compared with controls (X̅=8.2 h/d, SD=2.0), with much of this sitting time prolonged (stroke group: X̅=7.4 h/d, SD=2.8; control group: X̅=3.7 h/d, SD=1.7). Participants with stroke accumulated most of their sitting time while watching television and in general quiet time, whereas control participants spent more time reading and on the computer. Physical activity and daily energy expenditure were lower in the stroke group compared with the control group. LIMITATIONS: A sample of convenience was used to select participants for the stroke and control groups, which may reduce the generalizability of results. CONCLUSIONS:Participants with stroke spent more time sitting and less time in activity than their age-matched peers. Further work is needed to determine whether reducing sitting time is feasible and leads to clinically important reductions in cardiovascular risk in this population.
Authors: Nancy Fell; Hanna H True; Brandon Allen; Austin Harris; Jin Cho; Zhen Hu; Mina Sartipi; Krystal K Place; Rebecca Salstrand Journal: Mhealth Date: 2019-10-08
Authors: Maria-Arantzazu Ruescas-Nicolau; María Luz Sánchez-Sánchez; Sara Cortés-Amador; Sofía Pérez-Alenda; Anna Arnal-Gómez; Assumpta Climent-Toledo; Juan J Carrasco Journal: Int J Environ Res Public Health Date: 2021-04-29 Impact factor: 3.390