Literature DB >> 29157152

The compositional isotemporal substitution model: A method for estimating changes in a health outcome for reallocation of time between sleep, physical activity and sedentary behaviour.

Dorothea Dumuid1, Željko Pedišić2, Tyman Everleigh Stanford3,4, Josep-Antoni Martín-Fernández5, Karel Hron6, Carol A Maher1, Lucy K Lewis7, Timothy Olds1.   

Abstract

How people use their time has been linked with their health. For example, spending more time being physically active is known to be beneficial for health, whereas long durations of sitting have been associated with unfavourable health outcomes. Accordingly, public health messages have advocated swapping strategies to promote the reallocation of time between parts of the time-use composition, such as "Move More, Sit Less", with the aim of achieving optimal distribution of time for health. However, the majority of research underpinning these public health messages has not considered daily time use as a composition, and has ignored the relative nature of time-use data. We present a way of applying compositional data analysis to estimate change in a health outcome when fixed durations of time are reallocated from one part of a particular time-use composition to another, while the remaining parts are kept constant, based on a multiple linear regression model on isometric log ratio coordinates. In an example, we examine the expected differences in Body Mass Index z-scores for reallocations of time between sleep, physical activity and sedentary behaviour.

Entities:  

Keywords:  Isotemporal substitution; compositional data; physical activity; sedentary behaviour; sleep; time use

Mesh:

Year:  2017        PMID: 29157152     DOI: 10.1177/0962280217737805

Source DB:  PubMed          Journal:  Stat Methods Med Res        ISSN: 0962-2802            Impact factor:   3.021


  58 in total

1.  Use of Compositional Data Analysis to Show Estimated Changes in Cardiometabolic Health by Reallocating Time to Light-Intensity Physical Activity in Older Adults.

Authors:  Cormac Powell; Leonard D Browne; Brian P Carson; Kieran P Dowd; Ivan J Perry; Patricia M Kearney; Janas M Harrington; Alan E Donnelly
Journal:  Sports Med       Date:  2020-01       Impact factor: 11.136

2.  Stone composition and vascular calcifications in patients with nephrolithiasis.

Authors:  Pietro Manuel Ferraro; Riccardo Marano; Aniello Primiano; Jacopo Gervasoni; Matteo Bargagli; Giuseppe Rovere; Pier Francesco Bassi; Giovanni Gambaro
Journal:  J Nephrol       Date:  2019-06-04       Impact factor: 3.902

3.  A little more time around the track may go a long way: Implications of increasing moderate to vigorous physical activity in pre-adolescents.

Authors:  Zareen Farukhi; Samia Mora
Journal:  Atherosclerosis       Date:  2019-06-29       Impact factor: 5.162

4.  The physical activity health paradox and risk factors for cardiovascular disease: A cross-sectional compositional data analysis in the Copenhagen City Heart Study.

Authors:  Melker S Johansson; Andreas Holtermann; Jacob L Marott; Eva Prescott; Peter Schnohr; Mette Korshøj; Karen Søgaard
Journal:  PLoS One       Date:  2022-04-21       Impact factor: 3.240

5.  Health outcomes associated with reallocations of time between sleep, sedentary behaviour, and physical activity: a systematic scoping review of isotemporal substitution studies.

Authors:  Jozo Grgic; Dorothea Dumuid; Enrique Garcia Bengoechea; Nipun Shrestha; Adrian Bauman; Timothy Olds; Zeljko Pedisic
Journal:  Int J Behav Nutr Phys Act       Date:  2018-07-13       Impact factor: 6.457

6.  Physical Activity Advice for Prevention and Rehabilitation of Low Back Pain- Same or Different? A Study on Device-Measured Physical Activity and Register-Based Sickness Absence.

Authors:  Nidhi Gupta; Charlotte Lund Rasmussen; Jan Hartvigsen; Ole Steen Mortensen; Els Clays; Ute Bültmann; Andreas Holtermann
Journal:  J Occup Rehabil       Date:  2021-10-09

7.  Associations of sedentary time and physical activity with adverse health conditions: Outcome-wide analyses using isotemporal substitution model.

Authors:  Zhi Cao; Chenjie Xu; Pengjie Zhang; Yaogang Wang
Journal:  EClinicalMedicine       Date:  2022-04-28

8.  Adiposity and the isotemporal substitution of physical activity, sedentary time and sleep among school-aged children: a compositional data analysis approach.

Authors:  Dorothea Dumuid; Tyman E Stanford; Željko Pedišić; Carol Maher; Lucy K Lewis; Josep-Antoni Martín-Fernández; Peter T Katzmarzyk; Jean-Philippe Chaput; Mikael Fogelholm; Martyn Standage; Mark S Tremblay; Timothy Olds
Journal:  BMC Public Health       Date:  2018-03-02       Impact factor: 3.295

9.  Day-to-day pattern of work and leisure time physical behaviours: are low socioeconomic status adults couch potatoes or work warriors?

Authors:  Charlotte Lund Rasmussen; Dorothea Dumuid; Karel Hron; Nidhi Gupta; Marie Birk Jørgensen; Kirsten Nabe-Nielsen; Andreas Holtermann
Journal:  BMC Public Health       Date:  2021-07-07       Impact factor: 3.295

10.  Modelling the Reallocation of Time Spent Sitting into Physical Activity: Isotemporal Substitution vs. Compositional Isotemporal Substitution.

Authors:  Gregory J H Biddle; Joseph Henson; Stuart J H Biddle; Melanie J Davies; Kamlesh Khunti; Alex V Rowlands; Stephen Sutton; Thomas Yates; Charlotte L Edwardson
Journal:  Int J Environ Res Public Health       Date:  2021-06-08       Impact factor: 3.390
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