Extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.

Extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.

This paper reports accelerometer and electronic dairy data on typical daily activities of 139 school students from grade six and nine. Recordings covered a typical school day for each student and lasted on average for 23 h. Screen activities (watching television and using the computer) are compared...

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Main Authors: Judith Streb, Thomas Kammer, Manfred Spitzer, Katrin Hille
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2015-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC4425561?pdf=render
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spelling doaj-d46d6e4a58a0449fba764667e63b77192020-11-25T00:28:37ZengPublic Library of Science (PLoS)PLoS ONE1932-62032015-01-01105e012672210.1371/journal.pone.0126722Extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.Judith StrebThomas KammerManfred SpitzerKatrin HilleThis paper reports accelerometer and electronic dairy data on typical daily activities of 139 school students from grade six and nine. Recordings covered a typical school day for each student and lasted on average for 23 h. Screen activities (watching television and using the computer) are compared to several other activities performed while sitting (e.g., playing, eating, sitting in school, and doing homework). Body movement was continuously recorded by four accelerometers and transformed into a motion sore. Our results show that extremely low motion scores, as if subjects were freezing, emerge to a greater extent in front of screens compared to other investigated activities. Given the substantial amount of time young people spend in front of screens and the rising obesity epidemic, our data suggest a mechanism for the association of screen time and obesity.http://europepmc.org/articles/PMC4425561?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Judith Streb
Thomas Kammer
Manfred Spitzer
Katrin Hille
spellingShingle Judith Streb
Thomas Kammer
Manfred Spitzer
Katrin Hille
Extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.
PLoS ONE
author_facet Judith Streb
Thomas Kammer
Manfred Spitzer
Katrin Hille
author_sort Judith Streb
title Extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.
title_short Extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.
title_full Extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.
title_fullStr Extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.
title_full_unstemmed Extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.
title_sort extremely reduced motion in front of screens: investigating real-world physical activity of adolescents by accelerometry and electronic diary.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2015-01-01
description This paper reports accelerometer and electronic dairy data on typical daily activities of 139 school students from grade six and nine. Recordings covered a typical school day for each student and lasted on average for 23 h. Screen activities (watching television and using the computer) are compared to several other activities performed while sitting (e.g., playing, eating, sitting in school, and doing homework). Body movement was continuously recorded by four accelerometers and transformed into a motion sore. Our results show that extremely low motion scores, as if subjects were freezing, emerge to a greater extent in front of screens compared to other investigated activities. Given the substantial amount of time young people spend in front of screens and the rising obesity epidemic, our data suggest a mechanism for the association of screen time and obesity.
url http://europepmc.org/articles/PMC4425561?pdf=render
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AT thomaskammer extremelyreducedmotioninfrontofscreensinvestigatingrealworldphysicalactivityofadolescentsbyaccelerometryandelectronicdiary
AT manfredspitzer extremelyreducedmotioninfrontofscreensinvestigatingrealworldphysicalactivityofadolescentsbyaccelerometryandelectronicdiary
AT katrinhille extremelyreducedmotioninfrontofscreensinvestigatingrealworldphysicalactivityofadolescentsbyaccelerometryandelectronicdiary
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