In-Class Cycling to Augment College Student Academic Performance and Reduce Physical Inactivity: Results from an RCT

In-Class Cycling to Augment College Student Academic Performance and Reduce Physical Inactivity: Results from an RCT

Most college students sit 14 hours per week on average, excluding sedentary study time. Researchers observing workplace and elementary school settings with active workstations to combat sedentary behavior have shown enhanced cognition without distraction. Until now, incorporating active workstations...

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Bibliographic Details
Main Authors: Lanae Joubert, Matthew Kilgas, Alexandrea Riley, Yuba Gautam, Lars Donath, Scott Drum
Format: Article
Language:English
Published: MDPI AG 2017-11-01
Series:International Journal of Environmental Research and Public Health
Subjects:
stationary cycling
active workstation
physical activity
academic performance
sedentary behavior
physical inactivity
college students
Online Access:https://www.mdpi.com/1660-4601/14/11/1343
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spelling doaj-618c128a495341a4a7e7578775fd44c22020-11-25T00:49:50ZengMDPI AGInternational Journal of Environmental Research and Public Health1660-46012017-11-011411134310.3390/ijerph14111343ijerph14111343In-Class Cycling to Augment College Student Academic Performance and Reduce Physical Inactivity: Results from an RCTLanae Joubert0Matthew Kilgas1Alexandrea Riley2Yuba Gautam3Lars Donath4Scott Drum5School of Health and Human Performance, Northern Michigan University, Marquette , MI 49855, USADepartment of Kinesiology and Integrative Physiology, Michigan Technological University, Houghton, MI 49931, USASchool of Health and Human Performance, Northern Michigan University, Marquette , MI 49855, USASchool of Health and Human Performance, Northern Michigan University, Marquette , MI 49855, USAInstitute of Training and Computer Science in Sport, German Sport University Cologne, 50933 Köln, GermanySchool of Health and Human Performance, Northern Michigan University, Marquette , MI 49855, USAMost college students sit 14 hours per week on average, excluding sedentary study time. Researchers observing workplace and elementary school settings with active workstations to combat sedentary behavior have shown enhanced cognition without distraction. Until now, incorporating active workstations in college classroom settings remained relatively unexplored. This study’s purpose was to assess academic performance using in-class stationary cycle desks during a semester-long lecture course. Twenty-one college students (19–24 years) enrolled in a lecture course volunteered and were split into traditional sit (SIT) and stationary cycle (CYC) groups randomly, matched on a calculated factor equal to a physical activity (PA) score (0–680) multiplied by grade point average (GPA; 4.0 scale). CYC pedaled a prescribed rate of perceived exertion (RPE) of less than 2 out of 10 during a 50-min lecture, 3 × week for 12 weeks. CYC averaged 42 min, 7.9 miles, and 1.7 RPE during class throughout the semester. No significant differences (p > 0.05) were observed between CYC and SIT on in-class test scores or overall course grades. Although statistically insignificant, CYC had higher mean test scores and overall course grades vs. SIT (i.e., B+ vs. B, respectively). Low intensity cycling during a college lecture course maintained student academic performance and possibly reduced weekly sedentary behavior time.https://www.mdpi.com/1660-4601/14/11/1343stationary cyclingactive workstationphysical activityacademic performancesedentary behaviorphysical inactivitycollege students
collection DOAJ
language English
format Article
sources DOAJ
author Lanae Joubert
Matthew Kilgas
Alexandrea Riley
Yuba Gautam
Lars Donath
Scott Drum
spellingShingle Lanae Joubert
Matthew Kilgas
Alexandrea Riley
Yuba Gautam
Lars Donath
Scott Drum
In-Class Cycling to Augment College Student Academic Performance and Reduce Physical Inactivity: Results from an RCT
International Journal of Environmental Research and Public Health
stationary cycling
active workstation
physical activity
academic performance
sedentary behavior
physical inactivity
college students
author_facet Lanae Joubert
Matthew Kilgas
Alexandrea Riley
Yuba Gautam
Lars Donath
Scott Drum
author_sort Lanae Joubert
title In-Class Cycling to Augment College Student Academic Performance and Reduce Physical Inactivity: Results from an RCT
title_short In-Class Cycling to Augment College Student Academic Performance and Reduce Physical Inactivity: Results from an RCT
title_full In-Class Cycling to Augment College Student Academic Performance and Reduce Physical Inactivity: Results from an RCT
title_fullStr In-Class Cycling to Augment College Student Academic Performance and Reduce Physical Inactivity: Results from an RCT
title_full_unstemmed In-Class Cycling to Augment College Student Academic Performance and Reduce Physical Inactivity: Results from an RCT
title_sort in-class cycling to augment college student academic performance and reduce physical inactivity: results from an rct
publisher MDPI AG
series International Journal of Environmental Research and Public Health
issn 1660-4601
publishDate 2017-11-01
description Most college students sit 14 hours per week on average, excluding sedentary study time. Researchers observing workplace and elementary school settings with active workstations to combat sedentary behavior have shown enhanced cognition without distraction. Until now, incorporating active workstations in college classroom settings remained relatively unexplored. This study’s purpose was to assess academic performance using in-class stationary cycle desks during a semester-long lecture course. Twenty-one college students (19–24 years) enrolled in a lecture course volunteered and were split into traditional sit (SIT) and stationary cycle (CYC) groups randomly, matched on a calculated factor equal to a physical activity (PA) score (0–680) multiplied by grade point average (GPA; 4.0 scale). CYC pedaled a prescribed rate of perceived exertion (RPE) of less than 2 out of 10 during a 50-min lecture, 3 × week for 12 weeks. CYC averaged 42 min, 7.9 miles, and 1.7 RPE during class throughout the semester. No significant differences (p > 0.05) were observed between CYC and SIT on in-class test scores or overall course grades. Although statistically insignificant, CYC had higher mean test scores and overall course grades vs. SIT (i.e., B+ vs. B, respectively). Low intensity cycling during a college lecture course maintained student academic performance and possibly reduced weekly sedentary behavior time.
topic stationary cycling
active workstation
physical activity
academic performance
sedentary behavior
physical inactivity
college students
url https://www.mdpi.com/1660-4601/14/11/1343
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