Walking stability during cell phone use in healthy adults

•We examined walking stability during cell phone use and classic cognitive tasks.•Healthy subjects’ walking stability was not compromised by the dual task.•Subjects increased step width and reduced lower-limb joint variability during dual-tasking.•A dual task taxing physical alteration or visual att...

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Published inGait & posture Vol. 41; no. 4; pp. 947 - 953
Main Authors Kao, Pei-Chun, Higginson, Christopher I., Seymour, Kelly, Kamerdze, Morgan, Higginson, Jill S.
Format Journal Article
LanguageEnglish
Published England Elsevier B.V 01.05.2015
Subjects
Accidental Falls - statistics & numerical data
Biomechanical Phenomena
Cell phone
Cell Phone - utilization
Dual-task
Dynamic stability
Exercise Test
Female
Gait
Gait - physiology
Humans
Male
Margins of stability
Middle Aged
Orthopedics
Postural Balance
Walking - physiology
Young Adult
Dual-task
Gait
Cell phone
Margins of stability
Dynamic stability
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Abstract •We examined walking stability during cell phone use and classic cognitive tasks.•Healthy subjects’ walking stability was not compromised by the dual task.•Subjects increased step width and reduced lower-limb joint variability during dual-tasking.•A dual task taxing physical alteration or visual attention causes greater gait modification.•Minimizing physical alteration or visual distraction associated with cell phone use may help reduce falls. The number of falls and/or accidental injuries associated with cellular phone use during walking is growing rapidly. Understanding the effects of concurrent cell phone use on human gait may help develop safety guidelines for pedestrians. It was shown previously that older adults had more pronounced dual-task interferences than younger adults when concurrent cognitive task required visual information processing. Thus, cell phone use might have greater impact on walking stability in older than in younger adults. This study examined gait stability and variability during a cell phone dialing task (phone) and two classic cognitive tasks, the Paced Auditory Serial Addition Test (PASAT) and Symbol Digit Modalities Test (SDMT). Nine older and seven younger healthy adults walked on a treadmill at four different conditions: walking only, PASAT, phone, and SDMT. We computed short-term local divergence exponent (LDE) of the trunk motion (local stability), dynamic margins of stability (MOS), step spatiotemporal measures, and kinematic variability. Older and younger adults had similar values of short-term LDE during all conditions, indicating that local stability was not affected by the dual-task. Compared to walking only, older and younger adults walked with significantly greater average mediolateral MOS during phone and SDMT conditions but significantly less ankle angle variability during all dual-tasks and less knee angle variability during PASAT. The current findings demonstrate that healthy adults may try to control foot placement and joint kinematics during cell phone use or another cognitive task with a visual component to ensure sufficient dynamic margins of stability and maintain local stability.
AbstractList •We examined walking stability during cell phone use and classic cognitive tasks.•Healthy subjects’ walking stability was not compromised by the dual task.•Subjects increased step width and reduced lower-limb joint variability during dual-tasking.•A dual task taxing physical alteration or visual attention causes greater gait modification.•Minimizing physical alteration or visual distraction associated with cell phone use may help reduce falls. The number of falls and/or accidental injuries associated with cellular phone use during walking is growing rapidly. Understanding the effects of concurrent cell phone use on human gait may help develop safety guidelines for pedestrians. It was shown previously that older adults had more pronounced dual-task interferences than younger adults when concurrent cognitive task required visual information processing. Thus, cell phone use might have greater impact on walking stability in older than in younger adults. This study examined gait stability and variability during a cell phone dialing task (phone) and two classic cognitive tasks, the Paced Auditory Serial Addition Test (PASAT) and Symbol Digit Modalities Test (SDMT). Nine older and seven younger healthy adults walked on a treadmill at four different conditions: walking only, PASAT, phone, and SDMT. We computed short-term local divergence exponent (LDE) of the trunk motion (local stability), dynamic margins of stability (MOS), step spatiotemporal measures, and kinematic variability. Older and younger adults had similar values of short-term LDE during all conditions, indicating that local stability was not affected by the dual-task. Compared to walking only, older and younger adults walked with significantly greater average mediolateral MOS during phone and SDMT conditions but significantly less ankle angle variability during all dual-tasks and less knee angle variability during PASAT. The current findings demonstrate that healthy adults may try to control foot placement and joint kinematics during cell phone use or another cognitive task with a visual component to ensure sufficient dynamic margins of stability and maintain local stability.
The number of falls and/or accidental injuries associated with cellular phone use during walking is growing rapidly. Understanding the effects of concurrent cell phone use on human gait may help develop safety guidelines for pedestrians. It was shown previously that older adults had more pronounced dual-task interferences than younger adults when concurrent cognitive task required visual information processing. Thus, cell phone use might have greater impact on walking stability in older than in younger adults. This study examined gait stability and variability during a cell phone dialing task (phone) and two classic cognitive tasks, the Paced Auditory Serial Addition Test (PASAT) and Symbol Digit Modalities Test (SDMT). Nine older and seven younger healthy adults walked on a treadmill at four different conditions: walking only, PASAT, phone, and SDMT. We computed short-term local divergence exponent (LDE) of the trunk motion (local stability), dynamic margins of stability (MOS), step spatiotemporal measures, and kinematic variability. Older and younger adults had similar values of short-term LDE during all conditions, indicating that local stability was not affected by the dual-task. Compared to walking only, older and younger adults walked with significantly greater average mediolateral MOS during phone and SDMT conditions but significantly less ankle angle variability during all dual-tasks and less knee angle variability during PASAT. The current findings demonstrate that healthy adults may try to control foot placement and joint kinematics during cell phone use or another cognitive task with a visual component to ensure sufficient dynamic margins of stability and maintain local stability.The number of falls and/or accidental injuries associated with cellular phone use during walking is growing rapidly. Understanding the effects of concurrent cell phone use on human gait may help develop safety guidelines for pedestrians. It was shown previously that older adults had more pronounced dual-task interferences than younger adults when concurrent cognitive task required visual information processing. Thus, cell phone use might have greater impact on walking stability in older than in younger adults. This study examined gait stability and variability during a cell phone dialing task (phone) and two classic cognitive tasks, the Paced Auditory Serial Addition Test (PASAT) and Symbol Digit Modalities Test (SDMT). Nine older and seven younger healthy adults walked on a treadmill at four different conditions: walking only, PASAT, phone, and SDMT. We computed short-term local divergence exponent (LDE) of the trunk motion (local stability), dynamic margins of stability (MOS), step spatiotemporal measures, and kinematic variability. Older and younger adults had similar values of short-term LDE during all conditions, indicating that local stability was not affected by the dual-task. Compared to walking only, older and younger adults walked with significantly greater average mediolateral MOS during phone and SDMT conditions but significantly less ankle angle variability during all dual-tasks and less knee angle variability during PASAT. The current findings demonstrate that healthy adults may try to control foot placement and joint kinematics during cell phone use or another cognitive task with a visual component to ensure sufficient dynamic margins of stability and maintain local stability.
The number of falls and/or accidental injuries associated with cellular phone use during walking is growing rapidly. Understanding the effects of concurrent cell phone use on human gait may help develop safety guidelines for pedestrians. It was shown previously that older adults had more pronounced dual-task interferences than younger adults when concurrent cognitive task required visual information processing. Thus, cell phone use might have greater impact on walking stability in older than in younger adults. This study examined gait stability and variability during a cell phone dialing task (phone) and two classic cognitive tasks, the Paced Auditory Serial Addition Test (PASAT) and Symbol Digit Modalities Test (SDMT). Nine older and seven younger healthy adults walked on a treadmill at four different conditions: walking only, PASAT, phone, and SDMT. We computed short-term local divergence exponent (LDE) of the trunk motion (local stability), dynamic margins of stability (MOS), step spatiotemporal measures, and kinematic variability. Older and younger adults had similar values of short-term LDE during all conditions, indicating that local stability was not affected by the dual-task. Compared to walking only, older and younger adults walked with significantly greater average mediolateral MOS during phone and SDMT conditions but significantly less ankle angle variability during all dual-tasks and less knee angle variability during PASAT. The current findings demonstrate that healthy adults may try to control foot placement and joint kinematics during cell phone use or another cognitive task with a visual component to ensure sufficient dynamic margins of stability and maintain local stability.
Highlights • We examined walking stability during cell phone use and classic cognitive tasks. • Healthy subjects’ walking stability was not compromised by the dual task. • Subjects increased step width and reduced lower-limb joint variability during dual-tasking. • A dual task taxing physical alteration or visual attention causes greater gait modification. • Minimizing physical alteration or visual distraction associated with cell phone use may help reduce falls.
Author Kamerdze, Morgan
Higginson, Christopher I.
Seymour, Kelly
Kao, Pei-Chun
Higginson, Jill S.
AuthorAffiliation 1 Department of Physical Therapy, University of Delaware, Newark, DE 19716, USA
3 Department of Mechanical Engineering, University of Delaware, Newark, DE 19716, USA
2 Department of Psychology, Loyola University Maryland, Baltimore, MD 21210, USA
AuthorAffiliation_xml – name: 1 Department of Physical Therapy, University of Delaware, Newark, DE 19716, USA
– name: 2 Department of Psychology, Loyola University Maryland, Baltimore, MD 21210, USA
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– sequence: 2
  givenname: Christopher I.
  surname: Higginson
  fullname: Higginson, Christopher I.
  organization: Department of Psychology, Loyola University Maryland, Baltimore, MD 21210, USA
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  givenname: Kelly
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/25890490$$D View this record in MEDLINE/PubMed
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Keywords Dual-task
Gait
Cell phone
Margins of stability
Dynamic stability
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Snippet •We examined walking stability during cell phone use and classic cognitive tasks.•Healthy subjects’ walking stability was not compromised by the dual...
Highlights • We examined walking stability during cell phone use and classic cognitive tasks. • Healthy subjects’ walking stability was not compromised by the...
The number of falls and/or accidental injuries associated with cellular phone use during walking is growing rapidly. Understanding the effects of concurrent...
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SubjectTerms Accidental Falls - statistics & numerical data
Biomechanical Phenomena
Cell phone
Cell Phone - utilization
Dual-task
Dynamic stability
Exercise Test
Female
Gait
Gait - physiology
Humans
Male
Margins of stability
Middle Aged
Orthopedics
Postural Balance
Walking - physiology
Young Adult
Title Walking stability during cell phone use in healthy adults
URI https://www.clinicalkey.com/#!/content/1-s2.0-S0966636215004270
https://www.clinicalkey.es/playcontent/1-s2.0-S0966636215004270
https://dx.doi.org/10.1016/j.gaitpost.2015.03.347
https://www.ncbi.nlm.nih.gov/pubmed/25890490
https://www.proquest.com/docview/1677378842
https://pubmed.ncbi.nlm.nih.gov/PMC4414910
Volume 41
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