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- Cognitive task (1)
- Dual task (1)
- Elderly (1)
- Falling (1)
- Gait parameters (1)
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- Mixed-turn; Walking turns (1)
- Motor task (1)
- Step-turn (1)
- Task demands (1)
- Turning strategies; Complex locomotor skills; Age-related differences and turn strategies; Anticipatory v. reactive spatial-temporal gait adaptations; Fast walking speed & late-visual cue constraints; Spatial constraints; Personal space margin of safety; Fall prevention gait training; Healthy older adults at low fall risk; Spin-turn (1)
Articles 1 - 2 of 2
Full-Text Articles in Other Kinesiology
Assessing The Effects Of Dual Tasking On Spatiotemporal Parameters Of Gait In Older Adults: Exploring Age And Task Demands, Mohammed Issa Alsaeed
Assessing The Effects Of Dual Tasking On Spatiotemporal Parameters Of Gait In Older Adults: Exploring Age And Task Demands, Mohammed Issa Alsaeed
Seton Hall University Dissertations and Theses (ETDs)
The percentage of the senior citizens is expected to be 20% of the US population by 2030. Falls are considered a global problem due to the increased rate of falls and the costs associated with treating impairments resulting from falls. To date, the effects of performing different types of dual tasks among different age groups of the elderly has received less attention. Therefore, this study sought to assess the impact on spatiotemporal parameters of gait when differing age groups of older adults performer dual tasks that require differing motor and cognitive demands.
Three standard measurements were used in this study: …
Effects Of Direction Time Constraints And Walking Speed On Turn Strategies And Gait Adaptations In Healthy Older And Young Adults, Dennis Torre
Seton Hall University Dissertations and Theses (ETDs)
Hip fractures can be life-threatening, debilitating, and costly. The odds for hip fracture increases from impact of sideways falls. While turning has been strongly associated with hip fracture & sideways falls, the distinction between the risks for walking-turns as opposed to low-velocity in-place turning is not clear. The present study sought to fill a gap as previous research had not compared walking-turn performance in young & healthy older adults at low-fall risk within the same study and response-conditions of speed interacting with direction-cue time constraints. Spatial-temporal variables representative of AP braking/propulsion (i.e. stride-length & speed) & ML stability (left/right H-H …