Michael L Madigan1, Emily M Lloyd. 1. Department of Engineering Science and Mechanics (0219), Blacksburg, VA, 24061, USA. mlm@vt.edu
Abstract
BACKGROUND: Previous studies have reported that older adults have a reduced ability to recover balance with a single step after a forward-induced fall. To better understand the reasons for this reduced ability, this study investigated any age-related differences in peak joint torques during the support phase of a single-step balance recovery from a forward fall. METHODS: Ten young (19-23 years old) and 10 older (65-83 years old) men were released from forward-leaning positions and attempted to recover their balance with a single step. Lean was increased until they failed to recover their balance with a single step. Peak extensor torques were calculated for the support phase of balance recovery and were compared across age groups. RESULTS: A consistent pattern of joint torques emerged during the support phase of balance recovery, suggesting a similar strategy across young and older participants. Despite this similarity, older participants exhibited smaller peak knee extensor torques during the support phase of single-step balance recoveries, and trends toward larger peak extensor torques at the hip and ankle. CONCLUSIONS: The age-related differences found are believed to be the combined result of an age-related reduction in muscle strength and an age-related neuromuscular adaptation to mitigate the effects of muscle strength loss on physical performance capabilities.
BACKGROUND: Previous studies have reported that older adults have a reduced ability to recover balance with a single step after a forward-induced fall. To better understand the reasons for this reduced ability, this study investigated any age-related differences in peak joint torques during the support phase of a single-step balance recovery from a forward fall. METHODS: Ten young (19-23 years old) and 10 older (65-83 years old) men were released from forward-leaning positions and attempted to recover their balance with a single step. Lean was increased until they failed to recover their balance with a single step. Peak extensor torques were calculated for the support phase of balance recovery and were compared across age groups. RESULTS: A consistent pattern of joint torques emerged during the support phase of balance recovery, suggesting a similar strategy across young and older participants. Despite this similarity, older participants exhibited smaller peak knee extensor torques during the support phase of single-step balance recoveries, and trends toward larger peak extensor torques at the hip and ankle. CONCLUSIONS: The age-related differences found are believed to be the combined result of an age-related reduction in muscle strength and an age-related neuromuscular adaptation to mitigate the effects of muscle strength loss on physical performance capabilities.
Authors: Derek N Pamukoff; Eric C Haakonssen; Joseph A Zaccaria; Michael L Madigan; Michael E Miller; Anthony P Marsh Journal: Clin Interv Aging Date: 2014-04-17 Impact factor: 4.458
Authors: Digna de Kam; Jolanda M B Roelofs; Amber K B D Bruijnes; Alexander C H Geurts; Vivian Weerdesteyn Journal: Neurorehabil Neural Repair Date: 2017-07-08 Impact factor: 3.919