4.6 Article

Relation between Step-To-Step Transition Strategies and Walking Pattern in Older Adults

Journal

APPLIED SCIENCES-BASEL
Volume 12, Issue 10, Pages -

Publisher

MDPI
DOI: 10.3390/app12105055

Keywords

aging; gait analysis; biomechanics; coordination

Funding

  1. Universite Catholique de Louvain
  2. Italian Ministry of Health (Ricerca corrente, IRCCS Fondazione Santa Lucia)
  3. Italian Space Agency [I/006/06/0, ASI-MARS-PRE DC-VUM-2017-006]
  4. Italian University Ministry (PRIN grant) [2017CBF8NJ_005, 2020EM9A8X_003]

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Two different modes of step-to-step transition have been observed in older adults, with the impact on gait kinetics and kinematics not yet investigated. It was found that age and transition mode have differences in intersegmental coordination and COM trajectory during walking. The timing of COM redirection is linked to kinematic and mechanic changes in gait and may be used as a quantitative assessment of age-related decline.
In older adults, two different modes of step-to-step transition have been observed: an anticipated mode when the redirection of the centre of mass of the body (COM) begins before double stance and another when the transition begins during double stance. However, the impact of transition mode on gait kinetics and kinematics has not been investigated. Age and step-to-step-transition-related differences in intersegmental coordination and in the COM trajectory during walking were identified. Fifteen young (24.1 +/- 0.7 y.o.) and thirty-six older adults (74.5 +/- 5.0 y.o.) walked on a treadmill at 1.11 m s(-1) and 1.67 m s(-1). Lower-limb motion and ground reaction force were recorded. The COM dynamics were evaluated by measuring the pendulum-like exchange of the COM energies. While all young adults and 21 of the older adults used an anticipated transition, 15 older adults presented a non-anticipated transition. Previously documented changes of intersegmental coordination with age were accentuated in older adults with non-anticipated transition (p < 0.001). Moreover, older adults with non-anticipated transition had a smaller pendulum-like energy exchange than older adults with anticipated transition (p = 0.03). The timing of COM redirection is linked to kinematic and mechanic modification of gait and could potentially be used as a quantitative assessment of age-related decline in gait.

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