Older Fallers' Comprehensive Neuromuscular and Kinematic Alterations in Reactive Balance Control: Indicators of Balance Decline or Compensation? A Pilot Study

: Falls and fall consequences in older adults are global health issues. Previous studies have compared postural sways or stepping strategies between older adults with and without fall histories to identify factors associated with falls. However, more in-depth neuromuscular/kinematic mechanisms have...

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Bibliographic Details
Published in:Bioengineering (Basel) 2025-01, Vol.12 (1), p.66
Main Authors: Zhu, Ringo Tang-Long, Hung, Timmi Tim Mei, Lam, Freddy Man Hin, Li, Jun-Zhe, Luo, Yu-Yan, Sun, Jingting, Wang, Shujun, Ma, Christina Zong-Hao
Format: Article
Language:English
Subjects:
Adults
Age
Ankle
Balance
community-dwelling
Confounding (Statistics)
electromyographic (EMG)
Exercise
Falls
Global health
Hip
Joints (anatomy)
Kinematics
Knee
Muscle contraction
Muscles
Neuromuscular system
older adults
Older people
Perturbation
Posture
Public health
reactive balance
Recovery
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Summary:: Falls and fall consequences in older adults are global health issues. Previous studies have compared postural sways or stepping strategies between older adults with and without fall histories to identify factors associated with falls. However, more in-depth neuromuscular/kinematic mechanisms have remained unclear. This study aimed to comprehensively investigate muscle activities and joint kinematics during reactive balance control in older adults with different fall histories. : This pilot observational study recruited six community-dwelling older fallers (≥1 fall in past one year) and six older non-fallers, who received unpredictable translational balance perturbations in randomized directions and intensities during standing. The whole-body center-of-mass (COM) displacements, eight dominant-leg joint motions and muscle electrical activities were collected, and analyzed using the temporal and amplitude parameters. : Compared to non-fallers, fallers had significantly: (a) smaller activation rate of the ankle dorsiflexor, delayed activation of the hip flexor/extensor, larger activation rate of the knee flexor, and smaller agonist-antagonist co-contraction in lower-limb muscles; (b) larger knee/hip flexion angles, longer ankle dorsiflexion duration, and delayed timing of recovery in joint motions; and (c) earlier downward COM displacements and larger anteroposterior overshooting COM displacements following unpredictable perturbations ( < 0.05). : Compared to non-fallers, fallers used more suspensory strategies for reactive standing balance, which compensated for inadequate ankle/hip strategies but resulted in prolonged recovery. A further longitudinal study with a larger sample is still needed to examine the diagnostic accuracies and training values of these identified neuromuscular/kinematic factors in differentiating fall risks and preventing future falls of older people, respectively.
ISSN:2306-5354
2306-5354
DOI:10.3390/bioengineering12010066