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Effects of moveable platform training in preventing slip-induced falls in older adults

(2012) ANNALS OF BIOMEDICAL ENGINEERING. 40(5). p.1111-1121
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Abstract
Identifying effective interventions is vital in preventing slip-induced fall accidents in older adults. The purpose of the current study was to evaluate the efficacy of moveable platform training in improving recovery reactions and reducing fall frequency in older adults. Twenty-four older adults were recruited and randomly assigned to two groups (training and control). Both groups underwent three sessions including baseline slip, training, and transfer of training on a slippery surface. Both groups experienced two slips on a slippery surface, one during the baseline and the other (after 2 weeks) during the transfer of training session. In the training session, the training group underwent twelve simulated slips using a moveable platform while the control group performed normal walking trials. Kinematic, kinetic, and EMG data were collected during all the sessions. Results indicated a reduced incidence of falls in the training group during the transfer of training trial as compared to the control group. The training group was able to transfer proactive and reactive control strategies learned during training to the second slip trial. The proactive adjustments include increased center-of-mass velocity and transitional acceleration after training. Reactive adjustments include reduction in muscle onset and time to peak activations of knee flexors and ankle plantar flexors, reduced ankle and knee coactivation, reduced slip displacement, and reduced time to peak knee flexion, trunk flexion, and hip flexion velocities. In general, the results indicated a beneficial effect of perturbation training in reducing slip severity and recovery kinematics in healthy older adults.
Keywords
ELDERLY-PEOPLE, RANDOMIZED CONTROLLED-TRIAL, BALANCE, GAIT, WALKING, COACTIVATION, BIOMECHANICS, FEEDFORWARD, ADAPTATIONS, VELOCITY, Falls, Elderly, Biomechanics, Locomotion, Fall prevention training

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Citation

Please use this url to cite or link to this publication:

MLA
Parijat, Prakriti, and Thurmon Lockhart. “Effects of Moveable Platform Training in Preventing Slip-induced Falls in Older Adults.” ANNALS OF BIOMEDICAL ENGINEERING 40.5 (2012): 1111–1121. Print.
APA
Parijat, Prakriti, & Lockhart, T. (2012). Effects of moveable platform training in preventing slip-induced falls in older adults. ANNALS OF BIOMEDICAL ENGINEERING, 40(5), 1111–1121.
Chicago author-date
Parijat, Prakriti, and Thurmon Lockhart. 2012. “Effects of Moveable Platform Training in Preventing Slip-induced Falls in Older Adults.” Annals of Biomedical Engineering 40 (5): 1111–1121.
Chicago author-date (all authors)
Parijat, Prakriti, and Thurmon Lockhart. 2012. “Effects of Moveable Platform Training in Preventing Slip-induced Falls in Older Adults.” Annals of Biomedical Engineering 40 (5): 1111–1121.
Vancouver
1.
Parijat P, Lockhart T. Effects of moveable platform training in preventing slip-induced falls in older adults. ANNALS OF BIOMEDICAL ENGINEERING. 2012;40(5):1111–21.
IEEE
[1]
P. Parijat and T. Lockhart, “Effects of moveable platform training in preventing slip-induced falls in older adults,” ANNALS OF BIOMEDICAL ENGINEERING, vol. 40, no. 5, pp. 1111–1121, 2012.
@article{2019520,
  abstract     = {Identifying effective interventions is vital in preventing slip-induced fall accidents in older adults. The purpose of the current study was to evaluate the efficacy of moveable platform training in improving recovery reactions and reducing fall frequency in older adults. Twenty-four older adults were recruited and randomly assigned to two groups (training and control). Both groups underwent three sessions including baseline slip, training, and transfer of training on a slippery surface. Both groups experienced two slips on a slippery surface, one during the baseline and the other (after 2 weeks) during the transfer of training session. In the training session, the training group underwent twelve simulated slips using a moveable platform while the control group performed normal walking trials. Kinematic, kinetic, and EMG data were collected during all the sessions. Results indicated a reduced incidence of falls in the training group during the transfer of training trial as compared to the control group. The training group was able to transfer proactive and reactive control strategies learned during training to the second slip trial. The proactive adjustments include increased center-of-mass velocity and transitional acceleration after training. Reactive adjustments include reduction in muscle onset and time to peak activations of knee flexors and ankle plantar flexors, reduced ankle and knee coactivation, reduced slip displacement, and reduced time to peak knee flexion, trunk flexion, and hip flexion velocities. In general, the results indicated a beneficial effect of perturbation training in reducing slip severity and recovery kinematics in healthy older adults.},
  author       = {Parijat, Prakriti and Lockhart, Thurmon},
  issn         = {0090-6964},
  journal      = {ANNALS OF BIOMEDICAL ENGINEERING},
  keywords     = {ELDERLY-PEOPLE,RANDOMIZED CONTROLLED-TRIAL,BALANCE,GAIT,WALKING,COACTIVATION,BIOMECHANICS,FEEDFORWARD,ADAPTATIONS,VELOCITY,Falls,Elderly,Biomechanics,Locomotion,Fall prevention training},
  language     = {eng},
  number       = {5},
  pages        = {1111--1121},
  title        = {Effects of moveable platform training in preventing slip-induced falls in older adults},
  url          = {http://dx.doi.org/10.1007/s10439-011-0477-0},
  volume       = {40},
  year         = {2012},
}

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