Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks

Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks

Accidental falls are a major health concern among older adults. Currently, fall prevention programs employ clinical assessment scores for identifying elderly fallers based on cut-off values. Biomechanical parameters provide crucial information differentiating pathological gait and posture and can be...

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Main Authors: Ashirbad Pradhan, Usha Kuruganti, Victoria Chester
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Balance
biomechanical parameters
classification
clinical assessment tools
fall risk
gait
Online Access:https://ieeexplore.ieee.org/document/9237953/
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spelling doaj-824b4ff17f3c40218b7c224725316b5b2021-03-30T03:40:59ZengIEEEIEEE Access2169-35362020-01-01819353219354310.1109/ACCESS.2020.30331949237953Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic TasksAshirbad Pradhan0https://orcid.org/0000-0003-1175-7984Usha Kuruganti1Victoria Chester2Andrew and Marjorie McCain Human Performance Laboratory, Faculty of Kinesiology, University of New Brunswick, Fredericton, NB, CanadaAndrew and Marjorie McCain Human Performance Laboratory, Faculty of Kinesiology, University of New Brunswick, Fredericton, NB, CanadaAndrew and Marjorie McCain Human Performance Laboratory, Faculty of Kinesiology, University of New Brunswick, Fredericton, NB, CanadaAccidental falls are a major health concern among older adults. Currently, fall prevention programs employ clinical assessment scores for identifying elderly fallers based on cut-off values. Biomechanical parameters provide crucial information differentiating pathological gait and posture and can be used to classify elderly fallers and non-fallers. Pattern recognition models based on biomechanical parameters may provide greater insight for such classification. The purpose of this study was to compare the classification accuracy of different pattern recognition models for identifying elderly fallers using biomechanical parameters measured during balance and gait tasks. Pattern recognition models were also developed using clinical assessment scores and compared to the models based on biomechanical parameters for accurately identifying elderly fallers. Participants included 58 non-fallers (age = 72.3 ± 5.7) and 41 fallers (age = 74.0 ± 12.3) who performed balance and gait tasks on a walkway with embedded force plates and pressure mats. The parameters included 2D ground reaction force (GRF), center of pressure (COP), and the plantar pressure (PP). Using this data as input, different classification algorithms were used to build models. Maximum accuracy of 86.02% for classifying faller/non-faller categories was obtained using a classifier based on biomechanical parameters from combined gait and balance tasks. The GRF parameters ranked higher than COP and PP parameters based on F-score ranking suggesting predictor importance of GRF parameters. The classification performance was further improved by adding GRF parameters to the more commonly used COP parameters. However, the classifiers based on clinical assessment scores resulted in a maximum accuracy of 92.93% suggesting that elderly fallers can be accurately classified using pattern recognition models based on clinical assessment scores.https://ieeexplore.ieee.org/document/9237953/Balancebiomechanical parametersclassificationclinical assessment toolsfall riskgait
collection DOAJ
language English
format Article
sources DOAJ
author Ashirbad Pradhan
Usha Kuruganti
Victoria Chester
spellingShingle Ashirbad Pradhan
Usha Kuruganti
Victoria Chester
Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks
IEEE Access
Balance
biomechanical parameters
classification
clinical assessment tools
fall risk
gait
author_facet Ashirbad Pradhan
Usha Kuruganti
Victoria Chester
author_sort Ashirbad Pradhan
title Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks
title_short Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks
title_full Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks
title_fullStr Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks
title_full_unstemmed Biomechanical Parameters and Clinical Assessment Scores for Identifying Elderly Fallers Based on Balance and Dynamic Tasks
title_sort biomechanical parameters and clinical assessment scores for identifying elderly fallers based on balance and dynamic tasks
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description Accidental falls are a major health concern among older adults. Currently, fall prevention programs employ clinical assessment scores for identifying elderly fallers based on cut-off values. Biomechanical parameters provide crucial information differentiating pathological gait and posture and can be used to classify elderly fallers and non-fallers. Pattern recognition models based on biomechanical parameters may provide greater insight for such classification. The purpose of this study was to compare the classification accuracy of different pattern recognition models for identifying elderly fallers using biomechanical parameters measured during balance and gait tasks. Pattern recognition models were also developed using clinical assessment scores and compared to the models based on biomechanical parameters for accurately identifying elderly fallers. Participants included 58 non-fallers (age = 72.3 ± 5.7) and 41 fallers (age = 74.0 ± 12.3) who performed balance and gait tasks on a walkway with embedded force plates and pressure mats. The parameters included 2D ground reaction force (GRF), center of pressure (COP), and the plantar pressure (PP). Using this data as input, different classification algorithms were used to build models. Maximum accuracy of 86.02% for classifying faller/non-faller categories was obtained using a classifier based on biomechanical parameters from combined gait and balance tasks. The GRF parameters ranked higher than COP and PP parameters based on F-score ranking suggesting predictor importance of GRF parameters. The classification performance was further improved by adding GRF parameters to the more commonly used COP parameters. However, the classifiers based on clinical assessment scores resulted in a maximum accuracy of 92.93% suggesting that elderly fallers can be accurately classified using pattern recognition models based on clinical assessment scores.
topic Balance
biomechanical parameters
classification
clinical assessment tools
fall risk
gait
url https://ieeexplore.ieee.org/document/9237953/
work_keys_str_mv AT ashirbadpradhan biomechanicalparametersandclinicalassessmentscoresforidentifyingelderlyfallersbasedonbalanceanddynamictasks
AT ushakuruganti biomechanicalparametersandclinicalassessmentscoresforidentifyingelderlyfallersbasedonbalanceanddynamictasks
AT victoriachester biomechanicalparametersandclinicalassessmentscoresforidentifyingelderlyfallersbasedonbalanceanddynamictasks
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