Utilizing Kernel Density Estimation and Butterfly Diagram to Characterize the Gait Variability in the Fallers: A Cross‐Sectional Study
ABSTRACT Background and Aims The butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the elderly individuals who fall. Nevertheless, there is a lack of comprehensive exploration regarding the quantification of variability at the inte...
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| Published in | Health science reports Vol. 8; no. 7; pp. e70988 - n/a |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
John Wiley & Sons, Inc
01.07.2025
John Wiley and Sons Inc Wiley |
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| Online Access | Get full text |
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| Abstract | ABSTRACT
Background and Aims
The butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the elderly individuals who fall. Nevertheless, there is a lack of comprehensive exploration regarding the quantification of variability at the intersections in butterfly diagrams. We proposed the utilization of kernel density estimation (KDE) and center of pressure (COP) symmetry index to analyze the spatial probability distribution of intersections in butterfly diagrams and to characterize the variability of gait patterns in elderly fallers.
Methods
Twenty active elderly individuals (including both fallers and non‐fallers) volunteered to participate in this study. Initially, the self‐selected walking speed of each subject was assessed using a treadmill. Subsequently, each participant walked for a duration of 60 s. The bilateral toe‐off (TO) and initial contact (IC) points of the butterfly diagram were identified for the computation of the COP symmetry index and the intersections of bilateral TO‐IC. Following this, the intersections within the walking window were utilized to assess their density and variability through Kernel density estimation.
Results
Fallers exhibited a significantly greater COP symmetry index (mean = 0.09, SD = 0.55), than non‐fallers (mean = 0.58, SD = 0.56; sig. = 0.03, η2 = 0.09). No significant differences were found in step width, step length, or COP distances (p > 0.05). KDE revealed distinct variability patterns: non‐fallers showed two patterns (A, B), while fallers displayed three (C, D, E), suggesting greater gait instability in fallers.
Conclusions
KDE and COP symmetry analysis appeared to effectively quantify gait variability, offering insights into fall risk factors and potential intervention targets for elderly women. |
|---|---|
| AbstractList | The butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the elderly individuals who fall. Nevertheless, there is a lack of comprehensive exploration regarding the quantification of variability at the intersections in butterfly diagrams. We proposed the utilization of kernel density estimation (KDE) and center of pressure (COP) symmetry index to analyze the spatial probability distribution of intersections in butterfly diagrams and to characterize the variability of gait patterns in elderly fallers.Background and AimsThe butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the elderly individuals who fall. Nevertheless, there is a lack of comprehensive exploration regarding the quantification of variability at the intersections in butterfly diagrams. We proposed the utilization of kernel density estimation (KDE) and center of pressure (COP) symmetry index to analyze the spatial probability distribution of intersections in butterfly diagrams and to characterize the variability of gait patterns in elderly fallers.Twenty active elderly individuals (including both fallers and non-fallers) volunteered to participate in this study. Initially, the self-selected walking speed of each subject was assessed using a treadmill. Subsequently, each participant walked for a duration of 60 s. The bilateral toe-off (TO) and initial contact (IC) points of the butterfly diagram were identified for the computation of the COP symmetry index and the intersections of bilateral TO-IC. Following this, the intersections within the walking window were utilized to assess their density and variability through Kernel density estimation.MethodsTwenty active elderly individuals (including both fallers and non-fallers) volunteered to participate in this study. Initially, the self-selected walking speed of each subject was assessed using a treadmill. Subsequently, each participant walked for a duration of 60 s. The bilateral toe-off (TO) and initial contact (IC) points of the butterfly diagram were identified for the computation of the COP symmetry index and the intersections of bilateral TO-IC. Following this, the intersections within the walking window were utilized to assess their density and variability through Kernel density estimation.Fallers exhibited a significantly greater COP symmetry index (mean = 0.09, SD = 0.55), than non-fallers (mean = 0.58, SD = 0.56; sig. = 0.03, η2 = 0.09). No significant differences were found in step width, step length, or COP distances (p > 0.05). KDE revealed distinct variability patterns: non-fallers showed two patterns (A, B), while fallers displayed three (C, D, E), suggesting greater gait instability in fallers.ResultsFallers exhibited a significantly greater COP symmetry index (mean = 0.09, SD = 0.55), than non-fallers (mean = 0.58, SD = 0.56; sig. = 0.03, η2 = 0.09). No significant differences were found in step width, step length, or COP distances (p > 0.05). KDE revealed distinct variability patterns: non-fallers showed two patterns (A, B), while fallers displayed three (C, D, E), suggesting greater gait instability in fallers.KDE and COP symmetry analysis appeared to effectively quantify gait variability, offering insights into fall risk factors and potential intervention targets for elderly women.ConclusionsKDE and COP symmetry analysis appeared to effectively quantify gait variability, offering insights into fall risk factors and potential intervention targets for elderly women. ABSTRACT Background and Aims The butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the elderly individuals who fall. Nevertheless, there is a lack of comprehensive exploration regarding the quantification of variability at the intersections in butterfly diagrams. We proposed the utilization of kernel density estimation (KDE) and center of pressure (COP) symmetry index to analyze the spatial probability distribution of intersections in butterfly diagrams and to characterize the variability of gait patterns in elderly fallers. Methods Twenty active elderly individuals (including both fallers and non‐fallers) volunteered to participate in this study. Initially, the self‐selected walking speed of each subject was assessed using a treadmill. Subsequently, each participant walked for a duration of 60 s. The bilateral toe‐off (TO) and initial contact (IC) points of the butterfly diagram were identified for the computation of the COP symmetry index and the intersections of bilateral TO‐IC. Following this, the intersections within the walking window were utilized to assess their density and variability through Kernel density estimation. Results Fallers exhibited a significantly greater COP symmetry index (mean = 0.09, SD = 0.55), than non‐fallers (mean = 0.58, SD = 0.56; sig. = 0.03, η2 = 0.09). No significant differences were found in step width, step length, or COP distances (p > 0.05). KDE revealed distinct variability patterns: non‐fallers showed two patterns (A, B), while fallers displayed three (C, D, E), suggesting greater gait instability in fallers. Conclusions KDE and COP symmetry analysis appeared to effectively quantify gait variability, offering insights into fall risk factors and potential intervention targets for elderly women. The butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the elderly individuals who fall. Nevertheless, there is a lack of comprehensive exploration regarding the quantification of variability at the intersections in butterfly diagrams. We proposed the utilization of kernel density estimation (KDE) and center of pressure (COP) symmetry index to analyze the spatial probability distribution of intersections in butterfly diagrams and to characterize the variability of gait patterns in elderly fallers. Twenty active elderly individuals (including both fallers and non-fallers) volunteered to participate in this study. Initially, the self-selected walking speed of each subject was assessed using a treadmill. Subsequently, each participant walked for a duration of 60 s. The bilateral toe-off (TO) and initial contact (IC) points of the butterfly diagram were identified for the computation of the COP symmetry index and the intersections of bilateral TO-IC. Following this, the intersections within the walking window were utilized to assess their density and variability through Kernel density estimation. Fallers exhibited a significantly greater COP symmetry index (mean = 0.09, SD = 0.55), than non-fallers (mean = 0.58, SD = 0.56; sig. = 0.03, η = 0.09). No significant differences were found in step width, step length, or COP distances ( > 0.05). KDE revealed distinct variability patterns: non-fallers showed two patterns (A, B), while fallers displayed three (C, D, E), suggesting greater gait instability in fallers. KDE and COP symmetry analysis appeared to effectively quantify gait variability, offering insights into fall risk factors and potential intervention targets for elderly women. ABSTRACT Background and Aims The butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the elderly individuals who fall. Nevertheless, there is a lack of comprehensive exploration regarding the quantification of variability at the intersections in butterfly diagrams. We proposed the utilization of kernel density estimation (KDE) and center of pressure (COP) symmetry index to analyze the spatial probability distribution of intersections in butterfly diagrams and to characterize the variability of gait patterns in elderly fallers. Methods Twenty active elderly individuals (including both fallers and non‐fallers) volunteered to participate in this study. Initially, the self‐selected walking speed of each subject was assessed using a treadmill. Subsequently, each participant walked for a duration of 60 s. The bilateral toe‐off (TO) and initial contact (IC) points of the butterfly diagram were identified for the computation of the COP symmetry index and the intersections of bilateral TO‐IC. Following this, the intersections within the walking window were utilized to assess their density and variability through Kernel density estimation. Results Fallers exhibited a significantly greater COP symmetry index (mean = 0.09, SD = 0.55), than non‐fallers (mean = 0.58, SD = 0.56; sig. = 0.03, η2 = 0.09). No significant differences were found in step width, step length, or COP distances (p > 0.05). KDE revealed distinct variability patterns: non‐fallers showed two patterns (A, B), while fallers displayed three (C, D, E), suggesting greater gait instability in fallers. Conclusions KDE and COP symmetry analysis appeared to effectively quantify gait variability, offering insights into fall risk factors and potential intervention targets for elderly women. |
| Author | Fatahi, Ali Khezri, Davood Mehrlatifan, Somayeh |
| AuthorAffiliation | 1 Department of Sports Biomechanics, CT.C Islamic Azad University Tehran Iran 2 Department of Sport Biomechanics and Technology Sport Sciences Research Institute Tehran Iran |
| AuthorAffiliation_xml | – name: 1 Department of Sports Biomechanics, CT.C Islamic Azad University Tehran Iran – name: 2 Department of Sport Biomechanics and Technology Sport Sciences Research Institute Tehran Iran |
| Author_xml | – sequence: 1 givenname: Somayeh orcidid: 0009-0007-7227-3189 surname: Mehrlatifan fullname: Mehrlatifan, Somayeh organization: Islamic Azad University – sequence: 2 givenname: Ali orcidid: 0000-0002-8863-4061 surname: Fatahi fullname: Fatahi, Ali email: alifatahi@iau.ac.ir organization: Islamic Azad University – sequence: 3 givenname: Davood orcidid: 0000-0001-7160-829X surname: Khezri fullname: Khezri, Davood organization: Sport Sciences Research Institute |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/40599409$$D View this record in MEDLINE/PubMed |
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| Snippet | ABSTRACT
Background and Aims
The butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the... The butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the elderly individuals who fall.... ABSTRACT Background and Aims The butterfly diagram is an effective tool for visualizing gait patterns and identifying potential areas of instability in the... |
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| SubjectTerms | center of pressure elderly fall Falls Fitness equipment Gait kernel density estimation Mobility Multiple sclerosis Older people Original Research Statistical analysis Symmetry Variables Walking |
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| Title | Utilizing Kernel Density Estimation and Butterfly Diagram to Characterize the Gait Variability in the Fallers: A Cross‐Sectional Study |
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