Gait and turning characteristics from daily life increase ability to predict future falls in people with Parkinson's disease

OBJECTIVES: To investigate if digital measures of gait (walking and turning) collected passively over a week of daily activities in people with Parkinson's disease (PD) increases the discriminative ability to predict future falls compared to fall history alone. METHODS: We recruited 34 individu...

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Autores principales: Shah, Vrutangkumar V., Jagodinsky, Adam, McNames, James, Carlson-Kuhta, Patricia, Nutt, John G., El-Gohary, Mahmoud, Sowalsky, Kristen, Harker, Graham, Mancini, Martina, Horak, Fay B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2023
Materias:
Neurology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10015637/
https://www.ncbi.nlm.nih.gov/pubmed/36937534
http://dx.doi.org/10.3389/fneur.2023.1096401
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author Shah, Vrutangkumar V.
Jagodinsky, Adam
McNames, James
Carlson-Kuhta, Patricia
Nutt, John G.
El-Gohary, Mahmoud
Sowalsky, Kristen
Harker, Graham
Mancini, Martina
Horak, Fay B.
author_facet Shah, Vrutangkumar V.
Jagodinsky, Adam
McNames, James
Carlson-Kuhta, Patricia
Nutt, John G.
El-Gohary, Mahmoud
Sowalsky, Kristen
Harker, Graham
Mancini, Martina
Horak, Fay B.
author_sort Shah, Vrutangkumar V.
collection PubMed
description OBJECTIVES: To investigate if digital measures of gait (walking and turning) collected passively over a week of daily activities in people with Parkinson's disease (PD) increases the discriminative ability to predict future falls compared to fall history alone. METHODS: We recruited 34 individuals with PD (17 with history of falls and 17 non-fallers), age: 68 ± 6 years, MDS-UPDRS III ON: 31 ± 9. Participants were classified as fallers (at least one fall) or non-fallers based on self-reported falls in past 6 months. Eighty digital measures of gait were derived from 3 inertial sensors (Opal(®) V2 System) placed on the feet and lower back for a week of passive gait monitoring. Logistic regression employing a “best subsets selection strategy” was used to find combinations of measures that discriminated future fallers from non-fallers, and the Area Under Curve (AUC). Participants were followed via email every 2 weeks over the year after the study for self-reported falls. RESULTS: Twenty-five subjects reported falls in the follow-up year. Quantity of gait and turning measures (e.g., number of gait bouts and turns per hour) were similar in future fallers and non-fallers. The AUC to discriminate future fallers from non-fallers using fall history alone was 0.77 (95% CI: [0.50–1.00]). In contrast, the highest AUC for gait and turning digital measures with 4 combinations was 0.94 [0.84–1.00]. From the top 10 models (all AUCs>0.90) via the best subsets strategy, the most consistently selected measures were variability of toe-out angle of the foot (9 out of 10), pitch angle of the foot during mid-swing (8 out of 10), and peak turn velocity (7 out of 10). CONCLUSIONS: These findings highlight the importance of considering precise digital measures, captured via sensors strategically placed on the feet and low back, to quantify several different aspects of gait (walking and turning) during daily life to improve the classification of future fallers in PD.
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spelling pubmed-100156372023-03-16 Gait and turning characteristics from daily life increase ability to predict future falls in people with Parkinson's disease Shah, Vrutangkumar V. Jagodinsky, Adam McNames, James Carlson-Kuhta, Patricia Nutt, John G. El-Gohary, Mahmoud Sowalsky, Kristen Harker, Graham Mancini, Martina Horak, Fay B. Front Neurol Neurology OBJECTIVES: To investigate if digital measures of gait (walking and turning) collected passively over a week of daily activities in people with Parkinson's disease (PD) increases the discriminative ability to predict future falls compared to fall history alone. METHODS: We recruited 34 individuals with PD (17 with history of falls and 17 non-fallers), age: 68 ± 6 years, MDS-UPDRS III ON: 31 ± 9. Participants were classified as fallers (at least one fall) or non-fallers based on self-reported falls in past 6 months. Eighty digital measures of gait were derived from 3 inertial sensors (Opal(®) V2 System) placed on the feet and lower back for a week of passive gait monitoring. Logistic regression employing a “best subsets selection strategy” was used to find combinations of measures that discriminated future fallers from non-fallers, and the Area Under Curve (AUC). Participants were followed via email every 2 weeks over the year after the study for self-reported falls. RESULTS: Twenty-five subjects reported falls in the follow-up year. Quantity of gait and turning measures (e.g., number of gait bouts and turns per hour) were similar in future fallers and non-fallers. The AUC to discriminate future fallers from non-fallers using fall history alone was 0.77 (95% CI: [0.50–1.00]). In contrast, the highest AUC for gait and turning digital measures with 4 combinations was 0.94 [0.84–1.00]. From the top 10 models (all AUCs>0.90) via the best subsets strategy, the most consistently selected measures were variability of toe-out angle of the foot (9 out of 10), pitch angle of the foot during mid-swing (8 out of 10), and peak turn velocity (7 out of 10). CONCLUSIONS: These findings highlight the importance of considering precise digital measures, captured via sensors strategically placed on the feet and low back, to quantify several different aspects of gait (walking and turning) during daily life to improve the classification of future fallers in PD. Frontiers Media S.A. 2023-02-28 /pmc/articles/PMC10015637/ /pubmed/36937534 http://dx.doi.org/10.3389/fneur.2023.1096401 Text en Copyright © 2023 Shah, Jagodinsky, McNames, Carlson-Kuhta, Nutt, El-Gohary, Sowalsky, Harker, Mancini and Horak. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Neurology
Shah, Vrutangkumar V.
Jagodinsky, Adam
McNames, James
Carlson-Kuhta, Patricia
Nutt, John G.
El-Gohary, Mahmoud
Sowalsky, Kristen
Harker, Graham
Mancini, Martina
Horak, Fay B.
Gait and turning characteristics from daily life increase ability to predict future falls in people with Parkinson's disease
title Gait and turning characteristics from daily life increase ability to predict future falls in people with Parkinson's disease
title_full Gait and turning characteristics from daily life increase ability to predict future falls in people with Parkinson's disease
title_fullStr Gait and turning characteristics from daily life increase ability to predict future falls in people with Parkinson's disease
title_full_unstemmed Gait and turning characteristics from daily life increase ability to predict future falls in people with Parkinson's disease
title_short Gait and turning characteristics from daily life increase ability to predict future falls in people with Parkinson's disease
title_sort gait and turning characteristics from daily life increase ability to predict future falls in people with parkinson's disease
topic Neurology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10015637/
https://www.ncbi.nlm.nih.gov/pubmed/36937534
http://dx.doi.org/10.3389/fneur.2023.1096401
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