A model for understanding the causes and consequences of walking impairments

Walking is an important skill with positive impacts on health, function, and well-being. Many disorders impair walking and its positive impacts through a variety of complex and interrelated mechanisms. Any attempt to understand walking impairments, or the effects of interventions intended to treat t...

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Veröffentlicht in:	PloS one 2022-12, Vol.17 (12), p.e0270731-e0270731
Hauptverfasser:	Schwartz, Michael H, Steele, Katherine M, Ries, Andrew J, Georgiadis, Andrew G, MacWilliams, Bruce A
Format:	Artikel
Sprache:	eng
Schlagworte:	Arthritis Biology and Life Sciences Bone surgery Cause-effect relationships Cerebral palsy Complexity Computer Simulation Data acquisition Evaluation Gait Health aspects Health Status Joint replacement surgery Medical protocols Medicine and Health Sciences Mobility Modelling Movement disorders Nodes Orthopedics Osteoarthritis Reproducibility of Results Risk factors Social Sciences Variables Walking Well being
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creator	Schwartz, Michael H Steele, Katherine M Ries, Andrew J Georgiadis, Andrew G MacWilliams, Bruce A
description	Walking is an important skill with positive impacts on health, function, and well-being. Many disorders impair walking and its positive impacts through a variety of complex and interrelated mechanisms. Any attempt to understand walking impairments, or the effects of interventions intended to treat these impairments, must respect this complexity. Therefore, our main objectives in conducting this study were to (1) propose a comprehensive model for quantifying the causes and consequences of walking impairments and (2) demonstrate the potential utility of the model for supporting clinical care and addressing basic scientific questions related to walking. To achieve these goals, we introduced a model, described by a directed acyclic graph, consisting of 10 nodes and 23 primary causal paths. We gave detailed descriptions of each node and path based on domain knowledge. We then demonstrated the model's utility using a large sample of gait data (N = 9504) acquired as part of routine care at a regional referral center. We analyzed five relevant examples that involved many of the model's nodes and paths. We computed causal effect magnitudes as Shapley values and displayed the overall importance of variables (mean absolute Shapley value), the variation of Shapley values with respect to underlying variables, and Shapley values for individual observations (case studies). We showed that the model was plausible, captured some well-known cause-effect relationships, provided new insights into others, and generated novel hypotheses requiring further testing through simulation or experiment. To aid in transparency, reproducibility, and future enhancements we have included an extensively commented Rmarkdown file and a deidentified data set.
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subjects	Arthritis Biology and Life Sciences Bone surgery Cause-effect relationships Cerebral palsy Complexity Computer Simulation Data acquisition Evaluation Gait Health aspects Health Status Joint replacement surgery Medical protocols Medicine and Health Sciences Mobility Modelling Movement disorders Nodes Orthopedics Osteoarthritis Reproducibility of Results Risk factors Social Sciences Variables Walking Well being
title	A model for understanding the causes and consequences of walking impairments
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