Author ORCID Identifier
Brandon Sargent: https://orcid.org/0000-0002-7997-4494
Document Type
Article
Publication Title
PLOS One
Abstract
Pectus carinatum is a chest wall deformity that is often treated through the wearing of an external brace. The treatment of the deformity could benefit from a greater understanding of chest wall characteristics under prolonged loading. These characteristics are difficult to model directly but empirical studies can be used to create statistical models. 185 patients from 2018-2020 received bracing treatment. Data on the severity of the deformity, treatment pressures, and time of wear were recorded at the first fitting and all subsequent follow-up visits. This data was analyzed using a statistical mixed effects model to identify significant measures and trends in treatment. These models were designed to help quantify changes in chest wall characteristics through prolonged bracing. Two statistical models were created. The first model predicts the change in the amount of pressure to correct the deformity after bracing for a given time and pressure. The second model predicts the change in pressure response by the body on the brace after bracing for a given time and pressure. These models show a high significance in the amount of pressure and time to the changes in the chest wall response. Initial deformity severity is also significant in changes to the deformity. The statistical models predict general trends in pectus carinatum brace treatment and can assist in creating treatment plans, motivating patient compliance, and can inform the design of future treatment systems.
DOI
https://doi.org/10.1371/journal.pone.0288941
Publication Date
2023
Recommended Citation
Sargent B, Varela K, Eggett D, McKenna E, Bates C, Brown R, et al. (2023) Modeling of the chest wall response to prolonged bracing in pectus carinatum. PLoS ONE 18(8): e0288941. https://doi.org/10.1371/journal.pone.0288941
Included in
Analytical, Diagnostic and Therapeutic Techniques and Equipment Commons, Biomedical Engineering and Bioengineering Commons
