A treatment recommender clinical decision support system for personalized medicine: method development and proof-of-concept for drug resistant tuberculosis

Verboven, Lennert; Calders, Toon; Callens, Steven; Black, John; Maartens, Gary; Dooley, Kelly E; Potgieter, Samantha; Warren, Robin M; Laukens, Kris; Van Rie, Annelies

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dc.contributor.author	Verboven, Lennert
dc.contributor.author	Calders, Toon
dc.contributor.author	Callens, Steven
dc.contributor.author	Black, John
dc.contributor.author	Maartens, Gary
dc.contributor.author	Dooley, Kelly E
dc.contributor.author	Potgieter, Samantha
dc.contributor.author	Warren, Robin M
dc.contributor.author	Laukens, Kris
dc.contributor.author	Van Rie, Annelies
dc.date.accessioned	2022-04-11T21:15:15Z
dc.date.available	2022-04-11T21:15:15Z
dc.date.issued	2022-03-02
dc.identifier.citation	Verboven, L., Calders, T., Callens, S., Black, J., Maartens, G., Dooley, K.E., Potgieter, S. & Warren, R.M. et al. 2022. A treatment recommender clinical decision support system for personalized medicine: method development and proof-of-concept for drug resistant tuberculosis. <i>BMC Medical Informatics and Decision Making.</i> 22(1):56. http://hdl.handle.net/11427/36337	en_ZA
dc.identifier.uri	https://doi.org/10.1186/s12911-022-01790-0
dc.identifier.uri	http://hdl.handle.net/11427/36337
dc.description.abstract	Background Personalized medicine tailors care based on the patient’s or pathogen’s genotypic and phenotypic characteristics. An automated Clinical Decision Support System (CDSS) could help translate the genotypic and phenotypic characteristics into optimal treatment and thus facilitate implementation of individualized treatment by less experienced physicians. Methods We developed a hybrid knowledge- and data-driven treatment recommender CDSS. Stakeholders and experts first define the knowledge base by identifying and quantifying drug and regimen features for the prototype model input. In an iterative manner, feedback from experts is harvested to generate model training datasets, machine learning methods are applied to identify complex relations and patterns in the data, and model performance is assessed by estimating the precision at one, mean reciprocal rank and mean average precision. Once the model performance no longer iteratively increases, a validation dataset is used to assess model overfitting. Results We applied the novel methodology to develop a treatment recommender CDSS for individualized treatment of drug resistant tuberculosis as a proof of concept. Using input from stakeholders and three rounds of expert feedback on a dataset of 355 patients with 129 unique drug resistance profiles, the model had a 95% precision at 1 indicating that the highest ranked treatment regimen was considered appropriate by the experts in 95% of cases. Use of a validation data set however suggested substantial model overfitting, with a reduction in precision at 1 to 78%. Conclusion Our novel and flexible hybrid knowledge- and data-driven treatment recommender CDSS is a first step towards the automation of individualized treatment for personalized medicine. Further research should assess its value in fields other than drug resistant tuberculosis, develop solid statistical approaches to assess model performance, and evaluate their accuracy in real-life clinical settings.	en_US
dc.language.iso	en	en_US
dc.rights.uri	http://creativecommons.org/licenses/by/4.0/	en_US
dc.source	BMC Medical Informatics and Decision Making	en_US
dc.source.uri	https://bmcmedinformdecismak.biomedcentral.com/
dc.subject	Clinical decision support system	en_US
dc.subject	Treatment individualisation	en_US
dc.subject	Machine learning	en_US
dc.title	A treatment recommender clinical decision support system for personalized medicine: method development and proof-of-concept for drug resistant tuberculosis	en_US
dc.type	Journal Article	en_US
dc.date.updated	2022-03-06T04:09:30Z
dc.language.rfc3066	en
dc.rights.holder	The Author(s)
dc.publisher.faculty	Faculty of Health Sciences	en_US
dc.publisher.department	Department of Medicine	en_US
dc.source.journalvolume	22	en_US
dc.source.journalissue	1	en_US
dc.source.pagination	56	en_US
dc.identifier.apacitation	Verboven, L., Calders, T., Callens, S., Black, J., Maartens, G., Dooley, K. E., ... Van Rie, A. (2022). A treatment recommender clinical decision support system for personalized medicine: method development and proof-of-concept for drug resistant tuberculosis. <i>BMC Medical Informatics and Decision Making</i>, 22(1), 56. http://hdl.handle.net/11427/36337	en_ZA
dc.identifier.chicagocitation	Verboven, Lennert, Toon Calders, Steven Callens, John Black, Gary Maartens, Kelly E Dooley, Samantha Potgieter, Robin M Warren, Kris Laukens, and Annelies Van Rie "A treatment recommender clinical decision support system for personalized medicine: method development and proof-of-concept for drug resistant tuberculosis." <i>BMC Medical Informatics and Decision Making</i> 22, 1. (2022): 56. http://hdl.handle.net/11427/36337	en_ZA
dc.identifier.vancouvercitation	Verboven L, Calders T, Callens S, Black J, Maartens G, Dooley KE, et al. A treatment recommender clinical decision support system for personalized medicine: method development and proof-of-concept for drug resistant tuberculosis. BMC Medical Informatics and Decision Making. 2022;22(1):56. http://hdl.handle.net/11427/36337.	en_ZA
dc.identifier.ris	TY - Journal Article AU - Verboven, Lennert AU - Calders, Toon AU - Callens, Steven AU - Black, John AU - Maartens, Gary AU - Dooley, Kelly E AU - Potgieter, Samantha AU - Warren, Robin M AU - Laukens, Kris AU - Van Rie, Annelies AB - Background Personalized medicine tailors care based on the patient’s or pathogen’s genotypic and phenotypic characteristics. An automated Clinical Decision Support System (CDSS) could help translate the genotypic and phenotypic characteristics into optimal treatment and thus facilitate implementation of individualized treatment by less experienced physicians. Methods We developed a hybrid knowledge- and data-driven treatment recommender CDSS. Stakeholders and experts first define the knowledge base by identifying and quantifying drug and regimen features for the prototype model input. In an iterative manner, feedback from experts is harvested to generate model training datasets, machine learning methods are applied to identify complex relations and patterns in the data, and model performance is assessed by estimating the precision at one, mean reciprocal rank and mean average precision. Once the model performance no longer iteratively increases, a validation dataset is used to assess model overfitting. Results We applied the novel methodology to develop a treatment recommender CDSS for individualized treatment of drug resistant tuberculosis as a proof of concept. Using input from stakeholders and three rounds of expert feedback on a dataset of 355 patients with 129 unique drug resistance profiles, the model had a 95% precision at 1 indicating that the highest ranked treatment regimen was considered appropriate by the experts in 95% of cases. Use of a validation data set however suggested substantial model overfitting, with a reduction in precision at 1 to 78%. Conclusion Our novel and flexible hybrid knowledge- and data-driven treatment recommender CDSS is a first step towards the automation of individualized treatment for personalized medicine. Further research should assess its value in fields other than drug resistant tuberculosis, develop solid statistical approaches to assess model performance, and evaluate their accuracy in real-life clinical settings. DA - 2022-03-02 DB - OpenUCT DP - University of Cape Town IS - 1 J1 - BMC Medical Informatics and Decision Making KW - Clinical decision support system KW - Treatment individualisation KW - Machine learning LK - https://open.uct.ac.za PY - 2022 T1 - A treatment recommender clinical decision support system for personalized medicine: method development and proof-of-concept for drug resistant tuberculosis TI - A treatment recommender clinical decision support system for personalized medicine: method development and proof-of-concept for drug resistant tuberculosis UR - http://hdl.handle.net/11427/36337 ER -	en_ZA