Design and Testing of an EHR-Integrated, Busulfan Pharmacokinetic Decision Support Tool for the Point-of-Care Clinician

Background: Busulfan demonstrates a narrow therapeutic index for which clinicians routinely employ therapeutic drug monitoring (TDM). However, operationalizing TDM can be fraught with inefficiency. We developed and tested software encoding a clinical decision support tool (DST) that is embedded into...

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Autores principales: Abdel-Rahman, Susan M., Breitkreutz, Matthew L., Bi, Charlie, Matzuka, Brett J., Dalal, Jignesh, Casey, K. Leigh, Garg, Uttam, Winkle, Sara, Leeder, J. Steven, Breedlove, JeanAnn, Rivera, Brian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2016
Materias:
Pharmacology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4811899/
https://www.ncbi.nlm.nih.gov/pubmed/27065859
http://dx.doi.org/10.3389/fphar.2016.00065
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author Abdel-Rahman, Susan M.
Breitkreutz, Matthew L.
Bi, Charlie
Matzuka, Brett J.
Dalal, Jignesh
Casey, K. Leigh
Garg, Uttam
Winkle, Sara
Leeder, J. Steven
Breedlove, JeanAnn
Rivera, Brian
author_facet Abdel-Rahman, Susan M.
Breitkreutz, Matthew L.
Bi, Charlie
Matzuka, Brett J.
Dalal, Jignesh
Casey, K. Leigh
Garg, Uttam
Winkle, Sara
Leeder, J. Steven
Breedlove, JeanAnn
Rivera, Brian
author_sort Abdel-Rahman, Susan M.
collection PubMed
description Background: Busulfan demonstrates a narrow therapeutic index for which clinicians routinely employ therapeutic drug monitoring (TDM). However, operationalizing TDM can be fraught with inefficiency. We developed and tested software encoding a clinical decision support tool (DST) that is embedded into our electronic health record (EHR) and designed to streamline the TDM process for our oncology partners. Methods: Our development strategy was modeled based on the features associated with successful DSTs. An initial Requirements Analysis was performed to characterize tasks, information flow, user needs, and system requirements to enable push/pull from the EHR. Back-end development was coded based on the algorithm used when manually performing busulfan TDM. The code was independently validated in MATLAB using 10,000 simulated patient profiles. A 296-item heuristic checklist was used to guide design of the front-end user interface. Content experts and end-users (n = 28) were recruited to participate in traditional usability testing under an IRB approved protocol. Results: Decision support software was developed to systematically walk the point-of-care clinician through the TDM process. The system is accessed through the EHR which transparently imports all of the requisite patient data. Data are visually inspected and then curve fit using a model-dependent approach. Quantitative goodness-of-fit are converted to single tachometer where “green” alerts the user that the model is strong, “yellow” signals caution and “red” indicates that there may be a problem with the fitting. Override features are embedded to permit application of a model-independent approach where appropriate. Simulations are performed to target a desired exposure or dose as entered by the clinician and the DST pushes the user approved recommendation back into the EHR. Usability testers were highly satisfied with our DST and quickly became proficient with the software. Conclusions: With early and broad stake-holder engagement we developed a clinical DST for the non-pharmacologist. This tools affords our clinicians the ability to seamlessly transition from patient assessment, to pharmacokinetic modeling and simulation, and subsequent prescription order entry.
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spelling pubmed-48118992016-04-08 Design and Testing of an EHR-Integrated, Busulfan Pharmacokinetic Decision Support Tool for the Point-of-Care Clinician Abdel-Rahman, Susan M. Breitkreutz, Matthew L. Bi, Charlie Matzuka, Brett J. Dalal, Jignesh Casey, K. Leigh Garg, Uttam Winkle, Sara Leeder, J. Steven Breedlove, JeanAnn Rivera, Brian Front Pharmacol Pharmacology Background: Busulfan demonstrates a narrow therapeutic index for which clinicians routinely employ therapeutic drug monitoring (TDM). However, operationalizing TDM can be fraught with inefficiency. We developed and tested software encoding a clinical decision support tool (DST) that is embedded into our electronic health record (EHR) and designed to streamline the TDM process for our oncology partners. Methods: Our development strategy was modeled based on the features associated with successful DSTs. An initial Requirements Analysis was performed to characterize tasks, information flow, user needs, and system requirements to enable push/pull from the EHR. Back-end development was coded based on the algorithm used when manually performing busulfan TDM. The code was independently validated in MATLAB using 10,000 simulated patient profiles. A 296-item heuristic checklist was used to guide design of the front-end user interface. Content experts and end-users (n = 28) were recruited to participate in traditional usability testing under an IRB approved protocol. Results: Decision support software was developed to systematically walk the point-of-care clinician through the TDM process. The system is accessed through the EHR which transparently imports all of the requisite patient data. Data are visually inspected and then curve fit using a model-dependent approach. Quantitative goodness-of-fit are converted to single tachometer where “green” alerts the user that the model is strong, “yellow” signals caution and “red” indicates that there may be a problem with the fitting. Override features are embedded to permit application of a model-independent approach where appropriate. Simulations are performed to target a desired exposure or dose as entered by the clinician and the DST pushes the user approved recommendation back into the EHR. Usability testers were highly satisfied with our DST and quickly became proficient with the software. Conclusions: With early and broad stake-holder engagement we developed a clinical DST for the non-pharmacologist. This tools affords our clinicians the ability to seamlessly transition from patient assessment, to pharmacokinetic modeling and simulation, and subsequent prescription order entry. Frontiers Media S.A. 2016-03-30 /pmc/articles/PMC4811899/ /pubmed/27065859 http://dx.doi.org/10.3389/fphar.2016.00065 Text en Copyright © 2016 Abdel-Rahman, Breitkreutz, Bi, Matzuka, Dalal, Casey, Garg, Winkle, Leeder, Breedlove and Rivera. http://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) or licensor 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 Pharmacology
Abdel-Rahman, Susan M.
Breitkreutz, Matthew L.
Bi, Charlie
Matzuka, Brett J.
Dalal, Jignesh
Casey, K. Leigh
Garg, Uttam
Winkle, Sara
Leeder, J. Steven
Breedlove, JeanAnn
Rivera, Brian
Design and Testing of an EHR-Integrated, Busulfan Pharmacokinetic Decision Support Tool for the Point-of-Care Clinician
title Design and Testing of an EHR-Integrated, Busulfan Pharmacokinetic Decision Support Tool for the Point-of-Care Clinician
title_full Design and Testing of an EHR-Integrated, Busulfan Pharmacokinetic Decision Support Tool for the Point-of-Care Clinician
title_fullStr Design and Testing of an EHR-Integrated, Busulfan Pharmacokinetic Decision Support Tool for the Point-of-Care Clinician
title_full_unstemmed Design and Testing of an EHR-Integrated, Busulfan Pharmacokinetic Decision Support Tool for the Point-of-Care Clinician
title_short Design and Testing of an EHR-Integrated, Busulfan Pharmacokinetic Decision Support Tool for the Point-of-Care Clinician
title_sort design and testing of an ehr-integrated, busulfan pharmacokinetic decision support tool for the point-of-care clinician
topic Pharmacology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4811899/
https://www.ncbi.nlm.nih.gov/pubmed/27065859
http://dx.doi.org/10.3389/fphar.2016.00065
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