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Pisani M, Oguss MK, Dickson-Gomez J, Kostelac C, Parry A, Moss SH, Salisbury-Afshar E, Patterson BW, Spigner MF, Gussick M, Krautkramer A, Gruenloh T, Safipour Afshar A, Gupta P, Mayampurath A, Afshar M
Designing a Substance Misuse Data Dashboard for Overdose Fatality Review Teams: User-Centered Design Approach
Warning: This is an author submission that is not peer-reviewed or edited. Preprints - unless they show as "accepted" - should not be relied on to guide clinical practice or health-related behavior and should not be reported in news media as established information.
Designing a Substance Misuse Data Dashboard for Overdose Fatality Review Teams
Marie Pisani;
Madeline K Oguss;
Julia Dickson-Gomez;
Constance Kostelac;
Amy Parry;
Starr H Moss;
Elizabeth Salisbury-Afshar;
Brian W Patterson;
Michael F Spigner;
Megan Gussick;
Alison Krautkramer;
Tim Gruenloh;
Askar Safipour Afshar;
Preeti Gupta;
Anoop Mayampurath;
Majid Afshar
ABSTRACT
Background:
Overdose Fatality Review (OFR) is a public health process in which cases of fatal overdose are carefully reviewed to identify prevention strategies. Current OFR requires review of multiple unconnected data sources, which is a manually intensive process.
Objective:
We aimed to use human factors design principles to develop a comprehensive dashboard that could facilitate enhanced processes to support OFR.
Methods:
We first surveyed OFR leaders in Wisconsin using the NASA Task Load Index (NASA-TLX) and conducted semi-structured interviews to identify targets for workflow optimization. Next, we developed a prototype dashboard for evaluation using a synthetic dataset built with Generative Pre-Trained Transformer (GPT-4). We subsequently performed iterative design sessions with heuristic evaluations, and end-user feedback on the final prototype was obtained via targeted surveys and semi-structured interviews.
Results:
The NASA-TLX revealed a moderately high mental workload with the current workflow. Interviews affirmed that technological challenges and reliance on manual processes were contributory. The prototype dashboard addressed these concerns by integrating multiple data sources to generate population-level visualizations and patient-level event timelines. End-users reported the potential for improved efficiency and data accessibility compared to antecedent processes.
Conclusions:
OFR is a data-intensive process that traditionally demands substantial manual effort. The data dashboard offers an informatics-based approach to streamline data aggregation and presentation, potentially enhancing the efficiency of case reviews. Implementing a dashboard that consolidates and visualizes disparate data sources has the potential to alleviate the manual workload in overdose fatality review.
Citation
Please cite as:
Pisani M, Oguss MK, Dickson-Gomez J, Kostelac C, Parry A, Moss SH, Salisbury-Afshar E, Patterson BW, Spigner MF, Gussick M, Krautkramer A, Gruenloh T, Safipour Afshar A, Gupta P, Mayampurath A, Afshar M
Designing a Substance Misuse Data Dashboard for Overdose Fatality Review Teams: User-Centered Design Approach