Use of the IPRISM Webtool in a Learning Community to Assess Implementation Context and Fit of a Novel Clinical Decision Support Tool for Physical Therapy Triage in Acute Care Hospitals

Overview

Journal PM R

Publisher Wiley

Specialties Emergency Medicine
Rehabilitation Medicine

Date 2024 Jun 27

PMID 38934486

Authors

Joshua K Johnson

Jennifer L Sullivan

Katy E Trinkley

Brittany Lapin

Sandra Passek

Valerie Asp

Bryan Ford

Borsika A Rabin

Affiliations

Soon will be listed here.

Abstract

Background: The iPRISM webtool is an interactive tool designed to aid the process of applying the Practical, Robust Implementation and Sustainability Model (PRISM) for the assessment of and fit with context. A learning community (LC) is a multidisciplinary group of partners addressing a complex problem. Our LC coproduced the Physical TheraPy frEqueNcy Clinical decIsion support tooL (PT-PENCIL) to guide the use of physical therapist services in acute care hospitals.

Objective: To describe our LC's activities to co-produce the PT-PENCIL, use of the iPRISM webtool to assess its preimplementation context and fit, and develop a multicomponent implementation strategy for the PT-PENCIL.

Design: A descriptive research design.

Setting: Three tertiary care hospitals.

Participants: Thirteen LC partners: six clinical physical therapists, three rehabilitation managers, three researchers, and a bioinformaticist.

Interventions: Not applicable.

Outcome Measures: Using the iPRISM webtool, expected fit of the PT-PENCIL was rated 1 (not aligned) to 6 (well aligned) for each PRISM domain and expected reach, effectiveness, adoption, implementation, and maintenance were rated 1 (not likely at all) to 6 (very likely). Discrete implementation strategies were identified from the Expert Recommendations for Implementing Change.

Results: The process spanned 18 meetings over 8 months. Ten LC partners completed the iPRISM webtool. PRISM domains with the lowest expected alignment were the "implementation and sustainability infrastructure" (mean = 4.7 out of 6; range = 3-6) and the "external environment" (mean = 4.9 of 6; range = 4-6). Adoption was the outcome with the lowest expected likelihood (mean = 4.5 out of 6; range = 1-6). Six discrete implementation strategies were identified and combined into a multicomponent strategy.

Conclusions: Within a LC, we used existing implementation science resources to co-produce a novel clinical decision support tool for acute care physical therapists and develop a strategy for its implementation. Our methodology can be replicated for similar projects given the public availability of each resource used.

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