Designing for Patient Safety and Efficiency: Simulation-Based Hospital Design Testing
Autor: | Mary Bond Edmond, Kiran Hebbar, Ashley Dalpiaz, David C. Miller, Nora Colman, Sarah Walter |
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Rok vydání: | 2020 |
Předmět: |
Quality management
Computer science Public Health Environmental and Occupational Health Schematic 030208 emergency & critical care medicine Efficiency Organizational Hospitals Pediatric Critical Care and Intensive Care Medicine Reliability engineering Hospital design Models Structural Personnel Hospital Design phase 03 medical and health sciences Patient safety 0302 clinical medicine Humans Hospital Design and Construction Patient Safety Prospective Studies 030212 general & internal medicine Simulation based |
Zdroj: | HERD: Health Environments Research & Design Journal. 13:68-80 |
ISSN: | 2167-5112 1937-5867 |
DOI: | 10.1177/1937586720921777 |
Popis: | Objective: In the schematic design phase of a new freestanding children’s hospital, Simulation-based Hospital Design Testing (SbHDT) was used to evaluate the proposed design of 11 clinical areas. The purpose of this article is to describe the SbHDT process and how it can help identify and mitigate safety concerns during the facility design process. Background: In the design of new healthcare facilities, the ability to mitigate risk in the preconstruction period is imperative. SbHDT in a full-scale cardboard mock-up can be used to proactively test the complex interface between people and the built environment. Method: This study was a prospective investigation of SbHDT in the schematic design planning phase for a 400-bed freestanding children’s hospital where frontline staff simulated episodes of care. Latent conditions related to design were identified through structured debriefing. Failure mode and effect analysis was used to categorize and prioritize simulation findings and was used by the architect team to inform design solutions. A second round of testing was conducted in order to validate design changes. Results: A statistically significant reduction in criticality scores between Round 1 ( n = 201, median = 16.14, SD = 5.8) and Round 2 ( n = 201, median score of 7.68, SD = 5.26, p < .001) was identified. Bivariate analysis also demonstrated a statistically significant reduction in very high/high criticality scores between Round 1 and Round 2. Conclusions: SbHDT in the schematic phase of design planning was effective in mitigating risk related to design prototypes through effective identification of latent conditions and validation of design changes. |
Databáze: | OpenAIRE |
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