Innovate and Validate: Design-Led Simulation Optimization to Test Centralized Registration Feasibility in a Multispecialty Clinic.

IF 1.7 4区医学 Q3 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH

Herd-Health Environments Research & Design Journal Pub Date : 2024-07-01 Epub Date: 2024-04-02 DOI:10.1177/19375867241237504

Maryam Hosseini, Alice M Gittler, Michael Hoak, Jonathan Cogswell, Mohammad T Khasawneh

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引用次数: 0

Abstract

Objective: This study utilizes a design-led simulation-optimization process (DLSO) to refine a hybrid registration model for a free-standing outpatient clinic. The goal is to assess the viability of employing DLSO for innovation support and highlight key factors influencing resource requirements.

Background: Manual registration in healthcare causes delays, impacting patient services and resource allocation. This study addresses these challenges by optimizing a hybrid centralized registration and adopting technology for efficiency.

Method: An iterative methodology with simulation optimization was designed to test a proof of concept. Configurations of four and five registration options within a hybrid centralized system were explored under preregistration adoption rates of 30% and 50%. Three self-service kiosks served as a baseline during concept design and test fits.

Results: Centralized registration accommodated a daily throughput of 2,000 people with a 30% baseline preregistration rate. Assessing preregistration impact on seating capacity showed significant reductions in demand and floor census. For four check-in stations, a 30%-50% preregistration increase led to a 32% seating demand reduction and a 26% decrease in maximum floor census. With five stations, a 50% preregistration reduced seating demand by 23% and maximum floor census by 20%.

Conclusion: Innovating introduces complexity and uncertainties requiring buy-in from diverse stakeholders. DLSO experimentation proves beneficial for validating novel concepts during design.

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创新与验证：以设计为主导的模拟优化，测试多专科诊所集中挂号的可行性。

目的：本研究利用设计引导的模拟优化流程（DLSO）来完善独立门诊的混合挂号模式。目的是评估采用 DLSO 支持创新的可行性，并强调影响资源需求的关键因素：背景：医疗保健领域的人工挂号会造成延误，影响患者服务和资源分配。本研究通过优化混合集中登记和采用提高效率的技术来应对这些挑战：方法：设计了一种模拟优化的迭代方法来测试概念验证。在预登记采用率分别为 30% 和 50% 的情况下，对混合集中式系统中的四种和五种登记选项的配置进行了探讨。在概念设计和测试过程中，以三个自助服务亭为基准：结果：在 30% 的基线预登记率下，集中登记系统每天可容纳 2,000 人。在评估预登记对座位容量的影响时发现，需求量和地面人口普查都有显著减少。在四个报到站，30%-50% 的预登记率使座位需求减少了 32%，最大楼层人数减少了 26%。在五个站点中，50% 的预登记使座位需求减少了 23%，最大楼层人数减少了 20%：结论：创新带来了复杂性和不确定性，需要不同利益相关者的支持。事实证明，DLSO 实验有利于在设计过程中验证新概念。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Herd-Health Environments Research & Design Journal PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH-

CiteScore

4.10

自引率

22.70%

发文量