medAL-suite: A software solution for creating and deploying complex clinical decision support algorithms.

IF 3.3 3区医学 Q2 MEDICAL INFORMATICS

BMC Medical Informatics and Decision Making Pub Date : 2025-07-04 DOI:10.1186/s12911-025-03077-6

Ludovico Gennaro Cobuccio, Vincent Faivre, Rainer Tan, Alan Vonlanthen, Fenella Beynon, Emmanuel Barchichat, Alain Fresco, Quentin Girard, Sinan Ucak, Sylvain Schaufelberger, Ibrahim Evans Mtebene, Peter Agrea, Emmanuel Kalisa, Gillian A Levine, Martin Norris, Sabine Renggli, Alix Miauton, Lisa Cleveley, Kristina Keitel, Julien Thabard, Valérie D'Acremont, Alexandra V Kulinkina

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引用次数: 0

Abstract

Background: Sub-optimal healthcare quality in low-resource settings is attributed in part to poor adherence to clinical guidelines. Clinical decision support systems (CDSS) help to integrate guideline-based algorithms into logical workflows and improve adherence to evidence-based recommendations, and hence quality of care. However, the process of translating paper-based guidelines into electronic algorithmic formats is often complex, inefficient, expensive, and error-prone due to reliance on advanced software development skills and clinical knowledge.

Methods: In response to these challenges, we developed open-source software called the Medical Algorithm Suite (medAL-suite), consisting of four components, with a primary goal of increasing efficiency, accuracy, and transparency of CDSS creation by giving experienced clinicians, rather than software developers, greater control over the process. At the heart of the software suite is the medAL-creator that allows clinicians to design algorithms using a code-free drag-and-drop interface. Algorithms are subsequently automatically deployed in medAL-reader to service level clinicians in health facilities. CDSS implementers use medAL-data and medAL-hub to manage configuration, versioning, and deployment.

Results: Since its development, the medAL-suite has been used to digitalize complex primary care guidelines and deployed in large-scale clinical studies in Tanzania, Rwanda, Kenya, Senegal, and India, leading to notable outcomes such as the reduction of inappropriate antibiotic prescriptions and improvement in care quality. Over 300,000 pediatric outpatient consultations have been completed in Rwanda and Tanzania to date using the digital algorithm.

Discussion: The medAL-suite focused on democratized development, process-centric design, point-of-care utility, touch-screen interface, low cost, and low power consumption to contribute to sustainable digital systems in low-resource settings. Important future developments and adaptations as the software evolves should emphasize interoperability and scalability, primarily via integrating CDSS functionality into electronic medical records for a streamlined user experience that supports improved service quality at the point-of-care.

Clinical trial number: Not applicable.

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medAL-suite：用于创建和部署复杂临床决策支持算法的软件解决方案。

背景：低资源环境下的医疗保健质量次优部分归因于临床指南的依从性差。临床决策支持系统（CDSS）有助于将基于指南的算法整合到逻辑工作流程中，并提高对循证建议的依从性，从而提高护理质量。然而，由于依赖于先进的软件开发技能和临床知识，将基于纸张的指南转换为电子算法格式的过程通常是复杂、低效、昂贵且容易出错的。方法：为了应对这些挑战，我们开发了名为Medical Algorithm Suite （medAL-suite）的开源软件，该软件由四个组件组成，其主要目标是通过让有经验的临床医生（而不是软件开发人员）更好地控制流程，提高CDSS创建的效率、准确性和透明度。该软件套件的核心是奖章创建者，它允许临床医生使用无代码拖放界面设计算法。随后，算法被自动部署到奖章阅读器中，提供给卫生机构的服务级别临床医生。CDSS实现者使用medAL-data和medAL-hub来管理配置、版本控制和部署。结果：自开发以来，medAL-suite已被用于将复杂的初级保健指南数字化，并在坦桑尼亚、卢旺达、肯尼亚、塞内加尔和印度的大规模临床研究中得到部署，取得了显著成果，如减少了不适当的抗生素处方和提高了护理质量。迄今为止，卢旺达和坦桑尼亚已使用该数字算法完成了30多万次儿科门诊咨询。讨论：medal套件侧重于民主化开发、以流程为中心的设计、护理点实用程序、触摸屏界面、低成本和低功耗，以促进低资源环境下可持续的数字系统。随着软件的发展，未来的重要发展和调整应强调互操作性和可扩展性，主要是通过将CDSS功能集成到电子病历中，以简化用户体验，从而支持提高医疗点的服务质量。临床试验号：不适用。

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

BMC Medical Informatics and Decision Making 医学-医学：信息

CiteScore

7.20

自引率

5.70%

发文量

297

审稿时长

1 months

期刊介绍： BMC Medical Informatics and Decision Making is an open access journal publishing original peer-reviewed research articles in relation to the design, development, implementation, use, and evaluation of health information technologies and decision-making for human health.