超越诊断连接:利用数字医疗技术实时收集和提供乌干达传染病的高质量可操作数据。

PLOS digital health Pub Date : 2024-08-23 eCollection Date: 2024-08-01 DOI:10.1371/journal.pdig.0000566
Dennis Mujuni, Julius Tumwine, Kenneth Musisi, Edward Otim, Maha Reda Farhat, Dorothy Nabulobi, Nyombi Abdunoor, Arnold Kennedy Tumuhairwe, Marvin Derrick Mugisa, Denis Oola, Fred Semitala, Raymond Byaruhanga, Stavia Turyahabwe, Moses Joloba
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引用次数: 0

摘要

从诊断仪器网络到卫生部中央数据库的自动数据传输不仅可以提供诊断仪器性能的实时优质数据,还可以提供持续的疾病监测和患者护理数据。我们旨在分享当地开发的新型诊断连接解决方案如何在 2022 年 5 月至 2023 年 5 月期间将诊断仪器的可操作数据传输到乌干达的国家疾病控制仪表板。诊断连接解决方案已成功配置在乌干达 260 个地点的多路复用诊断仪器网络上,提供分层数据访问。其中,从 269 台 "GeneXpert "机器上自动收集了 909674 项检测结果,从 28 台 "Truenat "机器上自动收集了 5597 项检测结果,从 3 台数字 X 光设备上自动收集了超过 12000 项检测结果,并将这些数据提供给不同级别的利益攸关方,以确保数据的最佳使用达到预期目的。政府和相关利益攸关方可以从诊断仪器中获得可用和可操作的数据。诊断连接解决方案的成功实施取决于一些关键的业务战略,即:持续的互联网连接和短信服务、利益攸关方的参与、强大的国内实验室协调网络、人力资源能力建设、建立诊断仪器网络以及与现有卫生数据收集工具的整合。某些地点带宽不足是成功实施连接解决方案的主要障碍。在临床层面保持利益相关者的参与是保持诊断数据连通性的关键。本地开发的诊断连接解决方案作为一种数字医疗技术,为收集疾病控制方面的一些参数的高质量数据(包括误差分析)提供了机会,从而提高了从联网诊断站点向相关利益攸关方提供的数据的质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Beyond diagnostic connectivity: Leveraging digital health technology for the real-time collection and provision of high-quality actionable data on infectious diseases in Uganda.

Automated data transmission from diagnostic instrument networks to a central database at the Ministries of Health has the potential of providing real-time quality data not only on diagnostic instrument performance, but also continuous disease surveillance and patient care. We aimed at sharing how a locally developed novel diagnostic connectivity solution channels actionable data from diagnostic instruments to the national dashboards for disease control in Uganda between May 2022 and May 2023. The diagnostic connectivity solution was successfully configured on a selected network of multiplexing diagnostic instruments at 260 sites in Uganda, providing a layered access of data. Of these, 909,674 test results were automatically collected from 269 "GeneXpert" machines, 5597 test results from 28 "Truenat" and >12,000 were from 3 digital x-ray devices to different stakeholder levels to ensure optimal use of data for their intended purpose. The government and relevant stakeholders are empowered with usable and actionable data from the diagnostic instruments. The successful implementation of the diagnostic connectivity solution depended on some key operational strategies namely; sustained internet connectivity and short message services, stakeholder engagement, a strong in-country laboratory coordination network, human resource capacity building, establishing a network for the diagnostic instruments, and integration with existing health data collection tools. Poor bandwidth at some locations was a major hindrance for the successful implementation of the connectivity solution. Maintaining stakeholder engagement at the clinical level is key for sustaining diagnostic data connectivity. The locally developed diagnostic connectivity solution as a digital health technology offers the chance to collect high-quality data on a number of parameters for disease control, including error analysis, thereby strengthening the quality of data from the networked diagnostic sites to relevant stakeholders.

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