Tang Shengpu, Shepard Stephanie, Clark Rebekah, Ötles Erkin, Udegbunam Chidimma, Tran Josh, Seiler Melinda, Ortwine Justin, Waljee Akbar K, Nagel Jerod, Krein Sarah L, Kurlander Jacob E, Grant Paul J, Baang Jihoon, Wasylyshyn Anastasia, Rao Krishna, Wiens Jenna
Department of Computer Science, Emory College of Arts and Sciences, Emory University, Atlanta, Georgia.
Department of Electrical Engineering and Computer Science, Division of Computer Science and Engineering, University of Michigan College of Engineering, Ann Arbor.
JAMA Netw Open. 2025 Jun 2;8(6):e2515213. doi: 10.1001/jamanetworkopen.2025.15213.
Increasingly, artificial intelligence (AI) is being used to develop models that can identify patients at high risk for adverse outcomes. However, the clinical impact of these models remains largely unrealized.
To evaluate the association of an AI-guided infection prevention bundle with Clostridioides difficile infection (CDI) incidence in a hospital setting.
DESIGN, SETTING, AND PARTICIPANTS: This prospective, single-center quality improvement study evaluated adult inpatient hospitalizations before (September 1, 2021, to August 31, 2022) and after (January 1, 2023, to December 31, 2023) AI implementation. Data analysis was performed from January to August 2024.
A previously validated institution-specific AI model for CDI risk prediction was integrated into clinical workflows at the study site. The model was used to guide infection prevention practices for reducing pathogen exposure through enhanced hand hygiene and reducing host susceptibility through antimicrobial stewardship.
The primary outcome was CDI incidence rate. Secondary outcomes included antimicrobial use and qualitative assessments of bundle implementation.
Pre-AI and post-AI samples included 39 046 (21 645 [55.4%] female; median [IQR] age, 58 [36-70] years) and 40 515 (22 575 [55.7%] female; median [IQR] age, 58 [37-70] years) hospitalizations, respectively. After adjusting for differences in clinical characteristics, there was no significant reduction in CDI incidence (pre-AI period: 5.76 per 10 000 patient-days vs post-AI period: 5.65 per 10 000 patient-days; absolute difference, -0.11; 95% CI, -1.43 to 1.18; P = .85). Relative reductions greater than 10% in normalized antimicrobial days were seen for piperacillin-tazobactam (-9.64; 95% CI, -12.93 to -6.28; P < .001) and clindamycin (-1.04; 95% CI, -1.60 to -0.47; P = .03), especially for high-risk patients alerted by AI (relative reduction for piperacillin-tazobactam, 16.8%; 95% CI, 8.0%-24.6%). On the basis of qualitative assessments via semistructured interviews and field observations, the study found that health care staff's experiences with AI-guided workflows varied. In particular, the enhanced hand hygiene protocols were met with poor adherence, whereas pharmacists consistently engaged with the alerts.
In this quality improvement study, the implementation of an AI-guided infection prevention bundle was not associated with a significant reduction in the already low CDI incidence rate at the study site, but it was associated with reduced CDI-associated antimicrobial use. The results highlight the potential of AI in supporting antimicrobial stewardship. Barriers to implementation, including infrastructure, staff knowledge, and workflow integration, need to be addressed in future applications.
人工智能(AI)越来越多地被用于开发能够识别有不良结局高风险患者的模型。然而,这些模型的临床影响在很大程度上仍未实现。
评估人工智能指导的感染预防综合措施与医院环境中艰难梭菌感染(CDI)发生率之间的关联。
设计、设置和参与者:这项前瞻性、单中心质量改进研究评估了人工智能实施之前(2021年9月1日至2022年8月31日)和之后(2023年1月1日至2023年12月31日)的成人住院患者。数据分析于2024年1月至8月进行。
将一个先前经过验证的针对CDI风险预测的机构特定人工智能模型整合到研究地点的临床工作流程中。该模型用于指导感染预防措施,通过加强手部卫生减少病原体暴露,并通过抗菌药物管理减少宿主易感性。
主要结局是CDI发生率。次要结局包括抗菌药物使用情况以及对综合措施实施情况的定性评估。
人工智能实施前和实施后的样本分别包括39046例(21645例[55.4%]为女性;年龄中位数[四分位间距]为58[36 - 70]岁)和40515例(22575例[55.7%]为女性;年龄中位数[四分位间距]为58[37 - 70]岁)住院患者。在调整临床特征差异后,CDI发生率没有显著降低(人工智能实施前时期:每10000患者日5.76例 vs 人工智能实施后时期:每10000患者日5.65例;绝对差异为 -0.11;95%置信区间为 -1.43至1.18;P = 0.85)。哌拉西林 - 他唑巴坦(-9.64;95%置信区间为 -12.93至 -6.28;P < 0.001)和克林霉素(-1.04;95%置信区间为 -1.60至 -0.47;P = 0.0)的标准化抗菌天数相对减少超过10%,特别是对于人工智能提醒的高风险患者(哌拉西林 - 他唑巴坦相对减少16.8%;95%置信区间为8.0% - 24.6%)。基于通过半结构化访谈和现场观察进行的定性评估,研究发现医护人员对人工智能指导的工作流程的体验各不相同。特别是,加强手部卫生规程的依从性较差,而药剂师始终会关注这些提醒。
在这项质量改进研究中,实施人工智能指导的感染预防综合措施与研究地点本就较低的CDI发生率的显著降低无关,但与CDI相关抗菌药物使用的减少有关。结果凸显了人工智能在支持抗菌药物管理方面的潜力。在未来应用中需要解决实施障碍,包括基础设施、工作人员知识和工作流程整合等方面。
