959. Online CME Successful at Improving Knowledge, Competence and Confidence on Incorporating mAbs for COVID-19 Among a Global Audience

Abstract Background The incorporation of effective treatments is critical to improving patient care for COVID-19. We assessed the educational impact of a series of continuing medical education (CME) activities on knowledge, competence, and confidence changes in US and OUS physicians related to the use of monoclonal antibodies (mAbs) for COVID-19. Methods 10 online, CME-certified activities were delivered in multiple formats. For individual activities, educational effect was assessed with a repeated pairs pre-/post-assessment study including a 1 to 7-item, multiple choice, knowledge/competence questionnaire and one confidence assessment question. To assess changes in knowledge, competence, and confidence, data were aggregated across activities and stratified by learning theme. McNemar’s test or paired samples t-test (P< .05) assessed educational effect. The activities launched between November 2020 and May 2021; data were collected through May 2021. Results To date, the 10 activities have reached over 50,000 clinicians, including 24,627 physicians. Selected improvement/reinforcement in knowledge/competence measured as relative % change in correct responses pre/post education across the learning themes are reported. (i) 89% improvement/reinforcement among US ID specialists in knowledge/competence incorporating mAbs into patient care and 83% improvement among outside the US (OUS) ID specialists (P < .001). (ii) 70% improvement/reinforcement among US PCPs in knowledge/competence incorporating mAbs into patient care and 55% improvement among OUS PCPs (P < .001). (iii) 52% improvement/reinforcement in knowledge/competence among US PCPs regarding clinical data for mAbs and 44% among OUS PCPs (P < .001). (iv) 42% of US ID specialists and 29% of OUS ID specialists had a measurable improvement in confidence in identifying patients who would benefit from mAbs (P < .001). Conclusion This series of online, CME-certified educational activities resulted in significant improvements in knowledge, competence, and confidence regarding the appropriate use of mAbs for SARS-CoV-2 in clinical practice. These results demonstrate the effectiveness of global curriculum-based education for clinicians designed to address specific gaps in care. Disclosures All Authors: No reported disclosures

. Mean score of interns on pre-rotation vs post-rotation antimicrobial stewardship quiz from March 2020 to May 2021 (n=16; p=0.01). Table 1. Question topics and change in percentage correct on pre-rotation and post-rotation quizzes.

Conclusion.
A required one-week ID consult rotation for IM interns improved antimicrobial stewardship knowledge. Our experience may serve as a model for other institutions interested in increasing IM housestaff exposure to ID and antimicrobial stewardship.
Disclosures Background. The incorporation of effective treatments is critical to improving patient care for COVID-19. We assessed the educational impact of a series of continuing medical education (CME) activities on knowledge, competence, and confidence changes in US and OUS physicians related to the use of monoclonal antibodies (mAbs) for COVID-19.
Methods. 10 online, CME-certified activities were delivered in multiple formats. For individual activities, educational effect was assessed with a repeated pairs pre-/ post-assessment study including a 1 to 7-item, multiple choice, knowledge/competence questionnaire and one confidence assessment question. To assess changes in knowledge, competence, and confidence, data were aggregated across activities and stratified by learning theme. McNemar's test or paired samples t-test (P< .05) assessed educational effect. The activities launched between November 2020 and May 2021; data were collected through May 2021.
Results. To date, the 10 activities have reached over 50,000 clinicians, including 24,627 physicians. Selected improvement/reinforcement in knowledge/competence measured as relative % change in correct responses pre/post education across the learning themes are reported. (i) 89% improvement/reinforcement among US ID specialists in knowledge/competence incorporating mAbs into patient care and 83% improvement among outside the US (OUS) ID specialists (P < .001). (ii) 70% improvement/reinforcement among US PCPs in knowledge/competence incorporating mAbs into patient care and 55% improvement among OUS PCPs (P < .001). (iii) 52% improvement/reinforcement in knowledge/competence among US PCPs regarding clinical data for mAbs and 44% among OUS PCPs (P < .001). (iv) 42% of US ID specialists and 29% of OUS ID specialists had a measurable improvement in confidence in identifying patients who would benefit from mAbs (P < .001).
Conclusion. This series of online, CME-certified educational activities resulted in significant improvements in knowledge, competence, and confidence regarding the appropriate use of mAbs for SARS-CoV-2 in clinical practice. These results demonstrate the effectiveness of global curriculum-based education for clinicians designed to address specific gaps in care. Background. ID specialists often function as leaders of IPAC for healthcare systems, with variable training. Our graduates have noted feeling underprepared for this role despite completion of a computer-based training course on IPAC basics. We developed a 2-4 week IPAC elective (IPACe) rotation to address this gap to increase familiarity with key IPAC concepts, introduce learners to approaches to IPAC investigations, and develop understanding of common IPAC challenges and controversies.

Creation of an Infection Prevention and Control (IPAC) Elective for Infectious Disease (ID) Fellows
Methods. Methodology followed Kern's 6-step approach. A reading list focusing on key areas in infection prevention was developed. Instructional methods included flipped classroom, learner led discussions, performing tracers, and integration with the IPAC team. Key hospital processes including High Level Disinfection (HLD) and Sterile Processing Department (SPD) were reviewed in detail with and observed by learners. In addition to an IPACe, periodic required IPAC essay questions on realworld investigations as they arose were delivered to the learners. Learner Assessment: Learners were assessed on elements of IPAC consistent with the ACGME 6 core competencies at the end of their rotation. Program Assessment: Anonymous narrative feedback was solicited post rotation completion and at semi-annual program evaluations. Additionally, learners were asked to rate the elective on a 5 point Likert scale (1 lowest, 5 highest) and specific feedback was solicited for improvement. Finally, feedback was solicited from graduates in IPAC roles.
Results. 8 learners participated over from 2017-2021: 2 for 4 weeks, and 6 for 2 weeks. 4 of 8 surveys included a response to the questionnaire, all survey respondents (4/4) rated the elective 5: "rotation should be required of all trainees in the program. " Narrative assessments revealed the elective was highly valuable. Graduates reported feeling well-prepared after the IPACe for their roles as IPAC leaders. Highlights identified were: exposure to interdisciplinary teamwork, participation in tracers in identifying gaps, and using real-world IPAC challenges as cognitive frameworks for outbreak investigation.
Conclusion. An IPACe was highly valued by fellow learners and narrative assessments identified key areas for further focus.
Disclosures. All Authors: No reported disclosures