Development of a novel rapid response event review process for quality improvement.

INTRODUCTION: Rapid response team (RRT) and code activation events occur relatively commonly in inpatient settings. RRT systems have been the subject of a significant amount of analysis, although this has been largely focused on the impact of RRT system implementation and RRT events on patient outcomes. There is reason to believe that the structured assessment of RRT and code events may be an effective way to identify opportunities for system improvement, although no standardised approach to event analysis is widely accepted. We developed and refined a protocolised system of RRT and code event review, focused on sustainable, timely and high value event analysis meant to inform ongoing improvement activities. METHODS: A group of clinicians with expertise in process and quality improvement created a protocolised analytic plan for rapid response event review, piloted and then iteratively optimised a systematic process which was applied to all subsequent cases to be reviewed. RESULTS: Hospitalist reviewers were recruited and trained in a methodical approach. Each reviewer performed a chart review to summarise RRT events, and collect specific variables for each case (coding). Coding was then reviewed for concordance, at monthly interdisciplinary group meetings and 'Action Items' were identified and considered for implementation. In any 12-month period starting in 2021, approximately 12-15 distinct cases per month were reviewed and coded, offering ample opportunities to identify trends and patterns. CONCLUSION: We have developed an innovative process for ongoing review of RRT-Code events. The review process is easy to implement and has allowed for the timely identification of high value improvement opportunities.

Soluble CD80 restores T cell activation and overcomes tumor cell programmed death ligand 1-mediated immune suppression.

Many tumor cells escape anti-tumor immunity through their expression of programmed death ligand-1 (PDL1 or B7-H1), which interacts with T cell-expressed PD1 and results in T cell apoptosis. We previously reported that transfection of human tumor cells with a membrane-bound form of the human costimulatory molecule CD80 prevented PD1 binding and restored T cell activation. We now report that a membrane-bound form of murine CD80 similarly reduces PDL1-PD1-mediated suppression by mouse tumor cells and that a soluble protein consisting of the extracellular domains of human or mouse CD80 fused to the Fc domain of IgG1 (CD80-Fc) overcomes PDL1-mediated suppression by human and mouse tumor cells, respectively. T cell activation experiments with human and mouse tumor cells indicate that CD80-Fc facilitates T cell activation by binding to PDL1 to inhibit PDL1-PD1 interactions and by costimulating through CD28. CD80-Fc is more effective in preventing PD1-PDL1-mediated suppression and restoring T cell activation compared with treatment with mAb to either PD1 or PDL1. These studies identify CD80-Fc as an alternative and potentially more efficacious therapeutic agent for overcoming PDL1-induced immune suppression and facilitating tumor-specific immunity.