ObjectiveTo develop an operating room intelligent collaborative management system, define its intelligent auxiliary role for nursing teams, and evaluate its efficacy in process optimization, efficiency improvement, and clinical acceptance.MethodsGuided by standards like the Guidelines for Operating Room Nursing Practice, five position-mapped agents (scheduling, resource, early warning, quality control, interaction) were designed. The system integrates a Graph RAG-based knowledge engine, MindsDB-powered AutoML prediction engine, and an innovative function to automatically construct/visualize knowledge graphs from uploaded nursing documents, with a user-friendly human-machine interface adapted to operating room settings. Simulated scenario tests and a 5-point Likert scale survey (86 medical staff) were conducted.ResultsThe system achieved success rates of 95.0% (resource conflicts), 90.0% (emergency insertion), 85.0% (equipment failures), and 90.0% (special coordination), with average solution generation time of 22.3–41.6 s. Overall nursing satisfaction was (4.32 ± 0.51) points, with top scores in “process optimization perception” (4.40 ± 0.48) and “decision support value” (4.35 ± 0.52).ConclusionIntegrating knowledge-driven and data-driven intelligence, the system enables automatic knowledge graph construction and updates. As an effective digital assistant for nursing collaboration, its nurse-centric, operating room-adapted design has gained wide clinical recognition, offering a human-machine collaboration solution for intelligent nursing management.
Kalmer, a specific based-App intervention for the treatment of Non-suicidal self-injury (NSSI): a technical and usability study in a non-clinical population
IntroductionNon-suicidal self-injury (NSSI), defined as the deliberate infliction of harm to oneself without suicidal intent, poses a significant and growing mental health concern worldwide, particularly