新京报讯（记者戴轩）北京目前已建成474处院前医疗急救工作站点，覆盖16个区和北京经济技术开发 区。日前，北京急救中心启动迁建扩容，急救站点位置不变。 2024年，北京市日均院前急救值班车组数为780个，较5年前增加了74.50%；全市120受理急救电话90.38 万人次、出车89.47万车次，较5年前分别增长了50.47%、62.01%；急救呼叫满足率达到99.99%，平均急 救反应时间缩短至12分钟以内。 北京急救中心负责人表示，中心迁建后，全市原有急救站点和人员不变，不会影响救护车的派出和急救 服务的快速响应。 目前中心迁建项目已启动。扩容后的120调度坐席数量将增至120个，数字化系统功能全面升级，调度指 挥效能更加优化。同时，"智慧急救"顶层设计将落地，运用大数据、人工智能、区块链等信息技术，建 成集医疗急救调度指挥、远程视频医学指导市民参与急救、公共卫生应急信息协同处理等功能于一体的 智慧急救中枢。 在社会综合应急能力建设方面，新址将规划专门的教学培训空间，增设涵盖日常创伤处置、事故灾难应 对等场景的社会化实景应急训练区域，结合实际需求定期组织实战演练，有助于提升公众急救知识的普 及水平。 北京是 ...

具体来看，条例注重理顺体制机制，形成工作合力。条例明晰了政府、有关部门和单位的职责，理顺急 救中心、急救站和承担院前医疗急救任务的其他医疗机构之间的权责关系，促进有关方面协同配合，确 保院前医疗急救工作有效运行、有序发展；推动与长三角区域以及其他相邻省、市建立院前医疗急救协 同机制，建立应对化工园区灾害、海上事故等医疗救治与转运工作协调机制。 "坚持问题导向，务求管用实用。条例从浙江院前医疗急救工作的实际出发，针对区域和城乡发展不平 衡、政策保障力度不足、急救人才队伍不够稳定、急救站点设置有待完善、公众急救知识普及率不高等 问题，对科学规划布局急救站点、健全急救体系、完善急救管理、促进社会参与、加强保障措施等方面 作了全面具体规定，以'小切口''小快灵'的立法方式解决院前医疗急救工作中存在的具体问题，可操作 性强，管用实用。"田梦海介绍。 此外，条例还从浙江省院前医疗急救工作的实际出发，作出了一些具有浙江辨识度的创新规定。例如， 针对交通不便的山区、海岛等地区院前医疗急救网络无法有效覆盖的问题，建立健全巡回诊疗车承担院 前医疗急救任务的制度；规定浙江省卫生健康主管部门建立健全全省统一的"浙里急救"院前医疗急救 ...

Core Viewpoint - The integration of AI and 5G technology into the pre-hospital emergency medical system in Shandong is enhancing the efficiency and quality of emergency responses, ultimately improving patient outcomes and healthcare delivery [1][6]. Group 1: Emergency Medical System Enhancement - Shandong Mobile is actively implementing the "Health Shandong" strategy by incorporating advanced AI capabilities into the 5G+ pre-hospital emergency medical system, aiming to strengthen local emergency response capabilities [1]. - A new smart emergency rescue platform is being developed to improve the command and dispatch efficiency of the 120 emergency service, utilizing various positioning technologies for rapid and accurate patient location [2][3]. - The system integrates emergency resource information, including the distribution and status of emergency vehicles and the capacity of hospital emergency departments, to optimize resource allocation through data analysis and intelligent algorithms [2]. Group 2: Real-time Data Transmission and Coordination - The platform enhances the connectivity between pre-hospital emergency services and in-hospital emergency departments, allowing real-time transmission of patient vital signs and treatment data during transport [3][4]. - Upgraded ambulances equipped with 5G technology enable efficient communication between the ambulance, command center, and hospitals, ensuring timely information transfer and accurate execution of commands [4]. - The use of 5G remote monitoring and video consultation capabilities allows hospital experts to provide real-time guidance to on-site medical personnel, significantly improving treatment efficiency and success rates [4]. Group 3: Future Developments and Goals - Shandong Mobile aims to continue integrating 5G and AI technologies into emergency medical services, enhancing the intelligent level of pre-hospital care and optimizing resource utilization [6]. - The company is committed to making the "onboard to hospital" model more accessible to the public, contributing to the broader vision of a "Healthy China" [6].

Core Insights - The Shanghai Medical Emergency Center has experienced a significant increase in emergency calls and ambulance dispatches due to the recent heatwave, with a 5.15% rise in call volume to 158,000 and a 10.26% increase in ambulance dispatches to 70,800 compared to the same period last year [1][2] - The center has implemented measures to enhance emergency response capabilities, including increasing standby vehicles and medical supplies to meet the demands of high temperatures [3][6] - The training and development of emergency medical personnel have been prioritized, with a focus on standardized training and the establishment of a talent pipeline for emergency medical professionals [6][8] Emergency Response Operations - The emergency dispatch center operates with a structured schedule, ensuring adequate staffing even during meal breaks, with 22 personnel on duty [2] - Real-time monitoring by secondary doctors enhances the quality of emergency response, allowing for better decision-making during chaotic situations [2][3] - The center has adapted to the rising number of non-emergency calls, urging the public to use emergency resources judiciously [12] Training and Development - The Shanghai Medical Emergency Center has initiated a standardized training program for emergency medical personnel, with 89 doctors selected for training from 2021 to 2024 [6][8] - The center has also launched a free undergraduate training program for emergency medical professionals, attracting significant interest from students [6][8] - Public training initiatives have resulted in over 15,000 individuals receiving emergency response training in the past five years [11] Community Engagement - The center emphasizes the importance of public participation in emergency response, aiming to create a community that is prepared to act in emergencies [9][11] - Successful case studies of public involvement in emergency situations have been highlighted, showcasing the effectiveness of community training [10][11] - The center continues to collaborate with various organizations to enhance the overall emergency response framework in Shanghai [11][12]

Core Viewpoint - The low-altitude economy is increasingly penetrating the medical field, particularly in emergency rescue scenarios, with various regions actively developing "low-altitude + rescue" applications to enhance medical response times for critical patients [1][2]. Group 1: Low-altitude Medical Applications - Regions such as Shanghai, Zhejiang, and Chongqing are creating medical application scenarios for low-altitude logistics, aiming to deliver life-saving medications to critical patients and prepare for rapid patient transfers during emergencies [1]. - Timely administration of thrombolytic drugs is crucial for patients with acute myocardial infarction and stroke, with critical time windows of approximately 2 hours and 4.5 hours, respectively [1]. Group 2: Drone Logistics Development - Chongqing has launched a regular drone delivery route for emergency medical supplies, significantly reducing delivery time by about half compared to ground transport [1]. - The Sichuan government is establishing an emergency low-altitude logistics transport center centered in Ya'an, covering the entire Sichuan region, highlighting the potential for emergency drug transport in mountainous and remote areas [2]. Group 3: AI Integration and Challenges - The integration of AI technology in drones is being explored to enhance safety by predicting micro-weather conditions during flights, addressing challenges such as variable weather [2]. - By 2035, it is projected that approximately 26 million drones will operate commercially below 3,000 meters, necessitating real-time air and weather data to mitigate risks during flights [2]. Group 4: Emergency Medical Network - Successful trial flights of emergency rescue drones mark a significant advancement in the capability to connect on-site rescue operations with backend medical facilities, filling a gap in the country's emergency response capabilities [3]. - A network of hospitals in Shanghai, many equipped with helicopter landing pads, could enhance medical emergency response across the city and the Yangtze River Delta region [3]. - The development of the low-altitude economy requires a four-dimensional model involving AI innovation, supply chain collaboration, capital empowerment, and policy support to establish a global competitive edge [3].