Your browser doesn't support javascript.
loading
Show: 20 | 50 | 100
Resultados 1 - 7 de 7
Filtrar
Más filtros

Banco de datos
Idioma
Tipo del documento
Publication year range
1.
Artículo en Zh | WPRIM | ID: wpr-996057

RESUMEN

Medical homogenization in multi-campus hospital plays an essential role in leveraging the advantages of public hospitals, promoting the expansion of high-quality medical resources and balancing regional layout. The Second Affiliated Hospital Zhejiang University School of Medicine deeply used digital intelligence technology to build a new integrated mobile health service system consisting of internet hospital and 5G intelligent applications, which empowered medical efficiency in multi-campus hospital. This system broke the limitations of inconsistent medical resources, unbalanced discipline layout, and insufficient information connectivity in the construction of multi-campus hospitals, and achieved remarkable results in practice. It could provide reference for the multi-campus construction of other large public hospitals.

2.
Artículo en Zh | WPRIM | ID: wpr-1018931

RESUMEN

Objective:To design a large-scale mobile emergency resuscitation unit based on 5G communication technology to improve the efficiency of prehospital transportation and treatment.Methods:The study was conducted in Hangzhou from November 2022 to September 2023. It's sorted out the application scenario requirements for prehospital first aid, transfer, and prehospital-intrahospital emergency linkage in carrying out the program design, single technology testing, onboard debugging, and integration debugging phases sequentially.Results:In September 2023, a large-scale 5G mobile emergency resuscitation unit was completed and delivered. The unit was converted from an electric bus and consists of five parts: (1) Vehicle appearance: the vehicle is 12.9 meters long, 2.3 meters wide and 2.6 meters high, with a single mileage of 200 kilometers; (2) The overall internal structure: the vehicle has one resuscitation bed and two stretcher positions. Additionally, there is a comprehensive operating table located at the front of the vehicle. The middle of the vehicle is equipped with a central digital control screen. (3) First aid materials and instruments: the vehicle's materials are modularly configured in accordance with the resuscitation, guardianship, surgery, inspection and testing, Communication modular configuration, equipped with a defibrillation monitor, transfer ventilator, extracorporeal membrane lung oxygenation and other critical care first aid and electrocardiogram, digital radiography, blood gas analyzer, chest pain 5 monitors and other inspection and testing equipment; (4) Vehicle communication and information systems: equipped with high-definition remote video interactive system, telemedicine terminal DP300 integrated system, a real-time panoramic experience system and centralized guardianship system; (5) Vehicle disinfection: a plasma disinfector installed on the top of the car can meet the hospital disinfection hygiene standardsⅡ class environmental management requirements.Conclusions:Incorporating 5G communication technology, the large-scale mobile emergency resuscitation unit is equipped with various advanced treatment equipment and remote consultation systems. It can accommodate the resuscitation needs of the most critically ill patients, offering substantial support for public emergency rescues. Further exploration of its potential is merited.

3.
Artículo en Zh | WPRIM | ID: wpr-907746

RESUMEN

Objective:To explore the feasibility and effectiveness of the construction of urban unmanned aerial vehicle (UAV) blood distribution system, and to provide a novel way for the distribution of emergency blood.Methods:The study was completed in Hangzhou from April 2019 to January 2021, and the main participants were from the Second Affiliated Hospital of Zhejiang University School of Medicine, Zhejiang Province Blood Center and Hangzhou Fast Ant Network Technology Co., Ltd. Firstly, an unmanned aircraft delivery system was built for urban emergency blood and a special blood storage box for drones were developed. The drone was used to deliver blood products from Zhejiang Province Blood Center to Binjiang Campus, the Second Affiliated Hospital of Zhejiang University School of Medicine, and the following indicators were obtained: (1) flight time of the drone blood delivery; (2) real-time temperature of blood products during transportation; (3) Baidu map software was used to measure the blood delivery time of road traffic, which was compared with the flight time of the drone.Results:The urban drone blood delivery system consists of intelligent logistics drones, cryogenic blood storage tanks, unmanned logistics hub stations, and cloud-based operation control platforms. The drone route distance from Zhejiang Provincial Blood Center to Binjiang Campus, the Second Affiliated Hospital of Zhejiang University School of Medicine was 2.36±0.06 km, and the ground distance was 5.8 km, with 27 flights from April 12, 2019 to January 29, 2021, and the drone flight time was, shorter than the road travel time for a round trip [(6.37±0.35) min vs. (17.00±1.94) min]. At different time points of the day, UAV blood delivery could save 15.98-4.28 min, with an average saving of 10.62±1.87 min. Conclusions:Urban UAV blood delivery systems have the advantages of being fast, unaffected by ground traffic conditions, and can ensure the safety of blood products during transportation, and are worthy of further exploration.

4.
Artículo en Zh | WPRIM | ID: wpr-907767

RESUMEN

Objective:To explore the new generation of intelligent ICU Unit based on 5G and artificial intelligence technology.Methods:This study was conducted at the Second Affiliated Hospital, Zhejiang University School of Medicine from May 2019 to August 2020. Based on a multidisciplinary team including medical, nursing, hospital management, clinical medical engineering, 5G technology, information technology, artificial intelligence technology, logistics service, etc, was assembled to intelligently design and reconstruct an intelligent ICU Unit of Emergency ICU.Results:Based on 5G technology, a new intelligent ICU unit environment was constructed to realize remote and high-speed interaction of multi-dimensional information in ICU, including intelligent assistance of remote monitoring, remote ward rounds, remote consultation and family visits. An intelligent hospital infection prevention and control system was established including automatic identification and alarm of hand hygiene and personal protection.Conclusions:The new generation of intelligent ICU unit combined with 5G and artificial intelligence technology has changed the mode of medical service for critically ill patients and improved the service level, which is worthy of further exploration and application.

5.
Artículo en Zh | WPRIM | ID: wpr-789200

RESUMEN

Objective To explore a new platform for pre-hospital and in-hospital emergency medical services based on a new generation of 5G communication technology,providing a basis for further improving the level of emergency medical services.Methods This study was conducted at the Second Affiliated Hospital of Zhejiang University School of Medicine from October 2017 to April 2019.Based on the latest requirements of emergency medical services at home and abroad,the cross-enterprise and multi-disciplinary technical forces were organized to build platform.Firstly,to determine the process of pre-hospital and in-hospital emergency medical services,various modules and technical routes were constructed under 5G conditions and individual technologies were tested one by one.Then they were gradually integrated into two platforms of ambulance and hospital emergency.Finally,the simulation test is carried out under the support of the whole 5G network.Results The pre-hospital and in-hospital emergency medical service platform based on 5G technology comprises of 5G ambulance,5G panoramic VR real-time display system,5G remote ultrasonic examination system,medical drone system,and 5G emergency command platform.5G ambulance contains medical equipments such as multi-function monitor,ventilator,defibrillation monitor,portable B-ultrasound,high-definition remote video interactive system based on 5G network,VR immersive real-time panoramic experience system,and GPS positioning system.5G panoramic VR real-time display system includes VR panoramic camera and VR glasses.The wearer with VR glasses can view the real-time situation on the ambulance,which makes a preliminary judgment on the patient's condition and provides rescue guidance.5G remote ultrasonic examination system integrates robot technology,real-time remote control technology,and ultrasonic imaging technology.The specialist can control the movement of the ultrasonic probe set on the 5G ambulance by manipulating the mechanical arm.The patient's image and color super-picture can also be simultaneously returned to the specialist.The medical drone system enables the medical resources to be allocated in the shortest possible time through the 5G networked drones,so as to eliminate the delay caused by traffic congestion.5G emergency command platform can integrate,transmit,and display data from multiple sources and forms through web pages in assistance of AI and intemet of things.Conclusions The new platform for pre-hospital and in-hospital emergency medical services based on 5G technology can realize more fluent information exchange in pre-hospital and in-hospital,and realize the functions that are difficult to achieve under the previous network conditions.

6.
Artículo en Zh | WPRIM | ID: wpr-796618

RESUMEN

Objective@#To explore a new platform for pre-hospital and in-hospital emergency medical services based on a new generation of 5G communication technology, providing a basis for further improving the level of emergency medical services.@*Methods@#This study was conducted at the Second Affiliated Hospital of Zhejiang University School of Medicine from October 2017 to April 2019. Based on the latest requirements of emergency medical services at home and abroad, the cross-enterprise and multi-disciplinary technical forces were organized to build platform. Firstly, to determine the process of pre-hospital and in-hospital emergency medical services, various modules and technical routes were constructed under 5G conditions and individual technologies were tested one by one. Then they were gradually integrated into two platforms of ambulance and hospital emergency. Finally, the simulation test is carried out under the support of the whole 5G network.@*Results@#The pre-hospital and in-hospital emergency medical service platform based on 5G technology comprises of 5G ambulance, 5G panoramic VR real-time display system, 5G remote ultrasonic examination system, medical drone system, and 5G emergency command platform. 5G ambulance contains medical equipments such as multi-function monitor, ventilator, defibrillation monitor, portable B-ultrasound, high-definition remote video interactive system based on 5G network, VR immersive real-time panoramic experience system, and GPS positioning system. 5G panoramic VR real-time display system includes VR panoramic camera and VR glasses. The wearer with VR glasses can view the real-time situation on the ambulance, which makes a preliminary judgment on the patient's condition and provides rescue guidance. 5G remote ultrasonic examination system integrates robot technology, real-time remote control technology, and ultrasonic imaging technology. The specialist can control the movement of the ultrasonic probe set on the 5G ambulance by manipulating the mechanical arm. The patient's image and color super-picture can also be simultaneously returned to the specialist. The medical drone system enables the medical resources to be allocated in the shortest possible time through the 5G networked drones, so as to eliminate the delay caused by traffic congestion. 5G emergency command platform can integrate, transmit, and display data from multiple sources and forms through web pages in assistance of AI and internet of things.@*Conclusions@#The new platform for pre-hospital and in-hospital emergency medical services based on 5G technology can realize more fluent information exchange in pre-hospital and in-hospital, and realize the functions that are difficult to achieve under the previous network conditions.

7.
Artículo en Zh | WPRIM | ID: wpr-419564

RESUMEN

Justified the necessity of remote pathology consultation in China, and described the basic approach of such consultation in terms of the conditions, organizational framework, specialists and consultation process of the hospital. on the basis of benefit in pationts, the consultation helps the development of the pathology department and other specialist departments at the same time, builds initially a pathology quality control system, and accelerates the multi-discipline diagnosis and treatment approach. Expect to encourage contemplation on international remote pathology consultation in an effort to improve such a practice for the benefit of patients.

SELECCIÓN DE REFERENCIAS
Detalles de la búsqueda