1994-2003年远程医学文献统计分析及远程医学发展预测

文章以从中国期刊全文数据库(CJFD)中检索到的数百篇与远程医学有关的文献资料为基础,运用该数据库检索技巧,就1994年以来每年与远程医学相关的文献数量统计作图,并对查找的结果所涉及的领域以及刊载杂志、内容等方面做了简略分析,同时与用M EDLINE检索的国际远程医学文献资料在发展进程和数量上进行了图形对比分析,对近年影响远程医学发展的因素进行了探讨,并对远程医学今后发展趋势做了简单预测.     

卫星远程医学系统在我院的应用

随着计算机技术、通信技术、网络技术、多媒体技术的发展,我院加入全军远程医学信息网,建成双向卫星远程医学信息系统.本文介绍了我院远程医学业务的开展,远程医学系统应用体会,让大家进一步了解、认识远程医学信息系统,并充分利用该系统从事医疗活动.     

远程医学的三大支撑技术

远程医学(Telemedicine)是通过远程通信技术和计算机多媒体技术,来实现对医学信息的远程采集、传输、处理和查询,以达到异地疾病诊治、远程教学、卫生保健服务、共享医疗信息资源等医疗目的.具体地说,远程医学包括远程医学影像、远程医学病理、远程咨询及会诊、远程医学教育、远程医学信息数据共享等,而医疗保健技术、远程通信技术、信息处理技术便是远程医学的三大关键技术.     

远程医学的发展与现状

阐明了远程医学的科学定义，介绍了国内外远程医学几十年来的发展历史及现状。远程医疗开展的关键不仅在于技术．还决定于管理。远程医疗具有积极的作用与现实意义，应大力提倡与发展。     

远程医疗信息化专业委员会成立

5月17日,中国卫生信息学会远程医疗信息化专业委员会成立大会暨第一届委员会选举会议在郑州举行。中国卫生信息学会远程医疗信息化专业委员会成立后,将联合国内远程医学领域的机构和学者,更好地致力于远程医学的学科专科建设、技术发展、人才培养、实践应用等领域发展。近期主要任务是着重开展学术交流,强化组织建设,加强网站和数据库建设,开展远程医疗科普工作、技术咨询等服务,扩大群众认知,支持技术创新和政府决策等。     

远程医学可视会诊网络系统的应用

远程医疗是当今世界最重要、发展最快的两大领域－－医学技术和计算机多媒体技术与通讯技术相结合的产物。也成为医院信息现代化管理的重要组成部分。本文结合实践,总结了我院远程会诊中心的经验和体会,并对远程医疗及相关的网络通讯作了简要的介绍。     

基于智慧医疗体系的南京市远程医学会诊平台架构设计

本文提出了基于市级智慧医疗体系建设远程医学会诊平台。通过新技术的应用,利用区域卫生信息交换与共享平台及基础信息数据库内海量数据为远程医学会诊提供必要的运行环境和数据支撑,提高远程会诊的便利度和准确率。该平台的建立使参与远程会诊的专家及患者的满意度同步提升,最终实现"惠民、共享、智慧、实效"的建设理念。     

远程医疗系统的构成及其新进展

远程医疗是现代计算机技术、通讯技术和医学技术相结合的产物,在医学和健康领域有着十分广阔的应用前景.介绍了远程医疗在国内外的发展状况,以及远程医疗系统的构成、应用、最新进展等,同时对远程医疗在我国的发展进行了探讨.     

远程医学在新疆区域医疗协作体系中的构建与应用

目的：构建基于远程医学的区域医疗合作共同体,探索远程医学在区域医疗协作网络体系中的价值和作用。方法：从医院远程医学在学科帮扶、基层人才培养、新技术、新业务的传播、医疗适宜技术的推广应用等方面的实践应用入手,分析远程医学在区域医疗协作卫生惠民体系中的作用。结果：远程医学在新疆区域医疗协同发展方面已凸显成效,并已形成独具特色的区域医疗协作文化品牌。结论：发展远程医学,促进边疆卫生惠民事业。     

远程医学的研究及其发展

远程医学发展将涉及医学的各个领域,形成新的医学模式.本文介绍了远程医学的技术支持、研究方向、法律法规等相关内容,展望了远程医学今后的发展.     

Clinical trials to validate telemedicine

Journal of Medical Systems -     

远程医疗系统技术简介

远程医疗是指使用远程通讯技术和计算机多媒体技术提供医学信息服务.本文从通讯、图像、声音、应用软件等方面介绍了基于ATM、IP网络的远程医疗系统的组成.     

Medical knowledge systems: Applications to telemedicine

The application and form of electronically stored medical knowledge has a direct impact on the design of any healthcare delivery system. For those who plan for remote medical care or who work at the disaster relief level, there are specific requirements which will dictate the type of knowledge required and the vehicle best suited to deliver that information.^1–3 The PC based multimedia biomedical library developed for NASA was orginally intended for long-term space missions where complete isolation from earch support was a distinct possibility. The library is a combination of traditional references and secondary databases structured within a primary care physician's workstation. The integration of the library and a point-of-care system allows optimal use of both resources and provides a basic building block for telemedicine networking.     

规范远程医疗服务 确保患者安全

通过对国内远程医疗服务现状进行深入分析、探讨,对远程医疗服务概念、远程医疗服务审批条件、流程、监督管理以及法律责任等问题进行了详细地讨论分析,以期规范远程医疗服务行为,实行医疗服务行为准人制度的管理,促进国内远程医疗发展,从而满足人民群众日益增长的医疗需求。     

Medical outreach to Armenia by telemedicine linkage

Telemedicine, an electronic mode of transmitting medical information interactively between remote sites, was launched as an educational support for a 3-year-old medical partnership between Boston University School of Medicine and Emergency Hospital, of Yerevan, Armenia. Emergency Hospital is the first site in Armenia to have an audiographic teleconference capability linking it to a major medical center. Emergency Hospital and Boston University School of Medicine share the remote connection in order to allow educational conferences, peer consultations, and distance learning to take place, thus enhancing the partnership's aims to improve the emergency and trauma care system of Yerevan. To date, eight teleconferences have been transmitted linking 100 physicians, nurses and hospital administrators. The teleconference program provides, in effect, a formal continuing medical education program for Emergency Hospital. It is a key tool of low-cost technology transfer with the potential of broadening resources over the wide territory of the 15 republics of the former Soviet Union. The telemedicine system is comprised of Optel Communications' Remote Viewing System computer hardware and software plus two dedicated AT&T telephone lines. The system has been in use at Boston University School of Medicine for live voice and still image transmission between international sites since 1987. This level of technology suited environmental conditions in Armenia, marked by frequent power outages and unreliability of local telephone connections. A protocol for presentations was established governing length of time, number of visuals per session, visual format, compatibility with interpretive services, congruence with project mission, and adaptability to local conditions that was shown to provide clear and concise delivery of the information necessary. This paper reports the process of development, installation, and initial use of the technology in one nation of the post-Soviet world.