目的:信息系统的改进应用是为确保急诊科预检分诊处将来能使医院对自然灾害事件的伤员救治时以最便捷、最快速的方式录入自然灾害事件伤员的信息资料和快速评估伤情,优先准确的将伤员按病情和就诊区域分类,以便畅通及时救治伤员;在治疗中和日后便于识别、查找、统计灾害事件伤员。方法:LIS(检验系统)+ RIS(影像系统)+ HIS(无纸化办公系统)三合一系统和增加自然灾害伤员的“录入信息资料”眉栏。结果:进一步改进信息网络应用系统后,能满足一般患者信息资料录入和自然灾害事件应急状况下的患者资料录入,实现电子病历和电子处方等信息网络系统,达到院内、科内资源共享。
In order to improve the efficiency and guarantee the quality of the research of cross-regional multi-center clinical trials, with the combination of WIN 2003 Server IIS, SQL Server 2005 database and ASP.Net programming techniques, the Pocock and Simon minimized randomization system model facing the network was put forward, and this system based on that model was developed. The two sides in this system can achieve cooperation process from screening subjects, random allocation and drug management to filling electronic case report form. Moreover, the customers of this system can also publish official documents, exchange information and take full use of other available assistant functions through the office automation platform.
Objective To describe the design and application of an emergency response mobile phone-based information system for infectious disease reporting. Methods Software engineering and business modeling were used to design and develope the emergency response mobile phone-based information system for infectious disease reporting. Results Seven days after the initiation of the reporting system, the reporting rate in the earthquake zone reached the level of the same period in 2007, using the mobile phone-based information system. Surveillance of the weekly report on morbidity in the earthquake zone after the initiation of the mobile phone reporting system showed the same trend as the previous three years. Conclusion The emergency response mobile phone-based information system for infectious disease reporting was an effective solution to transmit urgently needed reports and manage communicable disease surveillance information. This assured the consistency of disease surveillance and facilitated sensitive, accurate, and timely disease surveillance. It is an important backup for the internet-based direct reporting system for communicable disease.
目的 探讨医院信息系统(HIS)在超声影像住院医生培养中的应用价值。 方法 对2003年-2009年在超声科参加住院医生培训的24名住院医生,应用HIS前后3年在临床、教学及科研方面的业绩进行对比。所选用的指标包括超声检查的请会诊次数、报告符合率、准备教学材料所花费的时间及质量、论文发表的数量。 结果 在HIS应用之前,24名超声科住院医生的请会诊次数为平均每周96次,平均每周4次/人,报告符合率为92%,准备教学材料花费的时间平均50 h,论文发表的数量共9篇,平均0.33篇/人,其中个案报道6篇,占67%,无科学引文索引收录论文。在HIS应用之后,24名超声科住院医生的请会诊次数为平均每周62次,平均每人每周2.58次/人,报告符合率为95%,准备教学材料花费的平均时间为36 h,论文发表的数量共15篇,平均0.63篇/人,其中包括3篇科学引文索引收录论文,个案报道9篇,占60%。 结论 超声影像是实践性很强的学科,HIS提供的素材和平台有利于超声科住院医生学习效率的提高。
Magnetic induction hyperthermia becomes a very important tumor treatment method at present. In order to ensure a successful operation, doctors should make hyperthermia treatment planning before surgery. Based on Integration Healthcare Enterprise (IHE) framework and Digital Imaging and Communications in Medcine (DICOM) standard, we proposed and carried out a network workflow integrated with modern medical information systems for the dissemination of information in magnetic induction hyperthermia like accurate accessing patient information and radiology image data, storing processed images, sharing and verifying hyperthermia reports. The results proved that our system could not only improve the efficiency of magnetic induction hyperthermia treatment planning, but also save medical resources and reduce labor costs.
Integration of heterogeneous systems is the key to hospital information construction due to complexity of the healthcare environment. Currently, during the process of healthcare information system integration, people participating in integration project usually communicate by free-format document, which impairs the efficiency and adaptability of integration. A method utilizing business process model and notation (BPMN) to model integration requirement and automatically transforming it to executable integration configuration was proposed in this paper. Based on the method, a tool was developed to model integration requirement and transform it to integration configuration. In addition, an integration case in radiology scenario was used to verify the method.