放射科

fànɡ shè kē
  • radiology department
放射科放射科
  1. 回想在一下本文开头的用例中,Prescription应用程序还向内部放射科发送消息。

    Recall from the use-case story at the beginning of this article that the Prescription application also sent a message to an in-house radiology department .

  2. 例如,几天前由于不能让自己的病人预约到CT,我对着放射科的登记员大声吼。

    I had , for example , raised my voice a couple of days earlier at a receptionist in the radiology department when she couldn 't schedule my patient for a CT scan .

  3. 该研究团队发现,他们的人工智能模型可以通过扫描检查来预测乳腺癌,而且其准确度与放射科专家相当。

    The team found that their AI model could predict breast cancer from the scans with a similar accuracy level to expert radiographers .

  4. CR技术是加速放射科影像数字化进程的一个重要手段。

    CR technology is an important way to accelerate the digitization course of radiology image .

  5. 医院放射科DR及PACS系统的临床应用与管理

    Clinical application and management of DR and PACS in the department of radiology

  6. PACS在放射科图像管理中的应用

    PACS : its application in image management of radiological department

  7. 目的探讨单平板探测器DR的多功能性,对普通放射科的各种常规检查的意义。

    Objective Discusses single plate detector DR multi-purpose , to ordinary radiology 's each kind of routine inspection significance .

  8. 后处理图像与DSA图像分别有2位放射科高年资医师用双盲法进行分析和评价。

    The post-processing images and DSA were analyzed and evaluated by 2 radiologists at double blinded .

  9. MP3音频编辑在放射科的应用

    MP_3 audio-editing software for the department of radiology

  10. PACS即影像存储和通信系统,现已成为医学影像科(放射科等)建设中的重点。

    Picture archiving and communication system has already become important in construction of the department of medical image .

  11. 建立了典型的医院放射科PACS系统,连接了目前医院现有的设备,实现了放射科初步的无胶片化方式;

    Typical PACS is constructed . It connected existing equipments and initially realized the no-film radiology .

  12. 基于DICOM和HL7标准的医院放射科信息系统

    Radiology Information System Based on DICOM and HL7 Protocol

  13. 目的探讨PACS和RIS系统在放射科医学影像诊断及管理中的应用价值。

    Objective To explore PACS and RIS application in medical image diagnosis and management .

  14. 目的探讨MP3音频编辑软件在放射科工作的应用价值。

    Objective To evaluate the MP3 audio-editing software in the daily work in the department of radiology .

  15. 探讨放射科PACS工作站等软、硬件的配置,提高医学图像的显示质量。

    This paper discusses PACS workstation configuration for medical image information system which would be advance the quality of medical image displayed .

  16. 目的探讨影像数字化和医学影像存储与通讯(PACS)系统在放射科的临床应用价值。

    Objective To probe the clinical value of image digitization , medical image store and PACS at department of radiology .

  17. CT机是大医院放射科不可缺少的大型医疗设备,介绍如何做好机器日常维护和保养是极其重要的。

    In this article we introduce the importance of how to service and maintain CT machine that is one of the indispensable large-scale medical equipment to the department of radiology of the large hospital .

  18. 方法:采用国际标准设计,配置影像服务器,铺设放射科PACS网络,整合现有的HIS系统。

    Methods ; We adopted the international standards , purchased image server , constructed PACS net-work , integrated with the HIS .

  19. 本文阐述了广医二院放射科PictureArchivingandCommunicationsSystem(简称PACS,图像存储与传输系统)的设计,安装和调试。

    This paper discusses the design , installation and configuration of PACS ( Picture Archiving and Communications System ) in the radiology department of the Second Affiliated Hospital of Guangzhou Medical Academy .

  20. 结论:随着PACS在放射科中的应用,数字化图像管理模式必将取代传统的胶片管理模式。

    Conclusion : Through using PACS in department of radiology , traditional film management system should be replaced by digital image management method .

  21. 结果表明,该论文为实现一个具备优化的工作流程的高效、实用放射科科室级PACS作了有益的探讨和尝试。

    The results show that the paper has made beneficial study which tried to achieve a high efficient and practical Mini-PACS of x-ray department .

  22. 目的:通过分析几年来我院PACS系统的组建和应用经验,探讨PACS系统在放射科数字化建设中的作用。

    Objective To discuss the establishment and application of PACS of our hospital , and its significance for the digitization of the radiology department .

  23. 目的:探讨图像存档及通信系统(PACS)在现代化医院放射科图像管理中的应用价值。

    Objective : To evaluate the value of picture archiving and communication system ( PACS ) in image management of radiologic department in a modernized hospital .

  24. 本文对当前CR系统的结构作了简要的介绍,并对其在传染病医院使用的优点进行了归纳和总结,证实CR的引进改善了放射科的工作流程,提高了医院的社会效益。

    This paper introduces the structure of CR and the advantages of applying CR in hospital for infectious diseases . It has proved that CR can improve the workflow in radiology department and the benefit of hospital .

  25. 结果成功的实现了数字图像在放射科的PACS内传输、存储、管理和备份,而且可以方便地编辑、打印全中文报告。

    Results The communication , storage , administration and copies of digital images in PACS system were successfully realized . Besides , radiological report in Chinese language could be easily edited and printed .

  26. 材料与方法利用具有较好支持DICOM3.0的Mini-PACS实现放射科数字化影像设备的互联;

    Materials and Methods The digital image equipments of radiology department were connected to Mini-PACS with DICOM standard .

  27. 目的探讨放射科PACS系统中图像显示器的质量保证(QA)、质量控制(QC)问题。

    Objective To study the quality assurance ( QA ) and quality control ( QC ) of PACS image display device in the department of radiology equipped with PACS and radiology information system ( RIS ) .

  28. 视频采集技术的实施保证了PACS系统的完整性,便于所有医学影像信息能够共享,提高了放射科的工作效率,避免了大量的医疗设备的资源浪费。

    The video capture tech ˉ nology implementation guaranteed the PACS system integrity , and avoided the massive medical equipment resources wasted in order to share the all medicine video information and enhance radiology 's working efficiency .

  29. 结果经过在我院放射科2年多的应用与磨合改进,进一步完善了医学影像学科网络版的中文RIS系统,显著提高了科室的工作效率与管理水平。

    Results After 2 years of application and continuous improvement , the network radiology information system was successfully developed . The system improved the administration and work efficiency of the medical imaging department .

  30. Toland说,理想的工作流程是,在图像采集之后有放射科大夫阅片,将观察结果发送到急诊大夫。

    In an ideal workflow setting , radiologists would read the studies following image acquisition , then send the results to the ED physician .