CN104318057A - Medical image three-dimensional visualization system - Google Patents

Medical image three-dimensional visualization system Download PDF

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CN104318057A
CN104318057A CN201410494551.8A CN201410494551A CN104318057A CN 104318057 A CN104318057 A CN 104318057A CN 201410494551 A CN201410494551 A CN 201410494551A CN 104318057 A CN104318057 A CN 104318057A
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system
image
dimensional
view
data
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CN201410494551.8A
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赵鹏
尹宏磊
李奋保
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新乡医学院第一附属医院
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Abstract

The invention relates to a medical image three-dimensional visualization system. The system comprises a network subsystem used for image collection and equipment network communication with other information interfaces, a storage management subsystem used for patient information and image database diagnostic report management, an image display subsystem used for image displaying and reconstruction and image analysis and processing, an intelligent analysis system used for performing scientific analysis on patients, and a mobile terminal system connected with the network subsystem. The medical image three-dimensional visualization system is based on an MCU (microprogrammed control unit) mode and based on the design concept of recursive composition, is good in operate condition, and has the advantages of good openness, expansibility and maintainability, in addition, the added intelligent analysis system and a scientific algorithm are used for respectively analyzing symptoms of different crowds, and treatment records of a certain patient can also be compared, so that system intellectualization is greatly improved, and the system is convenient for doctors to use. A mobile phone client based on an Android operating system is convenient for doctors to work in other environments.

Description

医学影像三维可视化系统 Medical Imaging 3D Visualization System

技术领域 FIELD

[0001] 本发明涉及医学影像技术,尤其涉及一种医学影像三维可视化系统。 [0001] The present invention relates to medical imaging technology, particularly to a three-dimensional visualization of medical imaging systems.

背景技术 Background technique

[0002] 随着影像技术的不断发展,医学影像诊断在现代医疗中占有极其重要的地位,其在临床诊断、教学科研等方面发挥着重要的作用。 [0002] With the development of imaging technology, medical diagnostic imaging plays an extremely important role in modern medicine, which plays an important role in clinical diagnosis, teaching and research. 医学影像三维可视化系统除了需要完成对体数据进行可视化这一基本功能外,还需要实现医学影像在医院内外的迅速传递和分发,使医生或病人能够随时随地的获取需要的医学影像。 Medical Imaging 3D Visualization System in addition to the complete volume data visualization basic functions, but also the need to achieve rapid delivery of medical imaging and distribution inside and outside the hospital, the doctor or the patient needs to be able to obtain medical images anytime, anywhere.

[0003]目前,医学影像三维可视化系统技术一般包括影像数据传输、影像数据存储、系统交互等内容,但是这些技术或多或少的存在着一些问题需要解决。 [0003] Currently, three-dimensional visualization of medical imaging systems technology generally include transfer of image data, image data storage, and other systems interact, but more or less there are some of these technologies need to be addressed. 并且没有治疗过程比对,以及针对病患的性别、年龄等因素的分类分析。 And there is no treatment comparison, classification and analysis of patient gender, age and other factors. 例如,随着网上医疗和远程会诊等新医疗形式的不断涌现,传统的医院信息化改造迫在眉睫。 For example, with the new forms of online health and medical tele-consultation and other emerging, traditional hospital information transformation is imminent. 由于医学影像的特殊性,医院必须将本院病人的数据保留5-10年。 Due to the special nature of medical imaging, the hospital must be patient hospital data retention 5--10 years. 但是,当前医学影像中心存储容量有限,有些医院仍然采用胶片或者光盘的形式来保存数据,而这些方式的管理难度大,获得数据的实时性差,不利于数据资源共享,更无法适应网上医疗和远程会诊的需要。 However, the current medical imaging center storage capacity is limited, some hospitals are still in the form of film or CD-ROM to store data, and difficult to manage these ways of big, get poor real-time data, is not conducive to data sharing of resources, but can not adapt to online medical and remote require consultation. 因此,需要开发经济可靠地技术来解决大容量/超大容量医学影像存储和备份的问题。 Therefore, the need to develop reliable technology to solve economic problems large capacity / large capacity picture archiving and backup.

发明内容 SUMMARY

[0004] 本发明克服了现有技术的不足,提供一种经济可靠、运行情况良好、扩展性好且可维护性好的医学影像三维可视化系统。 [0004] The present invention overcomes the disadvantages of the prior art, to provide an economical and reliable, well operation, scalability and maintainability good three-dimensional visualization of medical imaging systems.

[0005] 为达到上述目的,本发明采用的技术方案为:一种医学影像三维可视化系统,其包括用于影像采集、设备网络通信即其他信息接口的网络子系统,用于病人信息及影像数据库诊断报告管理的存储管理子系统,以及用于影像显示和重建、影像分析和处理的影像显示子系统;其特征在于,所述影像显示子系统主要功能是将影像数据重新处理后并组织显示给用户,其主体设计是基于MVC模式将二维和三维可视化整合相互交互,其视图设计是基于递归组合将简单的元素逐渐建立复杂的元素。 [0005] To achieve the above object, the technical solution adopted by the invention is: a three-dimensional visualization of a medical imaging system, comprising means for image acquisition, i.e., network communications equipment network interface subsystem additional information for patient information and image database storage management subsystem diagnostic report management, and image display and reconstruction, image analysis and image processing for display subsystem; characterized in that, after the video display subsystem main function is to organize the video data processed and re-displayed to user, which body is based on the MVC design pattern of two-dimensional and three-dimensional visualization integration interact with each other, which is designed to view the combination of a simple recursive element gradually build complex elements.

[0006] 进一步,所述智能分析系统通过编程人员输入系统地科学算法,能够将病人按照不同年龄,不同性别等因素分类统计,以得出不同人群对该病症的不同反应,还可以存储的某一病人的以往的影像资料,进行特殊点的比对分析,以此判断治疗效果。 [0006] Further, the intelligent analysis system by programmers to scientific algorithm entered into the system, the patient can be classified according to the statistics of different ages, gender and other factors in order to obtain different reactions in different populations of the disorder, it can also be stored in a previous image data of a patient, special points of comparison and analysis in order to determine the therapeutic effect.

[0007] 所述智能分析系统通过编程人员输入系统地科学算法,能够将病人按照不同年龄,不同性别等因素分类统计,以得出不同人群对该病症的不同反应,还可以存储的某一病人的以往的影像资料,进行特殊点的比对分析,以此判断治疗效果。 [0007] The intelligent analysis system by programmers to scientific algorithm entered into the system, the patient can be classified according to the statistics of different ages, gender and other factors, different people draw different reactions to the disease, it can also store certain patients the conventional video data, special points of comparison and analysis in order to determine the therapeutic effect. 所述移动终端系统可以通过利用Android语言编写的手机客户端与主系统通迅,同时有标注,存储,显示三个主要功能。 The mobile terminal by using a mobile phone system and the primary system communications client Android written language, while marked, storage, display three main functions.

[0008] 进一步,所述移动终端系统可以通过利用Android语言编写的手机客户端与主系统通迅,同时有标注,存储,显示三个主要功能。 [0008] Further, the system may the mobile terminal by using a mobile client communications with the host system Android written language, while marked, storage, display three main functions.

[0009] 进一步,所述的MVC模式是将一个应用分为模型层、视图层和控制层三个层,所述模型层是数据的模型,是体数据的各种状态,所述状态包括旋转角度和缩放比例;所述视图层是体数据的表现方式,所述表现方式包括二维或三维的各种视角的可视化;所述控制层是用户接收强求将模型与视图匹配在一起,共同完成用户的请求。 [0009] Further, according to the MVC pattern is divided into an application layer model, view and control layers three layers, the layer model is a model data, the volume data is the various states of the state comprises rotation angle and scaling; layer is an expression of the view volume data, comprising the expression of various two or three dimensional perspective visualization; the control layer is a match with the user receiving the force model and view together to complete the requesting user.

[0010] 进一步,所述的视图包括以下一种或几种:表面重建视图、体重建视图、密度投影视图、多平面重建视图和二维原始数据图。 [0010] Further, the view includes one or more of the following: surface reconstruction view, the view volume rendering, the density projection view, and MPR two-dimensional view of the original data in FIG.

[0011] 进一步,所述二维原始数据图包括CT断层扫描图、MRI断层扫描图、CR原始影像或DR原始影像。 [0011] Further, the two-dimensional diagram includes original data by CT scan, MRI tomographic scans, CR or DR original image of the original image.

[0012] 进一步,所述网络子系统的设计是遵从DICOM标准,在该系统中通过统一的DICOM数字接口直接读取医学影像资料,再通过计算机网络传送至影像中心的归档服务器存储。 [0012] Further, the network subsystem is designed to comply with the DICOM standard, the system reads the medical image data in DICOM unified digital interface directly, and then transferred to the center of the image storage archive server through a computer network.

[0013] 进一步,其还包括适配器模块,所述适配器模块具有与DICOM的通信模块相同的接口,将所有DICOM请求转换成DICOM请求,使基于DICOM的通讯模块与其他不相关的接口协同工作。 [0013] Further, further comprising an adapter module, the adapter module having a communication module and the DICOM same interface, converts the request into all DICOM DICOM request is made, based on the DICOM communication module and other work not related to the interface.

[0014] 进一步,所述存储管理子系统包括本地服务模块、数据库管理模块和病人信息管理模块,所述本地服务模块用于将本地数据库信息与远程信息进行交换;所述数据库管理模块包括基本的数据库操作、数据备份、日志记录、数据维护和权限管理;所述病人信息管理模块包括病人影像管理、模板管理和诊断报告管理。 [0014] Further, the storage management subsystem comprising a local service module, database management module and patient information management module, the local services module for local database information with remote information exchange; the basic database management module comprises database operations, data backup, logging, data maintenance and rights management; the patient information including the patient management module image management, template management and diagnostic reports management.

[0015] 本发明解决了背景技术中存在的缺陷,具有如下有益效果: [0015] The present invention addresses the deficiencies present in background art, has the following advantages:

[0016] 本发明提供的医学三维可视化系统是基于MVC模式和基于递归组合的设计思想,其运行情况良好,具有开放性、扩展性好、可维护性好等优点,另加有智能分析系统,科学的算法将分类别分析不同人群的病征,还可以对某一病人的治疗记录进行比对,大大增加了主系统地智能化,方便医生使用,而基于Android操作系统的手机客户端方便医生在其他环境中工作。 [0016] Medical dimensional visualization system according to the present invention is provided based on MVC pattern and design ideas based on recursive composition, which running well, having an open, scalable, and good maintainability, plus intelligent analysis system, scientific analysis algorithms will be divided into categories of different groups of symptoms, the treatment can also record a patient's alignment, greatly increasing the primary system to the intelligent, convenient for doctors to use, and based on the Android operating system for mobile phones in the client convenient for doctors to other environmental work.

[0017] 本发明的影像显示子系统是基于MVC模式的主体设计方式,很好的将二维和三维可视化整合使二者相互交互,一方面给医生带来了极大的便利,另一方面解决了传统的可视化系统中各种观察方式是分开使用独立的体数据的问题,大大节省了计算机的资源。 Imaging [0017] The present invention is based on the main display subsystem design approach MVC pattern, good two-dimensional and three-dimensional visualization of the integration of the two interact with each other, on the one hand has brought great convenience to the doctor, on the other hand solve the traditional visualization system in various ways is to observe the use of an independent body separate from data problems, significant savings in computer resources.

[0018] 本发明的视图设计是基于递归组合将简单的元素逐渐建立复杂的元素,这种视图设计方式用过递归组合可以来表示任何复杂的、层次式的结构;简化了接口代码,在系统中可以一致使用组合结构和单个对象;使用更容易增加新的组合,系统的设计更加一般化。 [0018] view of the design of the present invention is based on the combination of a simple recursive element gradually build complex elements, this view design approach used in combination may be represented by any recursive complex, hierarchical structure; simplifies the interface code, the system It may be uniform in structure and composition using a single object; easier to use new combinations increases, the more general system design.

附图说明 BRIEF DESCRIPTION

[0019] 图1是本发明的结构示意图。 [0019] FIG. 1 is a structural diagram of the present invention.

具体实施方式 Detailed ways

[0020] 以下结合附图对本发明做进一步描述: [0020] conjunction with the drawings The invention will be further described:

[0021] 图中:1-影像显示子系统;2_网络子系统;3_存储管理子系统(3.1-病人信息管理、3.2数据库管理);4_智能分析系统(4.1-分类统计划分、4.2治疗过程比对),5-移动服务终端(5.1标注、5.2存储、5.3显示) [0021] REFERENCE NUMERALS 1: image display subsystem; 2_ network subsystem; 3_ Storage Management Subsystem (3.1-patient information management, database management 3.2); 4_ intelligent analysis system (4.1-division classification statistics, 4.2 alignment treatment), 5-service mobile terminal (denoted 5.1, 5.2 storage, display 5.3)

[0022] 实施例: [0022] Example:

[0023] 为使本发明的目的、技术方案和优点更加清楚,下面将结合附图对本发明实施方式作进一步地详细描述。 [0023] To make the objectives, technical solutions, and advantages of the present invention will become apparent in conjunction with the accompanying drawings of the following embodiments of the present invention will be described in further detail.

[0024] 本发明提供一种医学影像三维可视化系统,其包括用于影像采集、设备网络通信即其他信息接口的网络子系统;用于病人信息及影像数据库诊断报告管理的存储管理子系统;用于影像显示和重建、影像分析和处理的影像显示子系统;以及用于对病人进行科学分析的智能分析系统和与网络子系统相连接的移动终端系统。 [0024] The present invention provides a three-dimensional visualization of medical imaging system, comprising means for image acquisition, i.e., network communications equipment network interface subsystem additional information; management subsystem for storing patient information and imaging diagnostic report database management; with in the image display and reconstruction, image analysis and image processing display subsystem; patient and for scientific analysis intelligent analysis system and a mobile terminal system connected to the network subsystem. 所述影像显示子系统主要功能是将影像数据重新处理后并组织显示给用户,其主体设计是基于MVC模式将二维和三维可视化整合相互交互,其视图设计是基于递归组合将简单的元素逐渐建立复杂的元素。 The main function of the image display subsystem after re-processing the image data displayed to the user and the organization of which the body is based on the MVC design pattern of two-dimensional and three-dimensional visualization integration interact with each other, which is designed to view the combination of a simple recursive element gradually the establishment of complex elements. 所述智能分析系统通过编程人员输入系统地科学算法,能够将病人按照不同年龄,不同性别等因素分类统计,以得出不同人群对该病症的不同反应,还可以存储的某一病人的以往的影像资料,进行特殊点的比对分析,以此判断治疗效果。 Enter through the intelligent analysis system programmers systematic scientific algorithms to the patient according to different age, gender and other factors disaggregated statistics in order to obtain different reactions in different populations of the disorder, can also be stored in a patient's past image data, comparative analysis of special points in order to determine the therapeutic effect. 所述移动终端系统可以通过利用Android语言编写的手机客户端与主系统通迅,同时有标注,存储,显示三个主要功能。 The mobile terminal by using a mobile phone system and the primary system communications client Android written language, while marked, storage, display three main functions.

[0025] 其中,MVC模式是把一个应用的输入、处理、输出流程按照模型、视图和控制的方式进行分离,即将一个应用分为模型层、视图层和控制层三个层,模型层是数据的模型,是体数据的各种状态,状态包括旋转角度和缩放比例等;视图层是体数据的表现方式,其表现方式包括二维或三维的各种视角的可视化等;控制层是用户接收强求将模型与视图匹配在一起,共同完成用户的请求。 [0025] wherein, the MVC pattern is input to an application, the process, in accordance with the output flow separation model, view and control mode, i.e. into an application model layer, view and control layers three layers, the data model layer model, the volume data is the various states, including the state of the rotation angle and scaling the like; view representations layer is volume data, which includes a visual expression of the other two or three dimensional perspective; user control layer is received force matching model and view together to complete the user's request.

[0026] 本发明的具体实施例中,视图包括以下一种或几种:表面重建视图、体重建视图、密度投影视图、多平面重建视图和二维原始数据图。 Specific Example [0026] In the present invention, one or more views comprising: resurfacing the view, the view volume rendering, the density projection view, and MPR two-dimensional view of the original data in FIG. 表面重建视图,用表面重建技术产生影像,使用在基于内存分配优化的移动立方体算法;体重建视图是用体重建技术产生的影像,使用基于三维文理映射的体绘制算法来提高交互速度;密度投影视图包括最大密度投影、最小密度投影和平均密度投影等;多平面重建视图是对某些或全部断层扫描层面进行各种方向范围的剖切得到冠状位、矢状位、轴位或任意面的影像,这样可以从不同方向观察病灶及其内部结构。 Surface reconstruction view, to generate an image using surface reconstruction techniques, using Marching Cubes algorithm memory allocation optimization; volume rendering view with imaging technology to produce the volume rendering, using the drawing method based on the three-dimensional ARTS mapping to improve the interaction speed; intensity projection comprising a maximum intensity projection view, and the average density of the minimum intensity projection like projection; MPR view is some or all of the various levels tomography cut range of directions obtained coronal, sagittal, axial or any surface image, so that the internal structure can be observed and the lesions from different directions. 其中上述的二维原始数据图包括CT断层扫描图、MRI断层扫描图、CR原始影像或DR原始影像。 Wherein said two-dimensional diagram includes original data in FIG CT tomography, MRI tomographic scans, CR or DR original image of the original image. 没有断层扫描影像是不能进行可视化操作的。 No tomography image can not be visualized operation.

[0027] 网络子系统的设计是遵从DICOM标准,在该系统中通过统一的DICOM数字接口直接读取医学影像资料,再通过计算机网络传送至影像中心的归档服务器存储。 [0027] network subsystem is designed to comply with the DICOM standard, the system reads the medical image data through a unified DICOM digital interface directly, and then transferred to the center of the image archive server storage via a computer network. 考虑到网络中有RIS以及HIS等其他设备有可能与系统相连,这样系统就会需要多个不同的接口,并且这些接口互不兼容,我们再系统中增加一个适配器模块,该适配器模块具有与DICOM的通信模块相同的接口,将所有DICOM请求转换成非DICOM请求,使基于DICOM的通讯模块与其他不相关的接口协同工作。 Considering the network has HIS RIS and other possible devices connected to the system, so the system will require a plurality of different interfaces, and these interfaces are incompatible, then we added to the system with an adapter module, the adapter module having a DICOM the same interface communication module, DICOM convert all requests to non-DICOM request is made, based on the DICOM communication module and other work not related to the interface.

[0028] 存储管理子系统包括本地服务模块、数据库管理模块和病人信息管理模块,所述本地服务模块用于将本地数据库信息与远程信息进行交换;所述数据库管理模块包括基本的数据库操作、数据备份、日志记录、数据维护和权限管理;所述病人信息管理模块包括病人影像管理、模板管理和诊断报告管理。 [0028] The storage management subsystem includes a local service module, database management module and patient information management module, the local services module for local database information with remote information exchange; the database management module comprises a basic database operations, the data backup, logging, data maintenance and rights management; the patient information including the patient management module image management, template management and diagnostic reports management.

[0029] 最后应说明的是:以上实施例仅用以说明本发明的技术方案,而非对其限制;尽管参照前述实施例对本发明进行了详细的说明,本领域的普通技术人员应当理解:其依然可以对前述各实施例所记载的技术方案进行修改,或者对其中部分技术特征进行等同替换;而这些修改或者替换,并不使相应技术方案的本质脱离本发明各实施例技术方案的精y [0029] Finally, it should be noted that: the above embodiments are intended to illustrate the present invention, rather than limiting;. Although the present invention has been described in detail embodiments, those of ordinary skill in the art should be understood: may still be made to the technical solutions described in each embodiment of the modified or part of the technical features equivalents; as such modifications or replacements do not cause the essence of corresponding technical solutions to depart from the technical essence various embodiments of the present invention y

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Claims (10)

1.一种医学影像三维可视化系统,其特征在于,所述医学影像三维可视化系统包括用于影像采集、设备网络通信即其他信息接口的网络子系统,用于病人信息及影像数据库诊断报告管理的存储管理子系统,用于影像显示和重建、影像分析和处理的影像显示子系统,以及用于对病人进行科学分析的智能分析系统和与网络子系统相连接的移动终端系统。 A three-dimensional visualization of medical imaging system, wherein the medical imaging system includes a three-dimensional visualization image acquisition, i.e., network communications equipment network interface subsystem additional information, patient information and imaging for diagnostic report database management storage management subsystem for image display and reconstruction, image analysis and image processing display subsystem, and a mobile terminal system for scientific analysis patient intelligent analysis system and a network subsystem connected.
2.根据权利要求1所述的医学影像三维可视化系统,其特征在于,所述影像显示子系统主要功能是将影像数据重新处理后并组织显示给用户,其主体设计是基于MVC模式将二维和三维可视化整合相互交互,其视图设计是基于递归组合将简单的元素逐渐建立复杂的元素。 2. The medical imaging system of three-dimensional visualization according to claim 1, wherein said image display subsystem is the main function of the video data processing and re-organize displayed to the user, which is the main design two-dimensional mode based on MVC and interact with each other to integrate three-dimensional visualization, which is designed to view the simple element gradually build complex elements based on recursive composition.
3.根据权利要求1所述的医学影像三维可视化系统,其特征在于,所述智能分析系统通过编程人员输入系统地科学算法,能够将病人按照不同年龄,不同性别等因素分类统计,以得出不同人群对该病症的不同反应,还可以存储的某一病人的以往的影像资料,进行特殊点的比对分析,以此判断治疗效果。 The three-dimensional medical image visualization system according to claim 1, wherein said intelligent analysis system algorithm by the Scientific programmer input system, a patient can be in different age, sex and other factors statistical classification to obtain previous image data of a different patient populations of the different reaction conditions can also be stored special points of comparison and analysis in order to determine the therapeutic effect.
4.根据权利要求1所述的医学影像三维可视化系统,其特征在于,所述移动终端系统可以通过利用Android语言编写的手机客户端与主系统通迅。 The three-dimensional medical image visualization system according to claim 1, wherein the mobile terminal by using a mobile phone system and the primary system communications client Android written language.
5.根据权利要求1所述的医学影像三维可视化系统,其特征在于,所述的MVC模式是将一个应用分为模型层、视图层和控制层三个层,所述模型层是数据的模型,是体数据的各种状态,所述状态包括旋转角度和缩放比例;所述视图层是体数据的表现方式,所述表现方式包括二维或三维的各种视角的可视化;所述控制层是用户接收强求将模型与视图匹配在一起,共同完成用户的请求。 The three-dimensional medical image visualization system according to claim 1, wherein said MVC pattern is divided into an application layer model, view and control layers three layers, the layer model is a model data , various states is volume data, the state comprises rotation angle and scale; layer is an expression of the view volume data, comprising the expression of various two or three dimensional perspective visualization; the control layer receiving user is matched with the force model and view together to complete the user's request.
6.根据权利要求1所述的医学影像三维可视化系统,其特征在于,所述的视图包括以下一种或几种:表面重建视图、体重建视图、密度投影视图、多平面重建视图和二维原始数据图。 6. The medical imaging system of three-dimensional visualization according to claim 1, wherein said view comprises one or more of the following: surface reconstruction view, the view volume rendering, the density projection view, and MPR two-dimensional view the raw data graph.
7.根据权利要求1所述的医学影像三维可视化系统,其特征在于,所述二维原始数据图包括CT断层扫描图、MRI断层扫描图、CR原始影像或DR原始影像。 The three-dimensional medical image visualization system according to claim 1, wherein said two-dimensional diagram includes original data by CT scan, MRI tomographic scans, CR or DR original image of the original image.
8.根据权利要求1或5任意一项所述的医学影像三维可视化系统,其特征在于,所述网络子系统的设计是遵从DICOM标准,在该系统中通过统一的DICOM数字接口直接读取医学影像资料,再通过计算机网络传送至影像中心的归档服务器存储。 8. The medical imaging system of any one of the three-dimensional visualization according to claim 1 or 5, wherein the network subsystem is designed to comply with the DICOM standard is read directly by a uniform DICOM medical digital interface in the system image data, and then transferred to the center of the image archive server storage via a computer network.
9.根据权利要求1所述的医学影像三维可视化系统,其特征在于,其还包括适配器模块,所述适配器模块具有与DICOM的通信模块相同的接口,将所有DICOM请求转换成非DICOM请求,使基于DICOM的通讯模块与其他不相关的接口协同工作。 9. The medical imaging system of three-dimensional visualization according to claim 1, characterized in that it further comprises an adapter module, the adapter module having a communication module and the DICOM same interface, requests to convert all non-DICOM DICOM request that DICOM communication module interfaces with other work irrelevant. based
10.根据权利要求1所述的医学影像三维可视化系统,其特征在于,所述存储管理子系统包括数据库管理模块和病人信息管理模块,所述数据库管理模块包括基本的数据库操作、数据备份、日志记录、数据维护和权限管理;所述病人信息管理模块包括病人影像管理、模板管理和诊断报告管理。 10. The medical imaging system of three-dimensional visualization according to claim 1, wherein the storage management module and a database management subsystem including patient information management module, a database management module comprises a basic database operations, data backup, the log record, data maintenance and rights management; the patient information including the patient management module image management, template management and diagnostic reports management.
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