CN210301239U - Medical image workstation system - Google Patents
Medical image workstation system Download PDFInfo
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- CN210301239U CN210301239U CN201920404979.7U CN201920404979U CN210301239U CN 210301239 U CN210301239 U CN 210301239U CN 201920404979 U CN201920404979 U CN 201920404979U CN 210301239 U CN210301239 U CN 210301239U
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Abstract
A medical image workstation system relates to the technical field of medical images.A video signal acquisition module, a waveform signal acquisition module and a physical sign signal acquisition module are respectively connected with a signal input end of an image control center through corresponding signal conversion modules; the image control center is provided with a medical analysis module for comprehensively analyzing the video signals, the waveform signals and the sign signals, and is also provided with a medical analysis result storage module, a medical analysis result display module, a communication module and a printing module. The utility model discloses gather multidimension degree, polymorphic medical diagnosis instrument signal, carry out the integrated analysis, improve the accurate nature that the analysis was judged. The image workstation has a storage function, and can realize network interface or be connected with other systems for sharing and accessing images and information through the output communication module.
Description
Technical Field
The utility model relates to a medical imaging technical field.
Background
The establishment of hospital medical information system promotes the development and innovation of intelligent digital medical instruments, the image signals of the medical instruments have two communication modes of wire and wireless, and the intelligent digital technologies provide technical support for signal acquisition of medical equipment in wards. However, the image signal of the medical instrument often has a plurality of signal forms. Such as: CT, ultrasound, endoscopic imaging, etc. form video images, while electrocardiographs, electroencephalographs, etc. present electrocardiographic waveform images, and vital sign diagnostic instruments (e.g., body temperature, respiration, blood pressure, blood glucose, blood oxygen, blood ketones, etc.) present linear or point signal images. The traditional medical image workstation can not finish image acquisition of various signal forms, and transmits image signals through wired and wireless network environments, so that digital medical image information is acquired, stored, managed, displayed and diagnosed.
The traditional medical image workstation mechanism only has the configuration and the functions (host, display, printer, keyboard and mouse) of a general computer workstation, although the traditional medical image workstation mechanism has an image video acquisition card, an image acquisition adapter and workstation software which is developed to meet the requirements of high definition and high resolution of medical images. But with the development of intelligent digital medical diagnostic instruments, the development and application of medical imaging workstations are faced with opportunities and challenges.
1. The acquisition of digital information and research and analysis of medical images are required to be realized.
2. The advent of hospital information platforms requires medical imaging workstations to provide a communication interface to allow images to be developed and studied from sampling to transmission, and from display to analysis.
3. Due to the management requirements of chronic diseases and the advent of telemedicine, images are required to have both wired and wireless delivery.
4. The medical image workstation finishes image acquisition, display and analysis from the rear of the conventional single medical equipment. Can change new functions and meet the requirements of various functions of image acquisition, display, analysis, storage and the like in the mobile medical treatment and the remote medical treatment.
SUMMERY OF THE UTILITY MODEL
The more than defect to traditional medical science image workstation existence, the utility model aims at providing a neotype medical science image workstation system, establish the signal acquisition platform of instrument is diagnose in the ward, can gather patient's various characters characteristic signal to carry out medical analysis to the image of gathering and judge.
The utility model comprises a video signal acquisition module, a waveform signal acquisition module, a sign signal acquisition module and an image control center, wherein the video signal acquisition module, the waveform signal acquisition module and the sign signal acquisition module are respectively connected with the signal input end of the image control center through corresponding signal conversion modules; the image control center is provided with a medical analysis module for comprehensively analyzing video signals, waveform signals and sign signals, and the image control center is further provided with a medical analysis result storage module for storing the result analyzed by the medical analysis module, a medical analysis result display module for displaying the result analyzed by the medical analysis module, a communication module for sharing the result analyzed by the medical analysis module and a printing module for printing the result analyzed by the medical analysis module.
The utility model discloses the video signal of patient has collected, wave form signal and sign signal characteristic, connect into image control center through corresponding signal conversion module, comprehensive medical analysis module through image control center carries out pathological analysis, the result that the analysis goes out can directly be saved in the medical analysis result storage module at this image control center, do benefit to and transfer at any time, can show the image of analysis, also can print by printing apparatus through output print module, each terminal equipment of distal end can also be exported through wired or wireless transmission equipment, also can pass through network access hospital HIS, information system such as PACS. The analysis result can realize the sharing of diagnosis and treatment data of the same hospital, and can better serve doctors and nurses in each professional department.
The utility model discloses characteristics gather multidimension degree, polymorphic medical diagnosis instrument signal, carry out the integrated analysis, improve the accurate nature that analysis was judged. The image workstation has a storage function, and can realize network interface or be connected with other systems for sharing and accessing images and information through the output communication module.
Provide the state of an illness diagnosis appurtenance for image department and clinical department doctor utility model not only is used for leading medical image check out test set imaging technique, image display, pathological analysis, diagnosis, management, provides the state of an illness diagnosis appurtenance for image department and clinical department doctor, can be used to patient's sign information monitoring, statistics, report an emergency and ask for help or increased vigilance moreover, provides the monitoring, the record of patient's pathological information for clinical nurse to and the statistical analysis of patient's pathological information.
The utility model discloses can provide clinical information-based construction each item service of hospital, such as digital ward, mobile medical treatment, telemedicine informationization service.
Furthermore, the video signal acquisition module comprises a CT, B-ultrasonic, endoscope and other video information acquisition modules.
The waveform signal acquisition module comprises waveform information acquisition modules such as electrocardiograms and brain waves.
The sign signal acquisition module comprises a vital sign information acquisition module for body temperature, respiration, blood pressure, blood sugar, blood oxygen, blood ketone and the like.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
Detailed Description
As shown in fig. 1, the utility model discloses be equipped with video signal collection module 1, wave form signal collection module 2 and sign signal collection module 3 to set up corresponding signal conversion module 4, 5, 6 correspondingly.
The image control center 7 is provided with a comprehensive medical analysis module 8, a medical analysis result storage module 9, a medical analysis result display module 10, a communication module 11 and a printing module 12.
The comprehensive medical analysis module 8 comprehensively analyzes the input video signals, waveform signals and sign signals and stores the signals in the medical analysis result storage module 9, the results analyzed by the comprehensive medical analysis module can be displayed by the medical analysis result display module 9, and the results analyzed by the comprehensive medical analysis module are output by the communication module 11.
The video signal acquisition module 1, the waveform signal acquisition module 2 and the physical sign signal acquisition module 3 are respectively connected with the signal input end of a comprehensive medical analysis module 8 in the image control center 7 through corresponding signal conversion modules; the signal input ends of the medical analysis result display module 10, the medical analysis result storage module 9, the communication module 11 and the printing module 12 are respectively connected to the signal output end of the comprehensive medical analysis module 8.
The utility model discloses well video signal collection module 1 includes video information collection modules such as CT, B ultrasonic, endoscope. The video information can be collected and summarized through corresponding departments in the hospital.
The waveform signal acquisition module 2 comprises waveform information acquisition modules such as electrocardiograms and brain waves. Each waveform information can be sent to the waveform signal acquisition module 2 through a telephone or audio frequency carried out by a patient waiting at home, or sent to the waveform signal acquisition module 2 through mobile phone Bluetooth, or sent to the waveform signal acquisition module 2 through a broadband after being acquired by clinical ECG of a primary hospital.
The electrocardiogram waveform acquisition and conversion are used for monitoring heart diseases in and out of a dynamic electrocardiogram monitor hospital, and can also be used for chronic disease management.
The sign signal acquisition module 3 comprises vital sign information acquisition modules of body temperature, respiration, blood pressure, blood sugar, blood oxygen, blood ketone and the like. Each sign signal information can be obtained by each function check device and then uploaded to the sign signal acquisition module 3 through the APP of the mobile client.
The sign signal waveform acquisition module is used for mobile ward round, mobile nursing, emergency measurement and special environment measurement.
The image workstation creates the point:
1. establish the signal acquisition platform of instrument is diagnose in the ward, realize diagnosing image storage and sending, through to different image signal conversion module, if: the system comprises a video signal digital display card, an APP mobile terminal for electrocardiographic waveforms, a point location acquisition curve is adopted for sign signals, a medical instrument signal acquisition platform is established for most ward diagnosis and treatment instrument acquisition functions, and comprehensive functions of image acquisition, display, analysis, processing, storage, transmission, printing and the like are completed.
2. The original medical image workstation only provides the functions of post-image acquisition of professional medical instruments (CT, ultrasound, colposcope, hysteroscope, and the like), display, analysis, printing, and the like. The medical image workstation of the project enlarges the range of signal acquisition and the application function, and is connected to the hospital information platform in a wired or wireless mode, so that the medical image workstation becomes an important configuration of the hospital information platform. The method is characterized in that signals of various diagnosis and treatment instruments in a ward are collected to serve as important links of information systems such as an electronic medical record of a hospital information system, mobile nursing and mobile ward round; technical support is provided for big data analysis, operation and monitoring of a hospital medical information system.
3. Due to the fact that the wireless signal acquisition function is added, and wireless transmission is conducted on the acquired signals, the product provides technical support for the hospital to conduct remote medical service operation.
Claims (4)
1. A medical image workstation system is characterized by comprising a video signal acquisition module, a waveform signal acquisition module, a sign signal acquisition module and an image control center, wherein the video signal acquisition module, the waveform signal acquisition module and the sign signal acquisition module are respectively connected to a signal input end of the image control center through corresponding signal conversion modules; the image control center is provided with a medical analysis module for comprehensively analyzing video signals, waveform signals and sign signals, and the image control center is further provided with a medical analysis result storage module for storing the result analyzed by the medical analysis module, a medical analysis result display module for displaying the result analyzed by the medical analysis module, a communication module for sharing the result analyzed by the medical analysis module and a printing module for printing the result analyzed by the medical analysis module.
2. The medical imaging workstation system of claim 1 wherein said video signal acquisition module comprises a CT, B-mode ultrasound, endoscope information acquisition module.
3. The medical image workstation system as claimed in claim 1, wherein the waveform signal acquisition module comprises an electrocardiogram and brain wave information acquisition module.
4. The medical imaging workstation system of claim 1 wherein the sign signal acquisition module comprises a body temperature, respiration, blood pressure, blood sugar, blood oxygen, blood ketone information acquisition module.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920404979.7U CN210301239U (en) | 2019-03-28 | 2019-03-28 | Medical image workstation system |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201920404979.7U CN210301239U (en) | 2019-03-28 | 2019-03-28 | Medical image workstation system |
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| CN210301239U true CN210301239U (en) | 2020-04-14 |
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| CN201920404979.7U Expired - Fee Related CN210301239U (en) | 2019-03-28 | 2019-03-28 | Medical image workstation system |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109820603A (en) * | 2019-03-28 | 2019-05-31 | 江苏鑫三园医疗科技有限公司 | A kind of Medical Image Workstation system |
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2019
- 2019-03-28 CN CN201920404979.7U patent/CN210301239U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109820603A (en) * | 2019-03-28 | 2019-05-31 | 江苏鑫三园医疗科技有限公司 | A kind of Medical Image Workstation system |
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Granted publication date: 20200414 |