CN101869467B - Digital imaging system of urology surgery - Google Patents
Digital imaging system of urology surgery Download PDFInfo
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- CN101869467B CN101869467B CN2010101963592A CN201010196359A CN101869467B CN 101869467 B CN101869467 B CN 101869467B CN 2010101963592 A CN2010101963592 A CN 2010101963592A CN 201010196359 A CN201010196359 A CN 201010196359A CN 101869467 B CN101869467 B CN 101869467B
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Abstract
The invention provides a digital imaging system of the urology surgery, comprising an imaging device of the urology surgery, an image conversion module, a communication module and a PACS server, wherein the imaging device of the urology surgery is used for collecting images of urology surgery of patients; the image conversion module is used for converting the images of urology surgery into DICOM standard images of urology surgery and writing medical treatment information of patients in the DICOM standard images; the communication module is used for sending the DICOM standard image of urology surgery and medical treatment information of patients to a PACS server; and the PACS server is used for receiving the DICOM standard images of urology surgery and medical information of patients for storage. By adopting the invention, digitization of imaging device of the urology surgery and sharing of the image information of the urology surgery can be realized.
Description
[technical field]
The present invention relates to the armarium technical field, relate in particular to a kind of digital imaging system of urology surgery.
[background technology]
The image documentation equipment of hospital's Urology Surgery mainly contains extracorporeal lithotiptor, Urology Surgery operation table, diasonograph, splanchnoscopy machine etc.The Urology Surgery image documentation equipment substantially all is the simulation output interface at present, can not connect PACS (Picture Archiving and Communication Systems, image archiving and communication system), this is because PACS only connects (the Digitalimaging and Comunicaitons in Medicine that has digital DICOM, digitized video and communication standard) image documentation equipment of interface, so PACS has been ignored Urology Surgery substantially.
At present, the image documentation equipment of Urology Surgery is observed image and is still adopted monitor, and the work station of configuration is much all only made case history report record.With the lithotrite is example, traditional flow process is radiology department DR (the Digital Radiography of patient elder generation from hospital, Direct Digital X ray camera chain) is diagnosed as and suffers from calculus, patient holds the DR film to rubble section then, the rubble director is by checking patient's stone location and calculus size, again behind the typing patient information, just carry out the external stone crushing treatment at last, wherein may also need the time of making an appointment.Traditional this flow process has been wasted doctor and patient's time at wait DR film, repetition typing patient information; Printing film has also been wasted resource, has strengthened the treatment cost; The complexity of flow process has also reduced the efficient of treatment.Therefore, the present present situation of Urology Surgery does not obviously meet the development trend of PACS, patient information isolated, and image information can not be shared, and has hindered the development of Urology Surgery greatly.
[summary of the invention]
Based on this, be necessary to provide a kind of and can realize digitized digital imaging system of urology surgery.
A kind of digital imaging system of urology surgery comprises: the Urology Surgery image documentation equipment, gather patient's Urology Surgery image, and described Urology Surgery image is the BMP image; Image conversion module with the described Urology Surgery image transitions dicom standard image that is Urology Surgery, and writes patient's medical information in described dicom standard image; Described image conversion module is used for the Urology Surgery image is carried out the pixel adjustment, specifically be that to adopt mode that inverted sequence reads that pixel is carried out after the order adjustment the Urology Surgery image transitions be the DICOM3.0 standard picture, promptly to the BMP image from last pixel read pixel and adjusting successively forward, if the capable byte number of pixel data is not 4 integral multiple, then carry out the byte polishing; Communication module is sent to the PACS server with the dicom standard image of described Urology Surgery and patient's medical information; The PACS server receives dicom standard image and the patient's medical information and the preservation of Urology Surgery.
Preferably, described Urology Surgery image documentation equipment also is used to send patient's personal information query requests and search condition to described PACS server, after described PACS server is received patient's personal information query requests and search condition, according to the data set among the described search condition inquiry PACS data base, patient's personal information that will meet described search condition is back to described Urology Surgery image documentation equipment.
Preferably, described Urology Surgery image documentation equipment also is used to send patient's inspection message query requests to the PACS server, after described PACS server receives patient's inspection message query requests, the information that has conducted a survey from PACS data base querying patient, comprise subject that patient checks, check the image that obtains, and the information that patient has conducted a survey is back to described Urology Surgery image documentation equipment.
Preferably, after described image conversion module also was used for the Urology Surgery image transitions is the DICOM3.0 standard picture, the DICOM3.0 standard picture is carried out one or more of following processing: window width and window level processing, mirror image processing, negative-appearing image were handled, rotation is handled, mark is handled.
Preferably, described PACS server also is used for receiving patient to be checked the image that collected and radiology department's image is kept at the PACS data base in radiology department, inquires about for described Urology Surgery image documentation equipment.
Preferably, described communication module is the DICOM3.0 standard digital interface.
Above-mentioned digital imaging system of urology surgery, by the image transitions that the Urology Surgery image documentation equipment is collected is the dicom standard image, the image that makes the Urology Surgery image documentation equipment collect can be realized filing and shared at the PACS server, thereby Urology Surgery can be incorporated in the middle of the PACS by standard digital interface, realize the digitized of Urology Surgery image documentation equipment, be convenient to management; Because image that Urology Surgery is gathered and patient information can be realized sharing by PACS, have accelerated the development of Urology Surgery, avoided the input that repeats of patient information, reduced the working doctor amount, improved efficient; In addition, the Urology Surgery image documentation equipment can be to PACS server lookup information and image, thereby can obtain image and the information that other section office collect, and radiology department then need not come out film printing, has saved the treatment cost.
[description of drawings]
Fig. 1 is the sketch map of digital imaging system of urology surgery among the embodiment;
Fig. 2 is the sketch map of DICOM file format among the embodiment.
[specific embodiment]
As shown in Figure 1, a kind of digital imaging system of urology surgery comprises Urology Surgery image documentation equipment 10, image conversion module 20, communication module 30 and PACS server 40, wherein:
Urology Surgery image documentation equipment 10 is used to gather patient's Urology Surgery image.Urology Surgery image documentation equipment 10 can be extracorporeal lithotiptor, Urology Surgery operation table, diasonograph, splanchnoscopy machine etc., when patient goes Urology Surgery to treat, can collect image by these image documentation equipments.
It is the dicom standard image of Urology Surgery that image conversion module 20 is used for the Urology Surgery image transitions, and writes patient's medical information in the dicom standard image.Because the image that Urology Surgery image documentation equipment 10 collects all is non-dicom standard image, generally is the BMP form, non-dicom standard image can't be realized sharing in the PACS server, need be the dicom standard image with non-dicom standard image transitions therefore.
Because stipulated the file format of DICOM image in the dicom standard, as shown in Figure 2, a common DICOM file is made up of a DICOM file header and a DICOM data acquisition system.And the image of BMP form be a kind of use very widely with the irrelevant image file format of hardware device, it adopts position mapping storage, can only store monochrome, 16 colors, 256 colors, four kinds of view data of full color, except picture depth is optional, do not adopt other any compressions.A BMP file can be divided into bitmap file head, message bit pattern, color table and four parts of data bitmap usually, the scan mode of its image is pressed from left to right, order from top to bottom, be the pixel in first byte representation bitmap lower left corner in the array, and last byte is represented the pixel in the bitmap upper right corner.
Dicom standard image and BMP image file head and data structure all have very big difference, DICOM except have the image size, highly, the indispensable information of normal image such as width, every pixel byte, a large amount of medical informations also in the data element of data acquisition system, have been stored, as information such as patient name, age, hospital's name, imaging time, inspection parts.And the DICOM image is stored in order, and therefore the pixel in first byte representation image upper left corner of array, and the pixel in last byte presentation video lower right corner need to carry out the order adjustment of pixel in image transitions.
The pixel adjustment is a kind of means of Flame Image Process, adopts the mode that inverted sequence reads that pixel is carried out order adjustment here, promptly to the BMP image from last pixel read pixel and adjusting successively forward.If the capable byte number of pixel data is not 4 integral multiple, then carry out the byte polishing.According to the structrual description of top BMP image file and DICOM image file, 20 pairs of non-standard images of image conversion module carry out being converted to dicom standard image (as shown in Figure 3) after the pixel adjustment.After being converted to the dicom standard image, also need to write patient's medical information, patient's medical information comprises patient name, age, hospital's name, imaging time, inspection part etc.
In one embodiment, image conversion module 20 is carried out one or more of following processing to the DICOM3.0 standard picture after the image transitions that Urology Surgery image documentation equipment 10 is collected is the DICOM3.0 standard picture: window width and window level processing, mirror image processing, negative-appearing image are handled, rotation is handled and mark is handled.
Communication module 30 is used for the dicom standard image of Urology Surgery and patient's medical information is sent to PACS server 40.In one embodiment, communication module 30 is the DICOM3.0 standard data interface, can send the dicom standard image to PACS server 40 and receive image and the information that PACS server 40 returns by this interface.
PACS server 40 is used to receive the dicom standard image and the patient's medical information of Urology Surgery and preserve.Because image has met dicom standard after conversion, and the medical information that has comprised patient in the image, therefore can send to PACS server 40 files, be kept among the PACS data base of PACS server 40, other section office then can get access to the image that the Urology Surgery image documentation equipment collects from PACS server 40.
In one embodiment, Urology Surgery image documentation equipment 10 also is used to send patient's personal information query requests and search condition to PACS server 40, concrete, utilize the Worklist service of PACS server, ask by the C-Find among the DICOM query/retrieve, send search condition and (be generally patient's identification number, check classification etc.), after PACS server 40 is received patient's personal information query requests and search condition, according to the data set in the search condition inquiry PACS data, obtain meeting patient's personal information of search condition, the name that comprises patient, sex, age, the address, information such as phone, and the patient's personal information that inquires returned to Urology Surgery image documentation equipment 10.Urology Surgery image documentation equipment 10 obtains can setting up after patient's personal information the case history of rubble, has avoided the input that repeats of patient information.
In one embodiment, Urology Surgery image documentation equipment 10 sends patient's inspection message query requests to PACS server 40, thereby the inquiry patient had done the information of checking, equally based on DICOM query/retrieve, sending the C-Find request earlier inquires about, send the C-Move request then and make PACS server 40 that the image that inquires is sent to this locality, download to this locality and can call DICOM browser browse graph picture.After PACS server 40 is received patient's inspection message query requests, the information that the inquiry patient has conducted a survey from the PACS data base, these information comprise subject that patient checks, check the image that obtains etc., and the information that patient has conducted a survey is back to Urology Surgery image documentation equipment 10.For example, patient checks that in radiology department the figure that obtains provides a PACS server 40 to file, and Urology Surgery image documentation equipment 10 can send the request inquiry and obtain the image that collects in radiology department.
When patient checks in radiology department, information that radiology department collects and image can be kept on the PACS server 40, patient goes the Urology Surgery treatment then, the Urology Surgery doctor checks the image that obtains by Urology Surgery image documentation equipment 10 real time inspection patients in radiology department, in addition, Urology Surgery image documentation equipment 10 can obtain patient information and set up archives, need not to carry out the input that repeats of patient information, patient's Urology Surgery image documentation equipment 10 after urologic examination is intact files to PACS server 40 image uploading that collects, and other section office can get access to the image that Urology Surgery collects by PACS server 40.
Above-mentioned digital imaging system of urology surgery, by the image transitions that the Urology Surgery image documentation equipment is collected is the dicom standard image, the image that makes the Urology Surgery image documentation equipment collect can be realized filing and shared at the PACS server, thereby Urology Surgery can be incorporated in the middle of the PACS by standard digital interface, realize the digitized of Urology Surgery image documentation equipment, be convenient to management; Because image that Urology Surgery is gathered and patient information can be realized sharing by PACS, have accelerated the development of Urology Surgery, avoided the input that repeats of patient information, reduced the working doctor amount, improved efficient; In addition, the Urology Surgery image documentation equipment can be to PACS server lookup information and image, thereby can obtain image and the information that other section office collect, and radiology department then need not come out film printing, has saved the treatment cost.
The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to claim of the present invention.Should be pointed out that for the person of ordinary skill of the art without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.
Claims (6)
1. a digital imaging system of urology surgery is characterized in that, comprising:
The Urology Surgery image documentation equipment is gathered patient's Urology Surgery image, and described Urology Surgery image is the BMP image;
Image conversion module with the described Urology Surgery image transitions dicom standard image that is Urology Surgery, and writes patient's medical information in described dicom standard image;
Described image conversion module is used for the Urology Surgery image is carried out the pixel adjustment, specifically be that to adopt mode that inverted sequence reads that pixel is carried out after the order adjustment the Urology Surgery image transitions be the DICOM3.0 standard picture, promptly to the BMP image from last pixel read pixel and adjusting successively forward, if the capable byte number of pixel data is not 4 integral multiple, then carry out the byte polishing;
Communication module is sent to the PACS server with the dicom standard image of described Urology Surgery and patient's medical information;
The PACS server receives the dicom standard image of Urology Surgery and patient's medical information and preservation.
2. digital imaging system of urology surgery according to claim 1, it is characterized in that, described Urology Surgery image documentation equipment also is used to send patient's personal information query requests and search condition to described PACS server, after described PACS server is received patient's personal information query requests and search condition, according to the data set among the described search condition inquiry PACS data base, patient's personal information that will meet described search condition is back to described Urology Surgery image documentation equipment.
3. digital imaging system of urology surgery according to claim 2, it is characterized in that, described Urology Surgery image documentation equipment also is used to send patient's inspection message query requests to the PACS server, after described PACS server receives patient's inspection message query requests, the information that has conducted a survey from PACS data base querying patient, comprise subject that patient checks, check the image that obtains, and the information that patient has conducted a survey is back to described Urology Surgery image documentation equipment.
4. digital imaging system of urology surgery according to claim 1, it is characterized in that, after described image conversion module also was used for the Urology Surgery image transitions is the DICOM3.0 standard picture, the DICOM3.0 standard picture is carried out one or more of following processing: window width and window level processing, mirror image processing, negative-appearing image were handled, rotation is handled, mark is handled.
5. according to claim 1 or 2 or 3 or 4 described digital imaging system of urology surgery, it is characterized in that, described PACS server also is used for receiving patient to be checked the image that collected and radiology department's image is kept at the PACS data base in radiology department, inquires about for described Urology Surgery image documentation equipment.
6. according to claim 1 or 2 or 3 or 4 described digital imaging system of urology surgery, it is characterized in that described communication module is the DICOM3.0 standard digital interface.
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| CN103049582A (en) * | 2013-01-25 | 2013-04-17 | 苏州皓琪信息科技有限公司 | Automatic digital imaging and communications in medicine (DICOM) medical image data migration system and method |
| CN104065631B (en) * | 2013-03-22 | 2019-01-15 | 上海联影医疗科技有限公司 | Local area network PACS is serviced to WADO service system and to its access method |
| CN104331298B (en) * | 2013-07-22 | 2018-03-16 | 蓝网科技股份有限公司 | The generation method of medical science DICOM images |
| CN103729575B (en) * | 2014-01-27 | 2017-01-25 | 深圳市医诺智能科技发展有限公司 | Method and device for marking tumor |
| CN105681152A (en) * | 2016-03-08 | 2016-06-15 | 长沙博为软件技术股份有限公司 | Method for data forwarding in different networks |
| CN105787280A (en) * | 2016-03-23 | 2016-07-20 | 武汉联影医疗科技有限公司 | Patient data processing method of medical cloud gateway, cloud gateway and medical cloud system |
| CN106650211B (en) * | 2016-10-10 | 2020-01-03 | 重庆市中迪医疗信息科技股份有限公司 | Storage server |
| CN106562768A (en) * | 2016-11-07 | 2017-04-19 | 杨瑜 | Digital image intelligent system for urinary surgery |
| CN106963402A (en) * | 2017-03-16 | 2017-07-21 | 刘光 | A kind of digital imaging system of urology surgery |
| CN110391004A (en) * | 2018-04-23 | 2019-10-29 | 南京慧目信息技术有限公司 | A kind of ophthalmology visual field instrument image report acquisition method |
| CN109360632A (en) * | 2018-09-12 | 2019-02-19 | 北京东软医疗设备有限公司 | The sharing method of clinical information, apparatus and system |
| CN113257401A (en) * | 2021-06-04 | 2021-08-13 | 王兆河 | Method for collecting PACS system image film without SCP function and image inspection report |
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| US20040193901A1 (en) * | 2003-03-27 | 2004-09-30 | Ge Medical Systems Global Company, Llc | Dynamic configuration of patient tags and masking types while de-identifying patient data during image export from PACS diagnostic workstation |
| WO2005119443A2 (en) * | 2004-06-02 | 2005-12-15 | Endofusion, Inc. | System and method of a converting medical imaging movie format data to dicom compatible images |
| CN100581466C (en) * | 2006-06-28 | 2010-01-20 | 上海岱嘉医学信息系统有限公司 | Method for transmitting images of the hospital radiological department |
| US20080144897A1 (en) * | 2006-10-20 | 2008-06-19 | General Electric Company | Method for performing distributed analysis and interactive review of medical image data |
| JP2009022368A (en) * | 2007-07-17 | 2009-02-05 | Toshiba Corp | Medical image observation support system |
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