JP2004334403A - Remote image analyzing system and its method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a support system and method of application software for locally executing image processing by a medical facility without transferring image data. <P>SOLUTION: In this remote image analyzing system where a plurality of processing terminals and the host computer of an image processing center are communicatively connected, application software including a control code necessary for executing image processing desired by the processing terminal from information associated with the hardware and software configurations of the processing terminal is provided from the host computer, and the image processing or the like is locally executed. Thus, it is unnecessary to transfer image data. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a remote image analysis system, and more particularly, to a remote image analysis system associated with a multi-tier database that allows various types of image processing to be executed locally by remote operation without transferring image data in the medical field. .
[0002]
[Prior art]
In recent years, there has been remarkable progress in the development of diagnostic imaging equipment in medical practice. In particular, the development of high-speed and high-quality image diagnostic equipment is remarkable, and coupled with the advance of computer technology, not only high-speed drawing of high-definition three-dimensional images, but also real-time processing during surgery and time-series The use of four-dimensional images has also become a reality by connecting data to data.
[0003]
On the other hand, a CT image is two-dimensionally projected to create a pseudo X-ray image (this is called a ray-sum image), and a difference between a past chest X-ray image and a current ray-sum image is calculated, or There is a temporal difference technique for creating a temporal difference image by calculating a difference between a past and a current ray-sum image. With this technology, it is possible to mitigate the progress of medical equipment and equipment differences between medical facilities. (See, for example, Patent Document 1.)
[0004]
Also, in CT imaging of a moving organ such as the heart, since the images of the systole and the diastole are mixed, the generated cross-sectional image has an unclear outer shape. There is a technique for drawing a clear image at a required timing such as a maximum peak or a minimum peak. (For example, see Patent Document 2.)
[0005]
In addition, a 3D image of a tumor site and a live chest video image by ultrasonic echo are superimposed and displayed, and navigation is performed for a surgeon in a surgical operation. A breast cancer surgical operation using a 3D ultrasonic echo image is performed. There is an intraoperative navigation technique for it. (For example, see Non-Patent Document 1.)
[0006]
On the other hand, a large amount of image data generated from multi-slice CT is collectively stored in an image storage server connected via a private network, and the stored image data is not only observed on demand from the CT main body but also in a reading room. There is a multi-slice CT image storage and transmission system that can be used from a high-speed three-dimensional display system for referencing past images and a personal computer in another department. (See Non-Patent Document 2.)
[0007]
Further, after the remote doctors set the display condition of the three-dimensional image to be displayed on the terminal of both intentions, the doctor performs the three-dimensional display according to the display condition set in the three-dimensional display step of the terminal, and the display condition transmitting step. There is a remote medical care support system that transmits the display conditions set in the above to a partner terminal using a stereoscopic display command, and performs stereoscopic display according to the display conditions set in the three-dimensional display step of the terminal. By adopting this system, the three-dimensional display of both terminals can be linked, and the operators of each terminal can consult with each other while referring to the same three-dimensional image, and a quick and smooth diagnosis can be performed. Will be possible. (For example, see Patent Document 3)
[0008]
[Patent Document 1]
JP 2002-219123 A
[Patent Document 2]
JP 2001-340330 A
[Patent Document 3]
JP 2001-118015 A
[Non-patent document 1]
"Computer Aided Surgery," Vol. 4, pp. 37-44 (1999)
[Non-patent document 2]
Japan Society of Radiological Technology “Journal of the Japanese Society of Radiological Technology”, Vol. 56, No. 12, pp. 1470-1475 (December 20, 2000)
[0009]
[Technical issues to be solved]
Despite these technological innovations, the spread of these image analysis technologies to the terminal medical field has not been progressing slowly. The reason for this is that image processing such as analysis requires abundant experience and skills, but there is a remarkable shortage of human resources with such skills at the terminal medical sites, and it is used for analysis processing. Devices may be expensive and have very limited adoption in the healthcare setting, as well as the end-user not fully mastering the underlying technology that already exists.
[0010]
On the other hand, with the spread of high-speed, large-capacity communication lines in recent years, it has become technically necessary to relatively easily communicate large-scale data such as medical images between the attending physician and a specialist. It is becoming economically possible. In practice, remote guidance for gall bladder removal surgery has been implemented using a general commercial line under laparoscopic surgery.
[0011]
It is anticipated that the penetration of such information network technologies into the medical field will help to homogenize medical standards and level the opportunity for advanced medical consultation, and that the use of the aforementioned multidimensional image analysis technology will gradually expand. On the other hand, medical data is directly linked to the privacy of the patient himself, and no matter how much security measures such as hacking monitors are taken, there is a reluctance to lightly communicate individual medical data over public lines. It is also a fact that it is strong, and this is considered to be a potential factor that the latest image analysis technology will not spread to medical practice.
[0012]
Fortunately, medical institutions in Japan have relatively high levels of hardware, and even local medical institutions can prepare relatively expensive diagnostic equipment on their own. This problem would be considerably reduced if the image data directly related to the patient's privacy could be processed without leaving the hospital premises.However, unfortunately, each medical institution performed the latest image analysis on its own It is hard to say that the software skills are substantial enough.
[0013]
[Means for Solving the Problems]
In view of the above current situation in the medical field, the present inventor has come up with a method of supporting software in order that each medical institution can execute various image analysis processes without transferring image data. In other words, from the information on the hardware and software configuration of the medical institution, if a set of commands necessary for each medical institution to execute the desired image processing is provided from the outside, without taking out individual image data outside the hospital In addition, the image data can be processed independently.
[0014]
The present invention based on the above technical idea solves the above-mentioned technical problem, and comprises the following technical items.
The present invention (1) includes an input / output unit, a communication unit, a storage unit capable of storing various image processing software, and a calculation unit for executing the image analysis process, and is provided for the image analysis process. A plurality of processing terminals communicably connected to a measuring device capable of capturing image data,
The plurality of processing terminals and a host computer of an image processing center communicably connected to each of a software database for storing image analysis processing software and information required for executing the software, which can be provided,
A remote image analysis system comprising at least:
The host computer,
In response to a request from the processing terminal, a guidance unit that displays available image processing items on the input / output unit and prompts the user to select at least an image processing item desired to be provided,
An image including a command group required for executing the image analysis process item from the software database unit based on the image analysis process item and the environment information on the processing terminal input along the guidance from the guidance unit. Analysis processing software and software selection means for selecting information required for execution of the software,
Further comprising environment adjustment means for transmitting the selected image analysis processing software and information required for execution of the software to the processing terminal that has requested and executing the installation processing,
A remote image analysis system characterized in that each processing terminal can execute image analysis processing without external transfer of image data.
The present invention (2) includes an input / output unit, a communication unit, a storage unit capable of storing various image processing software, and a calculation unit for executing the image analysis process, and is provided for the image analysis process. A plurality of processing terminals communicably connected to a measuring device capable of capturing image data,
The plurality of processing terminals, an environment information database that stores environment information about image analysis processing software stored in the processing terminal, an image analysis processing software that can be provided, and information required for execution of the software. An image processing center host computer communicably connected to each of the stored software databases,
A remote image analysis system comprising at least:
The host computer,
In response to a request from the processing terminal, a guidance unit that displays available image processing items on the input / output unit and prompts the user to select at least an image processing item desired to be provided,
Based on the image analysis processing item selected along with the guidance from the guidance means and the environment information on the processing terminal from the environment information database means, the software database means needs to execute the image analysis processing item. Software for image analysis processing including a group of commands to be executed and software selection means for selecting information required for execution of the software,
Further comprising environment adjustment means for transmitting the selected image analysis processing software and information required for execution of the software to the processing terminal that has requested and executing the installation processing,
A remote image analysis system characterized in that each processing terminal can execute image analysis processing without external transfer of image data.
The present invention (3) is the remote image analysis system according to any one of the present inventions (1) and (2), wherein the image data is a medical image.
In the present invention (4), the host computer may include:
Connected to a case database that stores searchable cases for various diseases,
A case extraction unit that collects information required to execute an image analysis processing item requested by the processing terminal, extracts case data from the case database, and performs statistical processing on the extracted relevant case data. The remote image analysis system according to any one of the present inventions (1) to (3), further comprising statistical processing means for deriving information required for executing the requested processing. is there.
Also, in the present invention (5), the host computer may include:
For the relevant case data extracted by the case extraction unit, the statistical processing unit calculates a standard value for each case data item, or searches for case data that is closest to the calculated standard value, Further comprising representative case data deriving means for performing anonymization processing so that the patient name of the data cannot be specified, and deriving representative case data;
Based on the input items from the processing terminal, the representative case data is transmitted to the requesting processing terminal in addition to the information required for executing the software, and accuracy verification is performed in advance by the processing terminal. The remote image analysis system according to any one of the present invention (3) and the present invention (4), wherein
According to the present invention (6), the host computer estimates a service charge according to software including a command group to be transmitted to the processing terminal that has made the request and information required for executing the software, and requests and charges the service charge. The remote image analysis system according to any one of the present inventions (1) to (5), further comprising a charging unit for executing settlement.
The present invention (7) includes an input / output unit, a communication unit, a storage unit capable of storing various kinds of image processing software, and a calculation unit for executing the image analysis process, and is provided for the image analysis process. A plurality of processing terminals communicably connected to a measuring device capable of capturing image data,
The plurality of processing terminals and a host computer of an image processing center communicably connected to each of a software database for storing image analysis processing software and information required for executing the software, which can be provided,
A remote image analysis method characterized in that the following steps are executed on a hardware configuration including at least the image analysis processing in each processing terminal without external transfer of image data.
In response to a request from the processing terminal, an image processing item that can be provided is displayed on the input / output unit to prompt at least selection of an image processing item desired to be provided, a guidance step,
Software for image analysis processing including a command group required for executing the image analysis processing item from the software database means based on the image analysis processing item and the environment information on the processing terminal input along with the guidance. And a software selection step of selecting information required to execute the software,
An environment adjustment step of transmitting the selected image analysis software and information required for the execution of the software to a processing terminal that has requested and executing an installation process;
An execution step of executing software including the transmitted command group and information required for execution of the software by an arithmetic unit of the processing terminal.
The present invention (8) includes an input / output unit, a communication unit, a storage unit capable of storing various image processing software, and a calculation unit for executing the image analysis process, and is provided for the image analysis process. A plurality of processing terminals communicably connected to a measuring device capable of capturing image data,
The plurality of processing terminals, an environment information database that stores environment information about image analysis processing software stored in the processing terminal, an image analysis processing software that can be provided, and information required for execution of the software. An image processing center host computer communicably connected to each of the stored software databases,
A remote image analysis method characterized in that the following steps are executed on a hardware configuration including at least the image analysis processing in each processing terminal without external transfer of image data.
In response to a request from the processing terminal, an image processing item that can be provided is displayed on the input / output unit to prompt at least selection of an image processing item desired to be provided, a guidance step,
Based on the image analysis process item selected along with the guidance and the environment information on the processing terminal from the environment information database, a command group required to execute the image analysis process item from the software database means A software selection step of selecting software for image analysis processing including and information required for execution of the software,
An environment adjustment step of transmitting the selected image analysis software and information required for the execution of the software to a processing terminal that has requested and executing an installation process;
An execution step of executing software including the transmitted command group and information required for execution of the software by an arithmetic unit of the processing terminal.
The present invention (9) is the remote image analysis method according to any one of the present invention (7) and the present invention (8), wherein the image data is a medical image.
In the present invention (10), the host computer may be communicably connected to a case database which stores searchable cases of various diseases,
Collecting information required for execution of the image analysis processing item requested by the processing terminal, a case extraction step of extracting relevant case data from the case database,
The present invention (7) to the present invention, further comprising a statistical processing step of performing statistical processing on the extracted related case data and deriving information required for executing the requested processing. (9) The remote image analysis method according to any one of the inventions.
In the present invention (11), a standard value for each case data item is calculated by the statistical processing step, or case data most similar to the calculated standard value is calculated for the case data extracted in the case extracting step. Searching, performing an anonymization process so that the patient name of the case data cannot be specified, and representative case data deriving step of deriving representative case data;
Based on the input items from the processing terminal, the representative case data is transmitted to the requesting processing terminal in addition to the information required for executing the software, and accuracy verification is performed in advance by the processing terminal. And a precision verification step of executing the remote image analysis method according to any one of the inventions (9) and (10).
The present invention (12) further includes a charging step for estimating a service charge, performing billing, and executing settlement according to a command group to be transmitted to the processing terminal that has made the request and software to be installed. The remote image analysis method according to any one of the present invention (7) to the present invention (11).
The present invention (13) is a storage medium in which the remote image analysis method according to any one of the present invention (7) to the present invention (12) is recorded so as to be readable by a computer.
The present invention (14) is a transmission medium for transmitting the remote image analysis method according to any one of the present inventions (7) to (12).
[0015]
Here, terms such as “software for image analysis processing including a group of commands” in the present invention have the following meanings.
[0016]
"Image analysis processing software including command group" is a general term for the command group required to execute the image analysis processing item. For example, if the image analysis item is "fractal analysis", it is necessary for the analysis. The "command group" is, specifically, a series of processing algorithms and service functions associated with the processing, that is, image binarization, box counting method or similar function method, dimension calculation, graph display. , Excel format, etc.
[0017]
In the detailed description of the present invention, the term "control code" is also used, but the term "control code" here is used as a term to refer to the contents of the command, that is, the program itself. I have. However, since each control code of the present system is not an open resource, that is, an undisclosed program, the content of the control code must be described with a functional description. In some cases, the “control code” cannot be strictly distinguished.
[0018]
Embodiment
First, an outline of the system configuration of the present invention is shown in FIG. That is, the present invention is mainly configured by an application providing server that is a host computer, and a recording medium changer that records case images, a medical image generation device such as a magnetic resonance tomography device or a computer tomography device, and further, It is connected to a PC terminal which is an operation terminal of a specialist or the like by a communication line to form a LAN.
[0019]
On the other hand, the application providing server is also connected to off-premises terminals via a public communication line such as the Internet, and can provide applications beyond the boundaries of institutions such as hospitals.
[0020]
The configuration of the application providing server is illustrated in FIG. 2 and includes two units, a storage server unit and a data control unit.
[0021]
The storage server unit includes six data groups: collected medical image data, case-specific image data, purpose-specific software, reference three-dimensional and four-dimensional image data, registered user data, and bug report management data. The image data and the like taken by the medical image diagnostic apparatus are transmitted to the storage server unit, and related data groups are updated and stored in real time.
[0022]
On the other hand, the data control unit is a unit for selecting and transmitting the required command group. Image processing / analysis target selection function, help guidance function, new / registered user authentication function, software download function for each purpose, It has six functions: command-based image processing / analysis function and target case database reference function.
[0023]
Then, when there is a request to the application providing server, for example, a message screen of the image analysis and analysis support menu illustrated in FIG. 3 is output to the requesting terminal.
[0024]
In this case, first, an affected area to be subjected to image processing is specified, and a menu that can be provided in the affected area and its guidance are displayed. A pull-down display is desirable. Then, the software configuration of the accessed terminal is obtained, and when the menu is executed, application software or the like that needs to be further installed is detected. In FIG. 3, they are indicated by dots.
[0025]
Then, by simply clicking a desired menu item in accordance with the guidance of the corresponding item, a control code and application sending required for execution of the process are installed, and an environment in which image processing and analysis processing can be executed is established.
[0026]
Further, the system of the present invention has a function of complementing the processing / analysis menu already prepared by referring to the target case database when the processing / analysis menu is not sufficient for a diagnostic service or the like. In other words, data items required by the accessor can be searched from among the data items recorded in the target case database in a searchable manner, and the data can be statistically processed to obtain the required data. It is configured so that processing and analysis can be performed using customized data.
[0027]
The system configuration actually used is shown below. First, a terminal that subscribes to the present system conforms to a medical image communication standard called DICOM (Digital Imaging and Communication in Medicine), and a terminal and a host computer of each institution use a QR function (Query and Retrieve). (Abbreviation) is provided as standard. In addition, in the system of the present embodiment, the following command groups and applications are prepared, and various services can be provided.
[0028]
(DICOM Print)
DICOM printing is a unified standard for a print (filming) function based on the DICOM standard.
[0029]
(Data storage (still image; jpeg, bmp, xpm) (moving image; avi))
It can convert DICOM standard images into Bitmap and xpm formats for JPEG and Windows (registered trademark) and save them, and has an AVI file output function for moving images.
[0030]
(VIEWER function (image comparison by modality, multi-display, cine display, continuous display and analysis of multiple patients))
For image display methods, there are various display methods that increase the efficiency of image interpretation, such as dividing the screen into multiple parts to display continuous images, displaying past images side by side, or displaying comparative images with another patient. .
[0031]
(RESLICE function, stack recon function, image paging)
A function of estimating another image from an image once created from its position information and redisplaying the image, a method of displaying the images in a bundle and reducing the number of images, or a function of automatically switching images and sequentially displaying the images are provided.
[0032]
(Measurement (ROI, area, volume, profile, histogram, time density))
ROI is an abbreviation of Region of Interest (Region of Interest), and can measure the distribution of numbers of pixels (pixels: the minimum unit constituting an image) on an image of only a specific part of the image, and also measures the area, volume, etc. The function which can measure is prepared.
[0033]
(Curved MPR, clip with arbitrary cross section)
MPR is an abbreviation of Multi Planer Format (multi-section tomographic display). CT generally displays a sliced image of a body. However, if MPR processing is performed, a coronal section, a sagittal section, and the like of a body are also displayed. The function which can do is prepared.
[0034]
(Slab MIP, VR MPR, RAY sum)
MIP is an abbreviation of Maximum Intensity Projection, which is a maximum value projection method, and is a method of displaying the maximum value in the direction of “ray” in a method called “ray tracing” of one method of computer graphics. It can be used for displaying a blood vessel using. Unlike VR, volume rendering is used for VR, and RAY-SUM is different from MIP in that it displays not the maximum value but the average value of “rays”. By this processing, an image such as an X-ray photograph can be created. In this embodiment, these functions are provided.
[0035]
(Real time volume rendering 3D)
The real-time volume rendering (VR) is a method of displaying 3D without stress by using a processing code with extremely high calculation efficiency for VR. In this embodiment, the real-time VR function is also provided.
[0036]
(Real-time volume rendering virtual endoscope (with 3D navigation & position cross section display))
The virtual endoscope is a process that performs virtual reality processing and displays a virtual image of the state of entering into a luminal organ such as the bronchus or the large intestine. Have been.
[0037]
(Multi volume display (FUSION), with MPR overlap function)
A function is provided for processing to superimpose slice images of different medical image modalities (for example, PET and CT, PET and MRI, etc.), and a function of synthesizing and displaying not only 2D images such as slices but also 3D images. .
[0038]
(Image creation template function (2D, 3D))
The 3D image display requires a display method that suits the purpose, such as blood vessels, skin, muscles, and bones. A template function that provides default settings for displaying the target organ in advance is provided for these methods. .
[0039]
(3D ROI extraction, 3D connection site extraction)
A function is provided for extracting only necessary parts on 3D and for extracting only organs having similar colors and densities.
[0040]
(Oblique, Infinite Oblique)
In the oblique method, the MPR method is generally based on a vertical display in which a transverse section, a coronal section, and a sagittal section are orthogonal to each other, but an oblique function for arbitrarily reslicing in an oblique direction is provided.
[0041]
(CT organ automatic extraction function (liver etc.))
An image processing method for extracting only an organ by utilizing characteristics unique to the organ is prepared for each organ.
[0042]
(Automatic extraction of liver parenchyma, volume measurement (3 divisions possible))
In the case of a liver, display and simulation of the volume of the liver provided at the time of liver transplantation are important at the time of a surgical operation, and a function for observing a change in the volume of a regenerated portion or the like is provided.
[0043]
(Tumor volume, blood vessel 3D volume display)
A function of extracting a tumor part three-dimensionally and displaying its volume is provided, and it is possible to objectively evaluate the effect of the anticancer agent. In addition, a method of displaying a 3D image of a blood vessel essential for evaluation of atherosclerotic disease using a volume rendering technique is also provided.
[0044]
(Heart analysis software)
Because the heart is a moving organ, processing is diverse. It provides functions unique to the heart, such as the evaluation of the stenosis rate of blood vessels (coronary arteries) that feed the heart, the analysis of the movement of the heart, and the analysis of the blood flow distribution of the myocardium.
[0045]
(Body fat clinic software)
Software for measuring body fat percentage (body fat is calculated by the ratio of subcutaneous fat to visceral fat) is provided.
[0046]
(Perfusion)
In acute cerebral infarction, treatment decisions within six hours of onset affect the prognosis of patients, and it is essential that tests, analysis and evaluation be performed promptly, so CT, MRI, SPECT, Although the usefulness of many modalities such as PET has been shown and used in clinical settings, SPECT and PET have high quantitative properties, but these facilities are not always available. On the other hand, CT and MR are widely used, but it is difficult to capture signs related to acute cerebral infarction in general imaging. What can be captured by CTA or MRA (PC, ToF) is the level of arteries and veins thicker than capillaries, and their blood flow is not necessarily proportional to perfusion at the capillary level, that is, perfusion. In consideration of such circumstances, perfusion analysis software that enables evaluation of cerebral blood flow on which the original function of the tissue depends is prepared using CT and MR, which are widely used.
[0047]
(Lung analysis package)
It is possible to measure the volume of the lung field region from the CT image, measure the volume of each divided region by dividing the left lung into two, and dividing the right lung into three. In addition, it can also perform the CT value histogram analysis function. It is possible to calculate a statistical feature amount for each of the regions on which the analysis is performed, and to perform processing such as examining a change over time for each region of the lung field. Is also available.
[0048]
On the other hand, hardware specifications required for image processing according to the present invention are as follows. 256 MB or more of physical memory (preferably 512 MB or more). Note that the required memory amount depends on the number of slices to be processed. A video board and a display capable of displaying 24-bit color or more with a resolution of 1,280 × 1,024 or more (the video board and the display driver conform to the Windows (registered trademark) standard). Any hard disk of about 80 GB, mouse and keyboard with wheel, Ethernet (registered trademark) interface, Windows (registered trademark) XP Professional, Windows (registered trademark) XP Home Edition, Windows (registered trademark) 2000 (all Japanese versions) , TCP / IP protocol software attached to OS
However, it is not particularly limited to this.
[0049]
Incidentally, the hardware configuration of this embodiment is equivalent to DELL Precision Workstation 530 (middle tower type), CPU / XEON 2 GHz (Dual), memory / 2.0 GB, HDD / 80 GB, OS / Windows (registered trademark) 2000. XP with CD-RW was used.
[0050]
Embodiment 1
Next, an example of a package for lung analysis will be described. The specific execution order of the control codes is as shown in FIG. The control code group listed in FIG. 4 is prepared in the image processing center in advance, and it is recommended to install a missing application based on the requested terminal environment. When necessary applications are prepared, the control codes are sequentially executed.
[0051]
As an example, FIG. 5 shows an example of an output screen when the lung analysis package is executed. The image of the lung field extraction process is displayed on the image viewed from three directions, and the lung field is displayed (see the center in the figure). On the other hand, the results of calculations for various numerical data such as volume are also displayed at the same time (see the upper left column in the figure). Furthermore, another window is opened for the histogram result (see the lower right in the figure).
[0052]
FIG. 6 schematically shows a service flow in this case. Of the application software required for the processing in FIG. 5, the missing application software and the command group required for the processing execution control are downloaded from the application server. On the other hand, the upload process is also performed for the application software already owned by the end user terminal.
[0053]
An example of the analysis screen at that time is illustrated in the lower left part of FIG. The analysis result can be exchanged with another client terminal by using a CD or an e-mail within the same premises.
[0054]
Embodiment 2
(Case database reference example)
It is assumed that the initial menu of this system is not fully supported for customized use. However, the present system is configured so as to be able to partially meet a user's desire by collecting necessary data with reference to a case database on the host computer side.
[0055]
For example, when an end user wants to quantitatively evaluate the therapeutic effect of a new drug on lung cancer based on a CT image, the end user terminal obtains “region: lung field region”, “diagnostic disease: lung cancer”, and “function: size measurement”. The necessary items such as are selected. In this case, the host computer of the present system transmits an upload control code of a command group for the size measurement software on the CT image of lung cancer to the end user terminal, or the terminal stores the software. If it is determined that there is no software, a download control code of the software is transmitted from the host computer.
[0056]
In the latter case, the user often wants to check the accuracy and convenience before downloading the software. In such a case, it is possible to select “see case database” and request a prior confirmation. The host computer extracts (searches) image data and the like of a lung cancer case from the case database, and temporarily stores it as sample candidate data.
[0057]
Subsequently, the host computer analyzes the extracted sample candidate data, and extracts an extraction threshold value for the background area of the lung field, an extraction threshold value for the affected area (cancerous) area, and the average value and standard deviation of the difference between the two threshold values. Is calculated, and one to several cases closest to the respective average values are selected and stored as standard sample data.
[0058]
Then, the standard sample data is subjected to anonymization processing, and a demo version of size measurement software on a CT image of lung cancer stored in a host computer is read out in advance, and the standard version for a case corresponding to the demo version is read out. The sample data is attached and transmitted to the end user terminal.
[0059]
The terminal of the end user can receive and store this, and use the demo version and the standard sample data to confirm in advance the operability of the size measurement software for lung cancer. Further, based on the transmitted standard sample data, parameter data such as threshold data for extracting a lung cancer part and other corresponding profile information can be obtained at the same time, so that it can be utilized for actual reading and diagnosis.
[0060]
When the user selects the download of the software product version, the software product version is transmitted from the host computer. The transmitted command group is automatically installed, and the size measurement is automatically executed by dragging and dropping the CT data file to be diagnosed on the operation screen.
[0061]
The host computer is configured to automatically execute a billing process at the same time as the transmission of the commercial version software, and also has a function of performing a billing settlement such as a charge for providing a service.
[0062]
【The invention's effect】
In the present invention, software including a command group necessary for image analysis processing desired by each medical institution and information required for use of the software are collectively transmitted to the terminal of each medical institution from the host computer of the image processing center. Since it can be provided to users, image analysis processing such as multidimensional image processing can be executed locally without transferring image data. There is no such concern at all, and there is a remarkable effect that local medical institutions have the opportunity to receive high-level medical care.
[0063]
Further, since the present invention is also linked to the case data database, rare cases can be derived by extracting necessary data such as parameters from the case database and performing statistical processing. Image analysis processing suitable for various cases.
[0064]
Further, according to the present invention, only necessary commands and necessary programs can be provided according to the hardware and software components of each medical institution. Therefore, software costs can be reduced, and billing can be reduced by the image processing center. Since the servers are collectively managed, a secondary effect of high transparency can be expected.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of a system configuration of the present invention.
FIG. 2 is a diagram showing a configuration of an application providing server according to the present invention.
FIG. 3 is a diagram showing an example of a service guidance screen according to the present invention.
FIG. 4 is a diagram showing an example (lung analysis package) of an image processing and analysis procedure including a control code transferred in the present invention.
FIG. 5 is a diagram showing an example of a display screen of an analysis result according to the present invention.
FIG. 6 is an explanatory diagram schematically showing a flow of information in the system of the present invention.

Claims (14)

A measurement unit that includes an input / output unit, a communication unit, a storage unit that can store various image processing software, and a calculation unit that executes the image analysis process, and that can capture image data provided for the image analysis process. A plurality of processing terminals communicably connected to the device,
The plurality of processing terminals and a host computer of an image processing center communicably connected to each of a software database for storing image analysis processing software and information required for executing the software, which can be provided,
A remote image analysis system comprising at least:
The host computer,
In response to a request from the processing terminal, a guidance unit that displays available image processing items on the input / output unit and prompts the user to select at least an image processing item desired to be provided,
An image including a command group required to execute the image analysis processing item from the software database unit based on the image analysis processing item selected along the guidance from the guidance unit and environmental information on the processing terminal. Analysis processing software and software selection means for selecting information required for execution of the software,
Further comprising environment adjustment means for transmitting the selected image analysis processing software and information required for execution of the software to the processing terminal that has requested and executing the installation processing,
A remote image analysis system, wherein image processing can be executed in each processing terminal without external transfer of image data. A measurement unit that includes an input / output unit, a communication unit, a storage unit that can store various image processing software, and a calculation unit that executes the image analysis process, and that can capture image data provided for the image analysis process. A plurality of processing terminals communicably connected to the device,
The plurality of processing terminals, an environment information database that stores environment information about image analysis processing software stored in the processing terminal, an image analysis processing software that can be provided, and information required for execution of the software. An image processing center host computer communicably connected to each of the stored software databases,
A remote image analysis system comprising at least:
The host computer,
In response to a request from the processing terminal, a guidance unit that displays available image processing items on the input / output unit and prompts the user to select at least an image processing item desired to be provided,
Based on the image analysis processing item selected along with the guidance from the guidance means and the environment information on the processing terminal from the environment information database means, the software database means needs to execute the image analysis processing item. Software for image analysis processing including a group of commands to be executed and software selection means for selecting information required for execution of the software,
Further comprising environment adjustment means for transmitting the selected image analysis processing software and information required for execution of the software to the processing terminal that has requested and executing the installation processing,
A remote image analysis system, wherein image processing can be executed in each processing terminal without external transfer of image data. The remote image analysis system according to claim 1, wherein the image data is a medical image. The host computer,
Connected to a case database that stores searchable cases for various diseases,
A case extraction unit that collects information necessary for executing the image analysis processing item requested by the processing terminal, extracts case data from the case database, and performs statistical processing on the extracted relevant case data. The remote image analysis system according to any one of claims 1 to 3, further comprising statistical processing means for deriving information required for executing the requested processing. The host computer,
For the relevant case data extracted by the case extraction unit, the statistical processing unit calculates a standard value for each case data item, or searches for case data that is closest to the calculated standard value, Further comprising representative case data deriving means for performing anonymization processing so that the patient name of the data cannot be specified, and deriving representative case data;
Based on the input items from the processing terminal, the representative case data is transmitted to the requesting processing terminal in addition to the information required for executing the software, and accuracy verification is performed in advance by the processing terminal. 5. The remote image analysis system according to claim 3, wherein the remote image analysis system is configured to execute the following. The host computer includes a charging unit for estimating a service charge, performing billing and performing settlement in accordance with software including a command group to be transmitted to the processing terminal that has made the request and information required for executing the software. The remote image analysis system according to claim 1, further comprising: A measurement unit that includes an input / output unit, a communication unit, a storage unit that can store various image processing software, and a calculation unit that executes the image analysis process, and that can capture image data provided for the image analysis process. A plurality of processing terminals communicably connected to the device,
The plurality of processing terminals and a host computer of an image processing center communicably connected to each of a software database for storing image analysis processing software and information required for executing the software, which can be provided,
A remote image analysis method, characterized in that the following steps are executed on a hardware configuration including at least the image analysis processing in each processing terminal without external transfer of image data.
In response to a request from the processing terminal, an image processing item that can be provided is displayed on the input / output unit to prompt at least selection of an image processing item desired to be provided, a guidance step,
An image analysis process including a command group required for executing the image analysis process item from the software database unit based on the image analysis process item selected in accordance with the guidance and environment information regarding the processing terminal. A software selection step of selecting software and information required to execute the software,
An environment adjustment step of transmitting the selected image analysis software and information required for the execution of the software to a processing terminal that has requested and executing an installation process;
An execution step of executing software including the transmitted command group and information required for execution of the software by an arithmetic unit of the processing terminal. A measurement unit that includes an input / output unit, a communication unit, a storage unit that can store various image processing software, and a calculation unit that executes the image analysis process, and that can capture image data provided for the image analysis process. A plurality of processing terminals communicably connected to the device,
The plurality of processing terminals, an environment information database that stores environment information about image analysis processing software stored in the processing terminal, an image analysis processing software that can be provided, and information required for execution of the software. An image processing center host computer communicably connected to each of the stored software databases,
A remote image analysis method, characterized in that the following steps are executed on a hardware configuration including at least the image analysis processing in each processing terminal without external transfer of image data.
In response to a request from the processing terminal, an image processing item that can be provided is displayed on the input / output unit to prompt at least selection of an image processing item desired to be provided, a guidance step,
Based on the image analysis process item selected along with the guidance and the environment information on the processing terminal from the environment information database, a command group required to execute the image analysis process item from the software database means A software selection step of selecting software for image analysis processing including and information required for execution of the software,
An environment adjustment step of transmitting the selected image analysis software and information required for the execution of the software to a processing terminal that has requested and executing an installation process;
An execution step of executing software including the transmitted command group and information required for execution of the software by an arithmetic unit of the processing terminal. 9. The remote image analysis method according to claim 7, wherein the image data is a medical image. The host computer is communicably connected to a case database that stores searchable cases of various diseases,
Collecting information required for execution of the image analysis processing item requested by the processing terminal, a case extraction step of extracting relevant case data from the case database,
10. A statistical processing step of performing statistical processing on the extracted related case data and deriving information required for executing the requested processing. 2. The remote image analysis method according to claim 1. For the case data extracted in the case extraction step, the statistical processing step calculates a standard value for each case data item, or searches for case data that is closest to the calculated standard value, and searches for the case data. A representative case data deriving step of performing anonymization processing so that the patient name cannot be specified, and deriving representative case data;
Based on the input items from the processing terminal, the representative case data is transmitted to the requesting processing terminal in addition to the information required for executing the software, and accuracy verification is performed in advance by the processing terminal. 11. The remote image analysis method according to claim 9, further comprising: an accuracy verification step of performing the following. The method according to any one of claims 7 to 11, further comprising a charging step of estimating, charging, and executing a service charge according to a command group to be transmitted to the processing terminal that has made the request and software to be installed. 2. The remote image analysis method according to claim 1. A storage medium storing the remote image analysis method according to claim 7 readable by a computer. A transmission medium for transmitting the remote image analysis method according to any one of claims 7 to 12.

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