JP6775116B2 - Medical data processing equipment, terminal equipment, information processing methods, and systems - Google Patents

Description

The present invention relates to medical data processing devices, terminal devices, information processing methods, and systems, and more particularly to medical data processing devices, terminal devices, information processing methods, and systems that statistically process personal medical data.

Patent Document 1 describes an example of a computer-aided decision support system for medical image diagnosis. The system described in Patent Document 1 uses machine learning to automatically detect a problematic part from a medical image, diagnose the problematic part, and further mark the problematic part.

Special Table 2007-528746

In the medical field, most of the data to be processed are medical images of patients and the like. These are confidential information and cannot be taken out of the medical institution in charge of the patient. Therefore, even if the medical data is statistically analyzed and used for future diagnosis, the medical data that can be processed is limited to the medical data obtained by one medical institution. Therefore, it is difficult to increase the population parameter of medical data, and as a result, it is difficult to obtain highly reliable results.

The present invention has been made in view of the above circumstances, and an object of the present invention is to increase the number of medical data that can be used for statistical analysis while maintaining the confidentiality of personal medical data.

In each aspect of the present invention, the following configurations are adopted in order to solve the above-mentioned problems.

The first aspect relates to medical data processing equipment.
The medical data processing device related to the first aspect is
Produced by statistical processing by using a specific algorithm plurality of medical data managed by the first medical institution, the intermediate data first is data which is not restored to any of the plurality of medical data Receiving means received from the terminal of the medical institution and
A storage processing means for storing the received intermediate data in a storage device,
Possess a transmitting means for transmitting the intermediate data read from the storage device to the terminal of the second medical institution,
After the transmitting means transmits the intermediate data of the terminal of the first medical institution to the terminal of the second medical institution, the receiving means receives the intermediate data processed by the terminal of the second medical institution. Received from the terminal of the second medical institution
The intermediate data received from the terminal of the second medical institution includes the intermediate data transmitted by the transmitting means to the terminal of the second medical institution, and a plurality of data managed by the second medical institution. terminal of the second medical institution medical data using the specific algorithm that is produced by processing.

The second aspect relates to the terminal device.
The terminal device according to the second aspect is
It is a terminal device of the first medical institution,
It is generated by the terminal of the second medical institutions statistical processing using a specific algorithm plurality of medical data managed in the second medical institution, nor be restored to any of the plurality of medical data data The receiving means for receiving the intermediate data, which is
A processing means for generating new intermediate data by statistically processing the received intermediate data and a plurality of medical data managed by the first medical institution using the specific algorithm.
Have.

The third aspect concerns the system.
The system related to the third aspect is
Medical data processing equipment and
And a terminal device of the first medical institution terminal device and a second medical institutions are connected through the medical data processing device and the network,
The medical data processing device is
The first is the intermediate data, which is generated by statistically processing a plurality of medical data managed by the first medical institution using a specific algorithm and is not restored to any of the plurality of medical data. Receiving means received from the terminal device of the medical institution and
A storage processing means for storing the received intermediate data in a storage device,
A transmission means for transmitting the intermediate data read from the storage device to the terminal device of the second medical institution is provided.
The terminal device of the second medical institution is
A receiving means for receiving the intermediate data generated by the terminal device of the first medical institution from the medical data processing device, and
A processing means for generating new intermediate data by statistically processing the received intermediate data and a plurality of medical data managed by the second medical institution using the specific algorithm.
Possess a transmitting means for transmitting the new intermediate data to the medical data processing device,
In the medical data processing device
After the transmitting means transmits the intermediate data to the terminal device of the second medical institution, the receiving means transmits the new intermediate data statistically processed by the terminal device of the second medical institution. It received from 2 of the medical institution.

The fourth aspect relates to an information processing method executed by at least one computer.
The information processing method related to the fourth aspect is
Medical data processing device
Produced by statistical processing by using a specific algorithm plurality of medical data managed by the first medical institution, the intermediate data is data which is not restored to any of the plurality of medical data, said first Received from the terminal of the medical institution
The received intermediate data is stored in the storage device, and the data is stored in the storage device.
The intermediate data read from the storage device is transmitted to the terminal of the second medical institution ,
After transmitting the intermediate data of the terminal of the first medical institution to the terminal of the second medical institution, the intermediate data processed by the terminal of the second medical institution is transmitted from the terminal of the second medical institution. look including to receive,
The intermediate data received from the terminal of the second medical institution is the intermediate data transmitted to the terminal of the second medical institution and a plurality of medical data managed by the second medical institution. It is generated by processing by the terminal of the second medical institution using a specific algorithm .

The fifth aspect relates to an information processing method executed by at least one computer.
The information processing method related to the fifth aspect is
The terminal device of the first medical institution
Intermediate data that is generated by other terminal devices managed by a second medical institution by statistically processing a plurality of medical data using a specific algorithm and is not restored to any of the plurality of medical data. Received
The specific algorithm is used to statistically process the received intermediate data and a plurality of medical data managed by the first medical institution to generate new intermediate data.

As another aspect of the present invention, it may be a program that causes at least one computer to execute the method of the fourth aspect or the fifth aspect, and the computer that records such a program can read the program. Recording medium may be used. This recording medium includes non-temporary tangible media.
This computer program includes computer program code that causes the computer to perform its information processing method on a medical data processing device or terminal device when executed by the computer.

It should be noted that any combination of the above components and the conversion of the expression of the present invention between methods, devices, systems, recording media, computer programs and the like are also effective as aspects of the present invention.

Further, the various components of the present invention do not necessarily have to be independent of each other, and a plurality of components are formed as one member, and one component is formed of a plurality of members. It may be that a certain component is a part of another component, a part of a certain component overlaps with a part of another component, and the like.

Further, although the method and the computer program of the present invention describe a plurality of procedures in order, the order of description does not limit the order in which the plurality of procedures are executed. Therefore, when implementing the method and computer program of the present invention, the order of the plurality of procedures can be changed within a range that does not hinder the contents.

Furthermore, the methods of the present invention and the plurality of procedures of a computer program are not limited to being executed at different timings. Therefore, another procedure may occur during the execution of a certain procedure, or the execution timing of the certain procedure and the execution timing of the other procedure may partially or completely overlap.

According to each of the above aspects, a medical data processing device, a terminal device, an information processing method, and a system capable of increasing the number of medical data used for statistical analysis while maintaining the confidentiality of personal medical data are provided. be able to.

It is a figure which conceptually shows the structure of the medical information system 1 which concerns on 1st Embodiment. It is a functional block diagram which logically shows the structure of the medical data processing apparatus 100 which concerns on 1st Embodiment. It is a functional block diagram which logically shows the structure of the terminal apparatus 200 which concerns on 1st Embodiment. It is a figure for demonstrating the medical data in the medical information system 1 of 1st Embodiment. It is a figure which shows an example of the structure of the computer 80 which realizes each apparatus of the medical information system 1 of 1st Embodiment. It is a flowchart which shows an example of the operation of the medical data processing apparatus 100 of 1st Embodiment. It is a flowchart which shows the detailed example of the operation flow of the medical information system 1 of 1st Embodiment. It is a figure which shows the detailed example of the operation flow of the medical information system 1 of 1st Embodiment. It is a functional block diagram which logically shows the structure of the medical data processing apparatus 100 of 2nd Embodiment. It is a figure which shows the functional structure of the medical data processing apparatus 100 of the 3rd Embodiment. Each figure is a diagram showing an example of the data structure of the storage device 110 of the third embodiment. It is a flowchart which shows an example of the operation of the medical information system 1 of 3rd Embodiment. It is a flowchart which shows an example of the operation of the medical information system 1 of 4th Embodiment. It is a functional block diagram which logically shows the structure of the medical data processing apparatus 100 of 5th Embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In all drawings, similar components are designated by the same reference numerals, and description thereof will be omitted as appropriate. In addition, the functional block diagram shows a logical functional unit block, not a hardware unit configuration.

(First Embodiment)
The medical data processing device, terminal device, information processing method and system according to the first embodiment will be described below.

FIG. 1 is a diagram conceptually showing the system configuration of the medical information system 1. The medical information system 1 includes a medical data processing device 100 and a plurality of terminal devices 200. The medical data processing device 100 is located in, for example, a data center, and the plurality of terminal devices 200 are located in different medical institutions. Here, the medical institution is an institution that manages medical data 30, and is, for example, a hospital or a clinic.

The medical data processing device 100 and the plurality of terminal devices 200 communicate with each other via the network 3. The network 3 is, for example, a communication network such as a LAN (Local Area Network) such as the Internet or a WAN (Wide Area Network), and may be either wired or wireless. Further, the network 3 may be a combination of a plurality of communication networks. The communication between the terminal device 200 and the medical data processing device 100 is preferably subjected to predetermined authentication processing and encryption processing.

The medical data processing device 100 stores information (for example, an IP (Internet Protocol) address or a MAC (Media Access Control) address) necessary for communicating with each of the plurality of terminal devices 200. Further, the terminal device 200 stores information (for example, IP address or MAC address) necessary for communicating with the medical data processing device 100.

A plurality of medical data 30 are managed in each medical institution. Each of the medical data 30 is generated based on the case handled by the medical institution, and is data that should be kept secret as personal information of the patient. The terminal device 200 performs statistical processing using a plurality of medical data 30 managed by the medical institution where the terminal device 200 is arranged, and the result of this processing (hereinafter referred to as intermediate data 40) is obtained. It is transmitted to the medical data processing device 100. The processing performed by the terminal device 200 is executed using a specific algorithm. The intermediate data 40 is data that is not restored to any of the plurality of medical data 30. That is, the intermediate data 40 does not include each medical data 30 as it is.

An example of statistical processing performed by the terminal device 200 is processing by machine learning (for example, deep machine learning). In this case, the medical data 30 becomes training data in machine learning. However, this process is not limited to machine learning.

The medical data processing device 100 transmits the intermediate data 40 received from one terminal device 200 to another terminal device 200. The terminal device 200 that has received the intermediate data 40 from the medical data processing device 100 statistically uses the intermediate data 40 and a plurality of medical data 30 managed by the medical institution where the terminal device 200 is arranged. Processing is performed to generate new intermediate data 40. Then, the terminal device 200 transmits the new intermediate data 40 to the medical data processing device 100.

When the medical data processing device 100 and the plurality of terminal devices 200 repeatedly send and receive such intermediate data 40, the intermediate data 40 possessed by the medical data processing device 100 is the plurality of medical data 30 managed by a plurality of medical institutions. It becomes the processed data. On the other hand, the information exchanged between the terminal device 200 and the medical data processing device 100 does not include the medical data 30. Therefore, it is possible to increase the number of medical data 30 to be statistically processed while keeping the medical data held by a plurality of medical institutions secret.

Further, the amount of the intermediate data 40 is smaller than that of the plurality of medical data 30. Therefore, the amount of communication between the medical data processing device 100 and the terminal device 200 is smaller than in the case of directly communicating the plurality of medical data 30.

Then, the intermediate data 40 is used for diagnosis based on the new medical data 30.

The number of terminal devices 200 is not limited to three. The terminal device 200 is connected to the medical data processing device 100 via the network 3. Further, in the example shown in FIG. 1, one medical institution is provided with one terminal device 200, but one medical institution may be provided with a plurality of terminal devices 200. In this case, the terminal device 200 is provided, for example, in each of a plurality of clinical departments different from each other.

Hereinafter, the medical data processing device 100 and the terminal device 200 will be described in detail.

<Medical data processing device>
FIG. 2 is a functional block diagram that logically shows the configuration of the medical data processing device 100. The medical data processing device 100 has a receiving unit 102, a storage processing unit 104, and a transmitting unit 106.

The receiving unit 102 receives the intermediate data 40 from the terminal device 200. The intermediate data 40 is data generated by statistically processing a plurality of medical data 30 using a specific algorithm as described above. Here, as an example of statistical processing, it is a processing for obtaining a mean, a median value, a standard deviation, and a threshold value indicating that a specific case is likely to occur. Further, when the algorithm for generating the intermediate data 40 follows the neural network of deep machine learning, the intermediate data 40 is the number (N number) of the medical data 30 processed by the processing unit 204 and the value of the processing result. It contains at least one of (mean, standard deviation, etc.) and parameters in the neural network.

The parameters in the neural network are, for example, the values of the weight (W) and the bias (B) of the function f (x) represented by the following equation (1). In the neural network, the following functions described above are applied to each of a plurality of layers.
f (x) = W (weight) x + B (bias) ... Equation (1)

The storage processing unit 104 stores the intermediate data 40 received by the receiving unit 102 in the first storage unit 114 of the storage device 110. In the example of FIG. 2, the storage device 110 is provided outside the medical data processing device 100. However, the storage device 110 may be realized by the memory or storage of a computer that realizes the medical data processing device 100 described later. Further, the storage device 110 may be composed of a plurality of storage devices.

The transmission unit 106 transmits the intermediate data 40 read from the first storage unit 114 of the storage device 110 to the terminal device 200. For example, the transmission unit 106 reads the intermediate data 40 generated by the terminal device 200 of the medical institution A (see FIG. 1) from the first storage unit 114, and uses the intermediate data 40 as the terminal of the medical institution B (see FIG. 1). It is transmitted to the device 200.

<Terminal device>
FIG. 3 is a functional block diagram that logically shows the configuration of the terminal device 200. The terminal device 200 has a receiving unit 202, a processing unit 204, and a transmitting unit 206.

The receiving unit 202 receives the intermediate data 40 generated by another terminal. The processing unit 204 processes the intermediate data 40 received from the medical data processing device 100 and the plurality of medical data 30 managed by the terminal device 200, and generates new intermediate data 40. This process is performed according to the algorithm indicated by the code information 50.

The code information 50 includes a code that describes an algorithm for statistically processing the medical data 30. This algorithm is described, for example, by code (including scripts) such as programs and libraries that realize frameworks for various statistical description environments for deep machine learning. In the present embodiment, the analysis part of the algorithm may be realized by frameworks of various statistical description environments of general-purpose or specific deep machine learning such as R language, torch7, Caffe, Rapid. Further, the code information storage unit 212 may also include the code information 50 of the code support system or the shared system of the algorithm framework.

The code information 50 is stored in the terminal device 200 in advance, for example. However, the code information 50 may be transmitted from an external device.

The transmission unit 206 transmits the intermediate data 40 indicating the processing result by the processing unit 204 to the medical data processing device 100. The transmission unit 206 may transmit the intermediate data 40 to the medical data processing device 100 according to the request from the medical data processing device 100, or transmit the intermediate data 40 to the medical data processing device 100 at a timing when there is no such request. May be good.

The intermediate data 40 received by the receiving unit 202 and the intermediate data 40 generated by the processing unit 204 may be stored in the intermediate data storage unit 216 (indicated as "intermediate data" in the figure) of the storage device 210. .. In the example of FIG. 3, the storage device 210 is provided outside the terminal device 200. However, the storage device 210 may be realized by the memory or storage of the computer that realizes the terminal device 200 described later. Further, the storage device 210 may be composed of a plurality of storage devices.

In addition to the intermediate data storage unit 216, the storage device 210 includes a code information storage unit (indicated as "code information" in the figure) 212 and a medical data storage unit (indicated as "medical data" in the figure) 214. Includes. The code information storage unit 212 stores the code information 50, and the medical data storage unit 214 stores the medical data 30.

Each figure of FIG. 4 is a diagram showing an example of the data structure of the medical data 30.

In the example shown in FIG. 4A, the medical data 30 has input data 32 and output data 34. The input data 32 includes, for example, at least one of quantitative data obtained by quantifying various test results and image data for medical diagnosis.

This image data is, for example, a medical image taken by a medical image device (modality). Medical imaging devices are, for example, X-ray imaging devices, CT (Computed Tomography) and MRI (Magnetic Resonance Imaging), but are not limited thereto. The image data included in the input data 32 may be a part of the raw data (for example, an image of a part of the area including the lesion site of the roentgen image) or a high dimension such as four-dimensional data such as motion analysis. Data may be included, or tensor data obtained by extracting this information may be included. Further, this image data may be compliant with DICOM (Digital Imaging and Communication in Medicine).

The output data 34 includes information (for example, text data) indicating a diagnosis result or the like of the input data 32. This information may be generated based on the input from a doctor or the like, or may be generated by processing the input data 32 by a processing device (for example, an image processing device).

Each of FIGS. 4 (b) to 4 (d) shows a detailed example of the medical data 30 shown in FIG. 4 (a).

In the example shown in FIG. 4B, the input data 32 includes image data of the lesion site of the roentgen image, and the output data 34 is the text data “cancer tumor: present” indicating the diagnosis result of the roentgen image of the input data 32. ”Is included. In the example shown in FIG. 4C, the input data 32 is an image obtained by cutting out a portion showing cancer from the X-ray image, and the output data 34 is information indicating the score. In the example shown in FIG. 4D, the input data 32 is an image obtained by cutting out a portion in which the joint is shown, and the output data 34 is information indicating a sharp score of rheumatoid arthritis.

The medical data processing device 100 shown in FIGS. 1 and 2 and the terminal device 200 shown in FIGS. 1 and 3 are both realized by using a computer and a program. Each of the medical data processing device 100 and the terminal device 200 may be realized by one computer, may be realized by combining a plurality of computers, or may be realized as a virtual device.

FIG. 5 is a diagram showing an example of the configuration of a computer 80 that realizes the medical data processing device 100 and the terminal device 200. The computer 80 includes a CPU (Central Processing Unit) 82, a memory 84, a storage 85 for storing a program 90, an I / O (Input / Output) 86, and a network connection interface (communication I / F 87).

The CPU 82, the memory 84, the storage 85, the I / O 86, and the communication I / F 87 are connected to each other via the bus 89, and the entire medical data processing device 100 is controlled by the CPU 82. However, the method of connecting the CPU 82 and the like to each other is not limited to the bus connection.

The memory 84 is a memory such as a RAM (Random Access Memory) or a ROM (Read Only Memory). The storage 85 is a storage device such as a hard disk, an SSD (Solid State Drive), or a memory card.

The storage 85 may be a memory such as RAM or ROM. The storage 85 may be provided inside the computer 80, or may be provided outside the computer 80 and connected to the computer 80 by wire or wirelessly if the computer 80 is accessible. Alternatively, it may be detachably provided on the computer 80.

The I / O 86 controls input / output of data and control signals between the computer 80 and other input / output devices. The other input / output devices include, for example, an input device (not shown) such as a keyboard, touch panel, mouse, and microphone connected to the computer 80, and an output device (not shown) such as a display, a printer, and a speaker. These input / output devices and the interface of the computer 80 are included. Further, the I / O 86 may perform data input / output control with a reading or writing device (not shown) of another recording medium.

The communication I / F 87 is a network connection interface for communicating between the computer 80 and an external device. The communication I / F 87 may be a network interface for connecting to a wired line or a network interface for connecting to a wireless line. For example, the computer 80 that realizes the medical data processing device 100 is connected to the terminal device 200 via the network 3 by the communication I / F 87.

Then, the CPU 82 reads the program 90 stored in the storage 85 into the memory 84 and executes it to realize each function of the medical data processing device 100 and the terminal device 200.

For example, a computer program 90 (hereinafter referred to as a computer program 90a) for realizing the medical data processing device 100 is a procedure for receiving intermediate data 40 from a terminal device 200 to the computer 80 serving as the medical data processing device 100. It is described so as to execute the procedure of storing the intermediate data 40 in the first storage unit 114 and the procedure of transmitting the intermediate data 40 read from the first storage unit 114 to another terminal device 200.

Further, the program 90 for realizing the terminal device 200 (hereinafter referred to as a computer program 90b) includes a procedure for receiving the intermediate data 40 from the medical data processing device 100 to the computer 80 serving as the terminal device 200, and the received intermediate data. It is described to execute a procedure of processing 40 and a plurality of medical data 30 to generate new intermediate data 40. The program 90b may also be written to execute a procedure for transmitting new intermediate data 40 to the medical data processing device 100.

The computer program 90 (90a, 90b) may be recorded on a recording medium readable by the computer 80. The recording medium is not particularly limited, and various forms can be considered. Further, the computer program 90 may be loaded from the recording medium into the memory 84 of the computer 80, or may be downloaded to the computer 80 via the network and loaded into the memory 84.

The recording medium for recording the computer program 90 includes a medium that can be used by the non-temporary tangible computer 80, and the program code readable by the computer 80 is embedded in the medium. When the computer program 90 is executed on the computer 80, the computer 80 is made to execute the following information processing methods for realizing each device (medical data processing device 100 and terminal device 200).

It will be understood by those skilled in the art that there are various variations in the method of realizing each component of each device.

FIG. 6 is a flowchart showing an example of the operation of the medical data processing device 100. The information processing method shown in this figure includes the following processes. First, the receiving unit 102 of the medical data processing device 100 receives the intermediate data 40 from the terminal device 200 of a certain medical institution (step S101). The storage processing unit 104 stores the intermediate data 40 received by the reception unit 102 in the first storage unit 114 (step S103). After that, the transmission unit 106 reads the intermediate data 40 from the first storage unit 114, and transmits the read intermediate data 40 to the terminal device 200 of another medical institution (step S105).

After that, the receiving unit 102 of the medical data processing device 100 receives the new intermediate data 40 from the terminal device 200 of the other medical institution described above.

FIG. 7 is a flowchart showing a detailed example of the operation flow of the medical information system 1 of the present embodiment. The flow shown in FIG. 7 includes a process performed by the terminal device 200 in addition to the process performed by the medical data processing device 100 shown in FIG.

First, a plurality of medical data 30 are prepared as training data in each of the terminal device 200 of the medical institution A and the terminal device 200 of the medical institution B (steps S121 and S131). The medical data 30 is stored in the medical data storage unit 214 of each terminal device 200.

Then, in the terminal device 200 of the medical institution A, the processing unit 204 processes the plurality of medical data 30 prepared in step S121 and generates intermediate data 40 (step S123). Then, the transmission unit 206 transmits the generated intermediate data 40 to the medical data processing device 100 (step S125).

The receiving unit 102 of the medical data processing device 100 receives the intermediate data 40 from the terminal device 200 (step S111). The storage processing unit 104 stores the intermediate data 40 received by the receiving unit 102 in the first storage unit 114 of the storage device 110 (step S113). Then, the transmission unit 106 reads the intermediate data 40 from the first storage unit 114, and transmits the intermediate data 40 to the terminal device 200 of the medical institution B different from the medical institution A (step S115).

The receiving unit 202 of the terminal device 200 of the medical institution B receives the intermediate data 40 from the medical data processing device 100 (step S133). The processing unit 204 performs statistical processing using the received intermediate data 40 and the plurality of medical data 30 (step S135). The algorithm used when performing this process is the same as the algorithm used by the terminal device 200 of the medical institution A. As a result, new intermediate data 40 is generated. Then, the transmission unit 206 of the terminal device 200 transmits the new intermediate data 40 to the medical data processing device 100 (step S137).

The receiving unit 102 of the medical data processing device 100 receives new intermediate data 40 from the terminal device 200 of the medical institution B (step S117). The storage processing unit 104 stores the intermediate data 40 newly received by the receiving unit 102 in the first storage unit 114. Further, the transmission unit 106 reads the latest intermediate data 40 from the first storage unit 114 and distributes the latest intermediate data 40 to at least one terminal device 200 (for example, all terminal devices 200) as needed (step S119). The intermediate data 40 may not be transmitted to the terminal device 200 that generated the latest intermediate data 40 in step S119.

The processing timing shown in step S119, that is, the delivery timing of the final intermediate data 40 from the medical data processing device 100 to the terminal device 200 is limited to the example shown in FIG. 7 after step S117. Not done. For example, each terminal device 200 requests the medical data processing device 100 for intermediate data 40 when necessary or periodically, and the medical data processing device 100 transmits the intermediate data 40 to the terminal device 200 in response to this request. May be good. Further, the medical data processing device 100 may transmit the intermediate data 40 to at least one (or all) terminal devices 200 at regular intervals or at any time.

Further, as shown in FIG. 8, after the processing shown in FIG. 7, the medical institution B is compared with the terminal device 200 of at least one other medical institution (for example, the terminal device 200 of the medical institution C shown in FIG. 1). The same processing as that of the terminal device 200 of the above may be performed.

Specifically, after receiving the intermediate data 40 from the terminal device 200 of the medical institution B (step S117), the transmission unit 106 of the medical data processing device 100 transmits the intermediate data 40 to the terminal device 200 of the medical institution C. (Step S141).

Medical data 30 as training data is prepared in the terminal device 200 of the medical institution C (step S151). The medical data 30 is stored in the medical data storage unit 214. Then, the receiving unit 202 of the terminal device 200 of the medical institution C receives the intermediate data 40 from the medical data processing device 100 (step S153). The processing unit 204 processes the received intermediate data 40 and medical data 30 by using the same algorithm as the terminal device 200 of the medical institution A and the terminal device 200 of the medical institution B. As a result, new intermediate data 40 is generated (step S155). Then, the transmission unit 206 transmits the new intermediate data 40 to the medical data processing device 100 (step S157).

The receiving unit 102 of the medical data processing device 100 receives new intermediate data 40 from the terminal device 200 of the medical institution C (step S143). The storage processing unit 104 stores the intermediate data 40 received in step S143 in the first storage unit 114. The intermediate data 40 stored here is generated based on the medical data 30 of the three medical institutions A, B, and C. Then, the transmission unit 106 reads the latest intermediate data 40 from the first storage unit 114 and distributes it to each terminal device 200 as needed (step S145). The distribution timing of the intermediate data 40 shown in step S145 is also the same as in step S119.

Further, the training data preparation (for example, step S131 in FIG. 7 or step S151 in FIG. 8) may be performed at any time before the statistical processing (for example, step S137 in FIG. 7 or step S155 in FIG. 8) is performed. For example, the preparation of training data may be performed after the process of receiving the intermediate data 40 (for example, step S135 in FIG. 7 or step S153 in FIG. 8).

As described above, according to the present embodiment, the medical data processing device 100 receives the intermediate data 40 indicating the result of processing the medical data 30 from the terminal device 200 (for example, the terminal device 200 of the medical institution A), and the intermediate data 40 is received. The data 40 is transmitted to another terminal device 200 (for example, the terminal device 200 of the medical institution B). Then, the terminal device 200 that has received the intermediate data 40 generates new intermediate data 40 by using the intermediate data 40 and the medical data 30 prepared by the terminal device 200. Then, the terminal device 200 transmits the intermediate data 40 to the medical data processing device 100.

As described above, when the medical information system 1 is used, one intermediate data 40 can be generated using the medical data managed by each of the plurality of medical institutions. In other words, statistical processing can be performed based on the medical data 30 of a plurality of medical institutions. Therefore, the number of medical data 30 to be processed can be increased to improve the accuracy of the intermediate data 40. Further, since the intermediate data 40 is data indicated by parameters, it does not include medical information of the patient to be kept secret. Further, since the amount of data of the intermediate data 40 is small, the communication load and the processing load are also small.

(Second Embodiment)
The medical information system 1 of the present embodiment is the same as that of the first embodiment except that the medical data processing device 100 distributes the code information 50 to the terminal device 200. In the present embodiment, the configuration of the medical data processing device 100 is different from that of the first embodiment, but the configuration of the terminal device 200 is the same as that of the first embodiment.

FIG. 9 is a functional block diagram showing the configuration of the medical data processing device 100 according to the present embodiment. The medical data processing device 100 shown in this figure has a receiving unit 102, a storage processing unit 104, a reading unit 132, and a transmitting unit 136. The receiving unit 102 and the storage processing unit 104 are the same as the medical data processing device 100 of FIG. The storage device 110 has a code information storage unit 112 in addition to the first storage unit 114 shown in the first embodiment. The code information storage unit 112 and the first storage unit 114 may be different storage areas of one storage device 110, or may be physically different storage devices.

The code information storage unit 112 stores the code information 50. The reading unit 132 reads the code information 50 from the code information storage unit 112. The transmission unit 136 has the same function as the transmission unit 106 of the above embodiment of FIG. 1, and transmits the code information 50 read by the reading unit 132 to at least one terminal device 200. The transmission of the code information 50 may be performed according to the request from the terminal device 200. Further, the transmission unit 136 may transmit the intermediate data 40 received from the other terminal device 200 together with the code information 50.

On the other hand, the receiving unit 202 (see FIG. 3) of the terminal device 200 receives the code information 50 from the medical data processing device 100 and stores it in the code information storage unit 212.

The code information 50 may be distributed from the medical data processing device 100 to the terminal device 200 based on a request from the terminal device 200, or when the medical data processing device 100 detects a new terminal device 200. It may be performed for the terminal device 200. Further, when the code information 50 stored in the code information storage unit 112 is updated, the reading unit 132 and the transmitting unit 136 terminal the updated code information 50 together with the information that the code information 50 should be updated. It may be delivered to the device 200. In this case, the terminal device 200 updates the code information 50 stored in the code information storage unit 212 with the received code information 50.

In the present embodiment, the computer program 90a for realizing the medical data processing device 100 is a procedure for reading the code information 50 from the code information storage unit 112 to the computer 80 in addition to the computer program 90a shown in the first embodiment. , And the procedure of transmitting the read code information 50 to at least one terminal device 200.

Further, the computer program 90b for realizing the terminal device 200 receives the code information 50 from the medical data processing device 100 and stores it in the code information storage unit 212 in addition to the computer program 90b shown in the first embodiment. It is written to execute the procedure.

As described above, according to the present embodiment, as in the first embodiment, the number of medical data 30 used when generating the intermediate data 40 can be increased, so that the accuracy of the intermediate data 40 is improved. Further, since the medical data processing device 100 distributes the code information 50 to the terminal device 200, it becomes easy to add a new terminal device 200 to the medical information system 1.

(Third Embodiment)
FIG. 10 is a diagram showing a functional configuration of the medical data processing device 100 according to the third embodiment. The medical data processing device 100 of the present embodiment records the terminal device 200 that has received the intermediate data 40 by using information for distinguishing the terminal devices 200 (or medical institutions) from each other (hereinafter, referred to as identification information). Except for the point, it is the same as either of the first embodiment and the second embodiment. Note that FIG. 10 shows a case similar to that of the first embodiment.

Specifically, the storage device 110 according to the present embodiment has a history information storage unit 116 in addition to the first storage unit 114. The receiving unit 102 receives the identification information of the terminal device 200, which is the source of the intermediate data 40, together with the intermediate data 40. The storage processing unit 104 stores the information for identifying the identification information received by the reception unit 102 in the history information storage unit 116.

FIG. 11A shows a first example of the data structure of the history information storage unit 116. In this example, the history information storage unit 116 stores the identification information (an example of the received information) of the terminal device 200 in which the medical data processing device 100 has already received the intermediate data 40. In FIG. 11A, the history information storage unit 116 also records information on the reception date and time, but this information is not always necessary.

The storage device 110 stores the identification information of all the terminal devices 200. Then, the transmission unit 106 selects the terminal device 200 whose identification information is not stored in the history information storage unit 116, and transmits the intermediate data 40 and receives the new intermediate data 40 with the selected terminal device 200. (For example, the processes from steps S115 to S119 in FIG. 7) are performed.

FIG. 11B shows a second example of the data structure of the history information storage unit 116. In the example shown in this figure, the history information storage unit 116 associates the identification information of each of the plurality of terminal devices 200 with a flag (another example of received information) indicating whether or not the intermediate data 40 has been transmitted. I remember. Then, when the storage processing unit 104 receives the intermediate data 40 and the identification information, the storage processing unit 104 changes the flag corresponding to the received identification information from unreceived to received.

Then, the transmission unit 106 selects the terminal device 200 for which the flag of the hospital information storage unit 118 has not been received, and transmits the intermediate data 40 and the new intermediate data 40 to and from the selected terminal device 200. Reception (for example, the processes of steps S115 to S119 in FIG. 7) is performed.

Further, the medical data processing device 100 can determine whether or not the reception of the intermediate data 40 from all the terminal devices 200 has been completed by using the flag of the history information storage unit 116. Then, when the intermediate data 40 is received from all the terminal devices 200, it can be determined that a series of statistical processing has been completed for the training data of a plurality of medical institutions.

The medical data processing device 100 receives information (hereinafter referred to as state information) indicating the state of the terminal device 200 (for example, operating, hibernation, communication interruption, error, busy, etc.) from the terminal device 200. , May be stored in the storage device 110. In this case, the transmission unit 106 may determine whether or not to select as a medical institution to transmit the intermediate data 40 by using the state information stored in the storage device 110. That is, the transmission unit 106 may select a terminal device 200 capable of data processing and communication using the state information, and transmit the intermediate data 40 to the selected terminal device 200.

As described above, according to the present embodiment, the same effect as that of the above embodiment is obtained. Further, the medical data processing device 100 stores information (received information) for identifying the terminal device 200 that has already received the intermediate data 40 in the history information storage unit 116. Therefore, the medical data processing device 100 can efficiently select the terminal device 200 having the unprocessed medical data by referring to the history information storage unit 116.

(Fourth Embodiment)
The medical information system 1 according to the present embodiment is the first to the first except that when new medical data 30 is accumulated in the terminal device 200, the intermediate data 40 is updated by using the new medical data 30. Similar to any of the third embodiments. Whether or not new medical data 30 has been accumulated in the terminal device 200 is determined, for example, by assigning a predetermined identifier to the medical data 30 used by the terminal device 200 to generate the intermediate data 40. It suffices to confirm the presence or absence of the medical data 30 to which is not given.

FIG. 12 is a flowchart showing a first example of the update process of the intermediate data 40. In the process shown in this figure, the terminal device 200 makes an update request to the medical data processing device 100.

When new medical data 30 (training data) is generated (or accumulated in a certain number) at a medical institution (medical institution C in this example) (step S211), the receiving unit 202 of the terminal device 200 of the medical institution Requests the latest intermediate data 40 from the medical data processing device 100 (step S213). The medical data processing device 100 transmits the latest intermediate data 40 stored in the first storage unit 114 to the requested terminal device 200 in response to the request from the terminal device 200 (Y in step S215). (Step S217).

The receiving unit 202 of the terminal device 200 receives the intermediate data 40 from the medical data processing device 100 (step S219). The processing unit 204 performs statistical processing using the received intermediate data 40 and the training data recognized in step S211 to generate new intermediate data 40 and stores it in the intermediate data storage unit 216 (step S221). ). Then, the transmission unit 206 transmits the new intermediate data 40 to the medical data processing device 100 (step S223).

When the receiving unit 102 of the medical data processing device 100 receives the new intermediate data 40 from the terminal device 200 (step S225), the receiving unit 102 stores the received intermediate data 40 in the first storage unit 114 (step S227). At this time, the history information storage unit 116 shown in FIG. 11A may update the reception time corresponding to the identification information of the terminal device 200.

After that, the transmission unit 106 may deliver the latest intermediate data 40 to each terminal device 200.

FIG. 13 is a flowchart showing a second example of the update process of the intermediate data 40. In the process shown in this figure, the medical data processing device 100 makes an inquiry to each terminal device 200.

First, the receiving unit 102 of the medical data processing device 100 inquires at least one (or all) terminal devices 200 whether or not there is new training data (step S231).

The transmission unit 206 of the terminal device 200 that has received the inquiry transmits the presence or absence of the update data in the terminal device 200 to the medical data processing device 100 together with the identification information of the terminal device 200 (step S233, step S235, step S237). ..

The receiving unit 102 of the medical data processing device 100 sets the flag shown in the history information storage unit 116 of FIG. 11B based on the reply from each terminal device 200 (step S239). Specifically, the flag corresponding to the identification information associated with "updated data available" is updated to a flag indicating that the intermediate data 40 has not been received.

Then, the transmission unit 106 of the medical data processing device 100 refers to the hospital information storage unit 118 and selects one of the terminal devices 200 indicating that the flag has not been received (step S241). Then, the latest intermediate data 40 stored in the first storage unit 114 is transmitted to the selected terminal device 200 (step S243).

The receiving unit 202 of the terminal device 200 receives the intermediate data 40 (step S245). The processing unit 204 performs statistical processing using the received intermediate data 40 and new training data (medical data 30), and generates new intermediate data 40. Then, the processing unit 204 stores the new intermediate data 40 in the intermediate data storage unit 216 (step S247). Further, the transmission unit 206 transmits new intermediate data 40 to the medical data processing device 100 together with the identification information of the terminal device 200 (step S249).

The receiving unit 102 of the medical data processing device 100 receives new intermediate data 40 and identification information from the terminal device 200. The storage processing unit 104 stores the intermediate data 40 in the first storage unit 114 (step S251). Then, the receiving unit 102 updates the flag corresponding to the identification information received in step S251 to the flag indicating that the reception has been completed in the history information storage unit 116.

The processing from step S241 to step S251 described above is repeated until the flag indicating that the intermediate data 40 has not been received disappears (step S253: Y). After this flag disappears (step S253: N), the transmission unit 106 may deliver the latest intermediate data 40 to each terminal device 200.

As described above, according to the present embodiment, the same effect as that of the above embodiment is obtained. When the terminal device 200 has new medical data 30, the medical data processing device 100 transmits the latest intermediate data 40 to the terminal device 200, and uses the intermediate data 40 and the new medical data. New intermediate data 40 is generated. Therefore, when medical data is newly generated (or accumulated) in any of the terminal devices 200, intermediate data 40 that reflects the medical data can be generated.

(Fifth Embodiment)
FIG. 14 is a functional block diagram that logically shows the configuration of the medical data processing device 100 of the present embodiment. The medical information system 1 of the present embodiment is the same as any of the above-described embodiments, except that the intermediate data 40 has a configuration for practical use.

The medical information system 1 of the present embodiment further includes a verification unit 208. The verification unit 208 is provided in at least one of the medical data processing device 100 and the terminal device 200. In the example of FIG. 14, the terminal device 200 shows a configuration including the verification unit 208.

The verification unit 208 takes the actual clinical medical data 30 as an input, and performs arithmetic processing using the intermediate data 40. For example, the parameters shown by the intermediate data 40 are the values of the weight (W) and the bias (B) of the function f (x) represented by the above equation (1). The medical data 30 is input and arithmetic processing is performed.

Then, the obtained calculation result is output. For example, when image data obtained by imaging the affected area of a patient suspected of having cancer is used as input data and arithmetic processing is performed using the intermediate data 40, the output data is data indicating the percentage of possibility of cancer. May be good.

The administrator of the terminal device 200 may tune (change) the intermediate data 40 (parameter) based on the calculation result by the verification unit 208. In this case, the transmission unit 206 may transmit the tuning content to the medical data processing device 100. The transmission unit 106 of the medical data processing device 100 transmits the tuning content to another terminal device 200.

Further, the medical data processing device 100 may further include an adjustment unit (not shown) that adjusts the intermediate data 40 based on the tuning content. In this case, the transmission unit 106 of the medical data processing device 100 transmits the tuned intermediate data 40 to the plurality of terminal devices 200, and updates the intermediate data storage unit 216 of each terminal device 200.

Further, the transmission unit 206 of the tuned terminal device 200 may transmit the tuned intermediate data 40 (latest intermediate data 40) to the medical data processing device 100. In this case, the transmission unit 106 transmits the received intermediate data 40 to another terminal device 200.

As described above, according to the medical information system 1 of the present embodiment, the intermediate data 40 can be used for diagnosis. Further, since the intermediate data 40 can be tuned, the accuracy of the intermediate data 40 can be improved.

Although the embodiments of the present invention have been described above with reference to the drawings, these are examples of the present invention, and various configurations other than the above can be adopted.

For example, in the above embodiment, the configuration in which the intermediate data 40 is sequentially transferred between the terminal devices 200 of a plurality of medical institutions has been described. However, the terminal devices 200 of a plurality of medical institutions are grouped, and the intermediate data 40 is sequentially transferred within each group to generate the final intermediate data 40 in each group unit, and then the intermediate data 40 in the group unit is generated. By integrating, the final intermediate data 40 may be generated.

Further, the medical data processing device 100 includes information indicating the population (N number) of the medical data 30 to be processed from the intermediate data 40 received by the receiving unit 102, and the medical institution from which the intermediate data 40 is transmitted. The identification information of the above may be acquired, and the acquired identification information of the medical institution may be associated with the population of the intermediate data 40 and stored in the storage unit (not shown). Further, the medical data processing device 100 may display the population parameter of the intermediate data 40 received for each medical institution on the display. The medical data processing device 100 may display the parameter of the intermediate data 40 on the display unit of the medical data processing device 100, or may display the parameter of the intermediate data 40 on the display unit of the terminal device 200.

Although the present invention has been described above with reference to the embodiments, the present invention is not limited to the above embodiments. Various changes that can be understood by those skilled in the art can be made within the scope of the present invention in terms of the structure and details of the present invention.
In addition, when information about a user is acquired and used in this invention, this shall be done legally.

Hereinafter, an example of the reference form will be added.
1. 1. Medical data processing device
Intermediate data, which is generated by processing a plurality of medical data using a specific algorithm and is not restored to any of the plurality of medical data, is received from the terminal of the first medical institution.
The received intermediate data is stored in the storage device, and the data is stored in the storage device.
An information processing method of a medical data processing device that transmits the intermediate data read from the storage device to a terminal of a second medical institution.
2. The medical data processing device
After transmitting the intermediate data of the terminal of the first medical institution to the terminal of the second medical institution, the intermediate data processed by the terminal of the second medical institution is transmitted from the terminal of the second medical institution. Receive and
The intermediate data received from the terminal of the second medical institution is the intermediate data transmitted to the terminal of the second medical institution and a plurality of medical data managed by the second medical institution. 1. Generated by processing by the terminal of the second medical institution using a specific algorithm. The information processing method of the medical data processing device described in 1.
3. 3. The particular algorithm follows a neural network and
The intermediate data is at least one of the number of medical data processed using the specific algorithm, the value of the processing result, and the value of the parameter in the neural network. Or 2. The information processing method of the medical data processing device described in 1.
4. The medical data processing device
The received information for identifying the terminal of the source of the received intermediate data is stored in the storage device, and the storage device is stored.
1. Select a terminal different from the terminal specified by the received information as the terminal of the second medical institution. From 3. The information processing method of the medical data processing device according to any one.

5. The terminal device
Another terminal device receives intermediate data that is generated by processing a plurality of medical data using a specific algorithm and is not restored to any of the plurality of medical data.
An information processing method for a terminal device that generates new intermediate data by processing the received intermediate data and a plurality of medical data using the specific algorithm.
6. The particular algorithm follows a neural network and
The generated intermediate data is at least one of the number of medical data processed using the particular algorithm, the value of the processing result, and the value of the parameter in the neural network. The information processing method of the terminal device described in 1.

7. On the computer
A procedure for receiving intermediate data from a terminal of a first medical institution, which is data generated by processing a plurality of medical data using a specific algorithm and not restored to any of the plurality of medical data.
Procedure for storing the received intermediate data in the storage device,
A program for executing a procedure of transmitting the intermediate data read from the storage device to a terminal of a second medical institution.
8. After transmitting the intermediate data of the terminal of the first medical institution to the terminal of the second medical institution in the transmission procedure, the intermediate data processed by the terminal of the second medical institution is transferred to the second medical institution. It is a program to make a computer execute the procedure received from the terminal of a medical institution.
The intermediate data received from the terminal of the second medical institution is the intermediate data transmitted to the terminal of the second medical institution and a plurality of medical data managed by the second medical institution. 7. Generated by processing by the terminal of the second medical institution using a specific algorithm. The program described in.
9. The particular algorithm follows a neural network and
The intermediate data is at least one of the number of medical data processed using the particular algorithm, the value of the processing result, and the value of the parameter in the neural network. Or 8. The program described in.
10. A procedure for storing received information in a storage device for identifying a terminal that is a source of the intermediate data received in the receiving procedure.
7. To cause the computer to execute the procedure of selecting a terminal different from the terminal specified by the received information as the terminal of the second medical institution. To 9. The program described in any one.

11. On the computer
A procedure for receiving intermediate data, which is generated by another terminal processing a plurality of medical data using a specific algorithm and is not restored to any of the plurality of medical data.
A program for executing a procedure for generating new intermediate data by processing the received intermediate data and a plurality of medical data using the specific algorithm.
12. The particular algorithm follows a neural network and
The generated intermediate data is at least one of the number of medical data processed using the particular algorithm, the value of the processing result, and the value of the parameter in the neural network. The program described in.

13. Medical data processing equipment and
The medical data processing device and the terminal device of the first and second medical institutions connected via a network are provided.
The medical data processing device is
A receiving means for receiving intermediate data, which is generated by processing a plurality of medical data using a specific algorithm and is not restored to any of the plurality of medical data, from the terminal device of the first medical institution. ,
A storage processing means for storing the received intermediate data in a storage device,
A transmission means for transmitting the intermediate data read from the storage device to the terminal device of the second medical institution is provided.
The terminal device of the second medical institution is
A receiving means for receiving the intermediate data generated by the terminal device of the first medical institution from the medical data processing device, and
A system comprising a processing means for generating new intermediate data by processing the received intermediate data and a plurality of medical data using the specific algorithm.
14. In the medical data processing device
The transmitting means delivers the intermediate data stored in the storage device to at least one of the terminal devices of the first and second medical institutions.
further,
13. A calculation means for performing processing using actual clinical medical data and the intermediate data and outputting the obtained processing result. The system described in.
15. In the medical data processing device
After the transmitting means transmits the intermediate data of the terminal device of the first medical institution to the terminal device of the second medical institution, the receiving means is processed by the terminal device of the second medical institution. The intermediate data is received from the terminal device of the second medical institution, and
The intermediate data received from the terminal device of the second medical institution is managed by the intermediate data transmitted by the transmitting means to the terminal device of the second medical institution and the second medical institution. 13. It is generated by processing a plurality of medical data by the terminal device of the second medical institution using the specific algorithm. Or 14. The system described in.
16. The particular algorithm follows a neural network and
The intermediate data is at least one of the number of medical data processed using the particular algorithm, the value of the processing result, and the value of the parameter in the neural network. To 15. The system described in any one.
17. In the medical data processing device
The storage processing means
The storage means stores the received information for identifying the terminal device that is the source of the intermediate data received by the receiving means.
The transmission means
A terminal device different from the terminal device specified by the received information is selected as the terminal device of the second medical institution. From 16. The system described in any one.
18. A receiving means for receiving intermediate data from a terminal of a first medical institution, which is data generated by processing a plurality of medical data using a specific algorithm and not restored to any of the plurality of medical data.
A storage processing means for storing the received intermediate data in a storage device,
A medical data processing device including a transmission means for transmitting the intermediate data read from the storage device to a terminal of a second medical institution.
19. After the transmitting means transmits the intermediate data of the terminal of the first medical institution to the terminal of the second medical institution, the receiving means receives the intermediate data processed by the terminal of the second medical institution. Received from the terminal of the second medical institution
The intermediate data received from the terminal of the second medical institution includes the intermediate data transmitted by the transmitting means to the terminal of the second medical institution, and a plurality of data managed by the second medical institution. The medical data is generated by processing the medical data by the terminal of the second medical institution using the specific algorithm.
18. The medical data processing device described in.
20. The particular algorithm follows a neural network and
The intermediate data is at least one of the number of medical data processed using the particular algorithm, the value of the processing result, and the value of the parameter in the neural network.
18. Or 19. The medical data processing device described in.
21. The storage processing means
Received information for identifying the terminal of the source of the intermediate data received by the receiving means is stored in the storage means.
The transmission means
A terminal different from the terminal specified by the received information is selected as the terminal of the second medical institution. From 20. The medical data processing device according to any one.
22. A receiving means for receiving intermediate data, which is generated by another terminal processing a plurality of medical data using a specific algorithm and is not restored to any of the plurality of medical data.
A processing means for generating new intermediate data by processing the received intermediate data and a plurality of medical data using the specific algorithm, and
A terminal device comprising.
23. The particular algorithm follows a neural network and
The intermediate data generated by the processing means is at least one of the number of medical data processed by the specific algorithm, the value of the processing result, and the value of the parameter in the neural network 22. The terminal device described in.

1 Medical information system 3 Network 30 Medical data 32 Input data 34 Output data 40 Intermediate data 50 Code information 80 Computer 82 CPU
84 memory 85 storage 86 I / O
87 Communication I / F
89 Bus 90 Program 100 Medical data processing device 102 Reception unit 104 Storage processing unit 106 Transmission unit 110 Storage device 112 Code information storage unit 114 First storage unit 116 History information storage unit 132 Reading unit 136 Transmission unit 200 Terminal device 202 Reception unit 204 Processing unit 206 Transmission unit 208 Verification unit 210 Storage device 212 Code information storage unit 214 Medical data storage unit 216 Intermediate data storage unit

Claims (11)

Produced by statistical processing by using a specific algorithm plurality of medical data managed by the first medical institution, the intermediate data first is data which is not restored to any of the plurality of medical data Receiving means received from the terminal of the medical institution and
A storage processing means for storing the received intermediate data in a storage device,
A transmission means for transmitting the intermediate data read from the storage device to a terminal of a second medical institution is provided .
After the transmitting means transmits the intermediate data of the terminal of the first medical institution to the terminal of the second medical institution, the receiving means receives the intermediate data processed by the terminal of the second medical institution. Received from the terminal of the second medical institution
The intermediate data received from the terminal of the second medical institution includes the intermediate data transmitted by the transmitting means to the terminal of the second medical institution, and a plurality of data managed by the second medical institution. A medical data processing device generated by processing medical data by a terminal of the second medical institution using the specific algorithm . The particular algorithm follows a neural network and
The intermediate data is at least one of the number of medical data statistically processed using the particular algorithm, the value of the processing result, and the value of the parameter in the neural network.
The medical data processing device according to claim 1 . The storage processing means
Received information for identifying the terminal of the source of the intermediate data received by the receiving means is stored in the storage means.
The transmission means
The medical data processing apparatus according to claim 1 or 2 , wherein a terminal different from the terminal specified by the received information is selected as the terminal of the second medical institution. It is a terminal device of the first medical institution,
It is generated by the terminal of the second medical institutions statistical processing using a specific algorithm plurality of medical data managed in the second medical institution, nor be restored to any of the plurality of medical data data The receiving means for receiving the intermediate data, which is
A processing means for generating new intermediate data by statistically processing the received intermediate data and a plurality of medical data managed by the first medical institution using the specific algorithm.
A terminal device comprising. The particular algorithm follows a neural network and
Claim that the intermediate data generated by the processing means is at least one of the number of medical data processed by the specific algorithm, the value of the processing result, and the value of the parameter in the neural network. 4. The terminal device according to 4 . Medical data processing equipment and
And a terminal device of the first medical institution terminal device and a second medical institutions are connected through the medical data processing device and the network,
The medical data processing device is
The first is the intermediate data, which is generated by statistically processing a plurality of medical data managed by the first medical institution using a specific algorithm and is not restored to any of the plurality of medical data. Receiving means received from the terminal device of the medical institution and
A storage processing means for storing the received intermediate data in a storage device,
A transmission means for transmitting the intermediate data read from the storage device to the terminal device of the second medical institution is provided.
The terminal device of the second medical institution is
A receiving means for receiving the intermediate data generated by the terminal device of the first medical institution from the medical data processing device, and
A processing means for generating new intermediate data by statistically processing the received intermediate data and a plurality of medical data managed by the second medical institution using the specific algorithm.
A transmission means for transmitting the new intermediate data to the medical data processing device is provided .
In the medical data processing device
After the transmitting means transmits the intermediate data to the terminal device of the second medical institution, the receiving means transmits the new intermediate data statistically processed by the terminal device of the second medical institution. system that will receive from 2 of the medical institution. In the medical data processing device
The transmitting means delivers the intermediate data stored in the storage device to at least one of the terminal devices of the first medical institution and the second medical institution .
further,
The system according to claim 6 , further comprising an arithmetic means for performing processing using actual clinical medical data and the intermediate data and outputting the obtained processing result. Medical data processing device
Produced by statistical processing by using a specific algorithm plurality of medical data managed by the first medical institution, the intermediate data is data which is not restored to any of the plurality of medical data, said first Received from the terminal of the medical institution
The received intermediate data is stored in the storage device, and the data is stored in the storage device.
The intermediate data read from the storage device is transmitted to the terminal of the second medical institution ,
After transmitting the intermediate data of the terminal of the first medical institution to the terminal of the second medical institution, the intermediate data processed by the terminal of the second medical institution is transmitted from the terminal of the second medical institution. Receive and
The intermediate data received from the terminal of the second medical institution is the intermediate data transmitted to the terminal of the second medical institution and a plurality of medical data managed by the second medical institution. terminal of the second medical institution using specific algorithms that have been produced by processing, information processing method of a medical data processing apparatus. The terminal device of the first medical institution
Intermediate data that is generated by other terminal devices managed by a second medical institution by statistically processing a plurality of medical data using a specific algorithm and is not restored to any of the plurality of medical data. Received
Information processing of the terminal device that generates new intermediate data by statistically processing the received intermediate data and a plurality of medical data managed by the first medical institution using the specific algorithm. Method. On the computer
Produced by statistical processing by using a specific algorithm plurality of medical data managed by the first medical institution, the intermediate data is data which is not restored to any of the plurality of medical data, said first Procedure to receive from the terminal of the medical institution,
Procedure for storing the received intermediate data in the storage device,
A procedure for transmitting the intermediate data read from the storage device to a terminal of a second medical institution ,
After transmitting the intermediate data of the terminal of the first medical institution to the terminal of the second medical institution in the transmission procedure, the intermediate processed by the terminal of the second medical institution in the receiving procedure. Data is received from the terminal of the second medical institution,
The intermediate data received from the terminal of the second medical institution includes the intermediate data transmitted to the terminal of the second medical institution by the transmission procedure and a plurality of data managed by the second medical institution. Is generated by processing the medical data of the second medical institution using the specific algorithm.
A program to execute. For the computer that realizes the terminal device of the first medical institution ,
Intermediate data that is generated by statistical processing of a plurality of medical data by another terminal managed by a second medical institution using a specific algorithm and is not restored to any of the plurality of medical data. Procedure to receive,
To execute a procedure for generating new intermediate data by statistically processing the received intermediate data and a plurality of medical data managed by the first medical institution using the specific algorithm. program.

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