FR2975556A1 - System for retrieval of processed e.g. radiotherapy data, in hospital, has reception block receiving processed medical data generated by processing block, and retrieval block retrieving processed medical data - Google Patents

Abstract

The system has a client device (109) i.e. computer, connected with a data processing platform (101) i.e. picture archiving and communication system platform, via a communication channel (108) for obtaining medical data. A reception block (103) is utilized for receiving commands from the client device. The client device includes a remote control block (110) for remotely controlling a processing block (102) via transmission of the commands. Another reception block (111) receives processed medical data generated by the processing block. A retrieval block (112) retrieves processed medical data. Independent claims are also included for the following: (1) a method for retrieval of processed medical data (2) a computer program product comprising a set of instructions for performing a method for retrieval of processed medical data (3) a computer readable storage medium comprising a set of instructions for performing the method for retrieval of processed medical data.

Description

BACKGROUND OF THE INVENTION The field of the invention is that of the medical field. More specifically, the invention relates to a technique for rendering medical data processed (the processing being performed on a computer platform) on a client device located at a distance from said computer platform. 2. TECHNOLOGICAL BACKGROUND The sharing of medical data between distant entities in a rapid manner is an increasingly recurrent problem.

A first example illustrating this problem is that of the exchange of medical data between hospitals. Typically, hospitals include PACS (Picture Archiving and Communication System) type servers for managing medical data in DICOM (Digital Imaging and Communications in Medicine) format. thanks in particular to archiving functions. A first technique for transferring medical data in the DICOM format is used between these hospital structures via the use of dedicated networks, for example of the ISDN type (acronym for "Digital Network with Integrated Services"). Thus, thanks to the high rate of an ISDN type connection, the downloading of medical data in DICOM format is relatively fast. However, in the case where a link connecting hospitals is not an ISDN type connection, transfer delays can be substantial, even if a second connection transfer technique is used as a substitute. SDSL type (acronym for "Symmetric Digital Subscriber Line"). A second example illustrating the importance of sharing medical data, is that of telediagnosis, where a health professional (radiologist, cardiologist, etc ...), from his office, based on medical data (for example medical images ) obtained by a device managed by manipulators from a patient, must establish a diagnosis from them, hence the need to quickly obtain these medical data with the highest quality, not to avoid elements which potentially can have a great impact on the diagnosis made.

When a medical data is a medical image (in digital form), this one generally having a resolution (measured in number of pixels per unit area) high (ie with images having a high density in pixels), it has a large size (of the order of several tens or hundreds of megabytes). Thus, it is difficult to quickly obtain the desired image, even using a third technique of using an ADSL type connection (acronym for "Asymmetric Digital Subscriber Line"). Another constraint inherent in medical data sharing is that receiving and processing medical data in DICOM format (a widely used format for storing medical data) involves requirements at the client device level (usually computers), particularly on the display system of said client devices (eg screens and graphics cards) used (whether in the first or second example). For example, the use of visualization techniques called MPR (Multi-Planar Reformatting or Multi-Planar Reconstruction) and MIP (Maximum Intensity Projection) requires significant hardware resources. . Specifically, the processor performance of the client device (receiver) as well as the amount of RAM available thereon must be large. In addition, the graphics card of this client device must have performance in line with that of the screen used. In addition, a particular software of interpretation making it possible to carry out a certain number of functions (zoom, rotation, measurement of distance and of density, etc ...) and which is generally a proprietary software not compatible with any type of systems of farms (Linux, Mac, etc ...), must be installed on the client device to perform the desired actions. Another constraint lies in the fact that the client devices as well as the interpretation software must be certified in accordance with the requirements of Directive 93/42 / EEC, Annex II, point 3 and with respect to US FDA (US Food and Drug Administration) 510 (k) requirements for US regulatory requirements. This constraint requires a software publisher to perform a certification for each software, which can be binding (in time, in financial means, etc ...). Finally, a last constraint of such a solution (client device associated with an interpretation software) lies in the difficulty of adapting it with respect to security policies implemented in particular in hospitals. For example, using a firewall to filter certain ports can cause problems when installing and using interpretation software. Note that, in the cases mentioned above, we duplicate the elements between the two entities to restore medical data (same installed software, etc ...) because it is the same medical data that are processed. In the state of the art, various types of solutions are known that make it possible to accelerate the knowledge of these medical data, by not modifying the bit rate of a connection as mentioned previously with the first, second and third techniques ( ISDN, SDSL, ADSL). Indeed, a fourth technique, disclosed in the documents Dl (JP 2000116606), D2 (CN 101350923) and D3 (EP 2237179) is to apply compression techniques on medical data, thus allowing a transfer of these medical data in a manner faster. Indeed, reducing the number of pixels transmitted, for example from a PACS server to a client device, does not always affect the display quality of a medical image if the display characteristics of the device screen customer are taken into consideration. Paragraphs §0091 to §0093 of document D3 highlight this feature: an image originally having a resolution of 2560 x 1960 pixels can be resized to another image having a resolution of 640 x 480 pixels, and without loss of quality if it is displayed on the screen of a client device that has a maximum display capacity of 640 x 480 pixels.

However, a disadvantage of the techniques disclosed in the documents Dl and D2 lies in the fact that the compression must be lossless or else an important element for the specialist who consults for example medical images. A disadvantage of the technique disclosed in document D3 lies in the fact that the client device and the PACS server must, in a preliminary step, exchange configuration information for the implementation of this technique. In addition, whenever the configuration of a screen of a client device is changed, it is necessary to transmit this information to the PACS server so that it can reconfigure its parameters before issuing new compressed medical data. Finally, a common drawback of the aforementioned techniques lies in the fact that they require the installation of proprietary software that use a lot of memory resources when they are executed. OBJECTIVES OF THE INVENTION The invention, in at least one embodiment, has the particular objective of overcoming these various disadvantages of the state of the art.

More specifically, in at least one embodiment of the invention, one objective is to provide a technique that operates quickly, even with a relatively low bandwidth. At least one embodiment of the invention also aims to provide such a technique that does not require significant resources (in terms of random access memory, the characteristics of the graphics card, etc.) within 'a client device. Another objective of at least one embodiment of the invention is to provide such a technique that does not require compressing or applying any other treatment on the medical data likely to degrade the quality of the medical data and therefore, potentially to induce a misdiagnosis on the part of a practitioner. A complementary objective of at least one embodiment of the invention is to provide such a technique that does not require the installation of proprietary medical data processing software, at a client device.

A complementary objective of at least one embodiment of the invention is to provide such a technique that is interoperable regardless of the operating system and the web browser executed on the client device. Another objective of at least one embodiment of the invention is to allow the obtaining of medical data during the change of the client hardware, without having to inform an IT platform that can be a PACS server.

Another objective of at least one embodiment of the invention is to provide such a technique which requires only a single certification procedure, according to Directive 93/42 / EEC, Annex II, point 3. Finally, another The objective of at least one embodiment of the invention is to provide such a technique that requires little or no adaptation vis-à-vis security policies implemented within the networks used. 4. DISCLOSURE OF THE INVENTION In a particular embodiment of the invention, there is provided a system for rendering processed medical data, said system comprising a client device connected via a communication channel to a computer platform. obtaining initial medical data, the processed medical data being obtained by processing the initial medical data. This system is remarkable in that the computer platform comprises: a command reception block from the client device; a processing block, making it possible to generate the medical data processed from the initial medical data, according to the orders received; a block of transmission of the medical data processed towards the client device; and in that the client device comprises: - a remote control block of the processing block included in the computer platform, via the transmission of said commands; a reception block for processed medical data generated by the processing block included in the computer platform; a restitution block of the processed medical data received.

The general principle of the invention is therefore to allow a user of a client device to render (ie view, interpret, and / or hear) processed medical data via a control block that is interoperable on all operating systems. There is therefore no constraint on the operating system used by the client device. This technique therefore allows complete freedom of choice of the operating system executed by the client device, unlike the techniques of the prior art.

Thus, this particular embodiment of the invention does not require the installation of proprietary software using significant hardware resources on the client device. In addition, in another embodiment of the invention, no constraint (on performance) on the client device is imposed: any device (for example a market PC, an iphone, etc ... ) can be used to restore treated medical data contrary to the solutions of the state of the art. In addition, in another embodiment of the invention, even though the bandwidth of the connection connecting the client device to the computer platform is relatively small, a user of the client device can view and process medical data, something he could not have done with the techniques of the prior art. Finally, this technique does not require the use of compression techniques that can alter the quality of medical data.

According to a particular aspect of the invention, such a system for rendering processed medical data is remarkable in that the remote control block comprises a software module that executes in the window of a web browser. Thus, thanks to the combination of the control block and the web browser, this technique can be applied to each of the operating systems included in the following non-exhaustive list (and whatever the version used, including previous versions to those available on the market): - Microsoft Windows; - Linux; - Mac OS; -Android. According to one particular characteristic, such a system for rendering processed medical data is remarkable in that the software module comprises a Java applet or an Active X module. Thus, when a Java virtual machine is present on the client device, or when means for executing ActiveX controls, or more generally a component execution technology, are present on the client device, it is then possible to execute, via a web browser, a software module compatible with the abovementioned technologies. According to one particular characteristic, such a system for rendering processed medical data is remarkable in that the initial medical data comprise medical imaging data. According to one particular characteristic, such a system for rendering medical data processed is remarkable in that said initial medical data conform to the DICOM standard. According to a particular characteristic, such a system for rendering medical data processed is remarkable in that the initial medical data belong to the group comprising: radiotherapy monitoring data; - radiological data; - data obtained via a nuclear medicine examination; - anatomopathological data; electrophysiological data (ECG, EEG, MEG, etc.) and textual data relating to a patient.

For example, textual data relating to a patient may be medical reports, quantities of drugs used for treatment, or any other type of information related to the medical follow-up of a patient. According to one particular characteristic, such a system for rendering medical data processed is remarkable in that the computer platform is of the PACS type. According to a particular characteristic, such a system for rendering processed medical data is remarkable in that the remote control block comprises a client according to the RDP protocol and in that the processing block comprises a server according to the RDP protocol.

According to one particular characteristic, such a system for rendering medical data processed is remarkable in that the computer platform and the client device each comprise an encryption block and a decryption block for securing the communication channel. In another embodiment of the invention, there is provided a method of rendering processed medical data, on a connected client device, via a communication channel, to a computer platform obtaining initial medical data, the medical data. treated being obtained by processing the initial medical data. This method is remarkable in that it comprises the following steps: - issuing commands via a remote control block included in the client device; - receipt of orders by a command receipt block included in the computer platform; processing of the received orders and generation of medical data processed from the initial medical data according to the orders received; transmission of the processed medical data to the client device by a transmission block; - Restitution of processed medical data received at the client device via the remote control block and a restitution block. According to a particular characteristic, the method is remarkable in that it comprises a preliminary step of obtaining a software module by the client device. According to a particular characteristic, the method is remarkable in that it comprises, following the obtaining step and before the transmission step, a step of executing the software module in the window of a web browser, included in the control block.

According to one particular characteristic, the method is remarkable in that it further comprises a step of executing an RDP client at the client device and a step of executing an RDP server at the platform level. computer science. In another embodiment of the invention there is provided a computer program product which comprises program code instructions for implementing the aforesaid method (in any one of its various embodiments), when said program is run on a computer. In another embodiment of the invention, there is provided a computer readable storage medium, storing a computer program comprising a set of instructions executable by a computer to implement the aforementioned method (in one any of its different embodiments).

In another embodiment, the invention relates to a client device included in a processed medical data retrieval system, connected, via a communication channel, to a computer platform obtaining initial medical data, the medical data processed being obtained by processing the initial medical data. Such a device is remarkable in that it comprises: remote control means for processing means included in the computer platform, via the transmission of commands; means for receiving the processed medical data, generated by the processing means included in the computer platform; means for rendering the received processed medical data. In another embodiment, the invention relates to a computer platform included in a system for rendering processed medical data, the system comprising a client device connected, via a communication channel, to the computer platform obtaining data. initial medical data, the processed medical data being obtained by processing the initial medical data. Such an IT platform is remarkable in that it comprises: means for receiving commands from the client device; - Processing means for generating the medical data processed from the initial medical data, according to the orders received; means for transmitting the medical data processed to the client device. 5. LIST OF FIGURES Other features and advantages of the invention will appear on reading the following description, given by way of indicative and nonlimiting example, and the appended drawings, in which: FIG. 1 presents a block diagram; a particular embodiment of the system according to one embodiment of the invention; - Figure 2 shows the structure of a client device according to a particular embodiment of the invention; FIG. 3 presents the structure of a computer platform according to a particular embodiment of the invention; FIG. 4 presents a flowchart of a particular embodiment of the method of rendering medical data processed on a client device; - Figure 5 shows the simplified structure of a client device according to the invention. 6. DETAILED DESCRIPTION In all the figures of this document, the elements and identical steps are designated by the same numerical reference. In a particular embodiment of the invention, a technique is proposed that makes it possible to overcome the problems related to the non-interoperability of the techniques of the prior art.

Figure 1 shows a block diagram of a particular embodiment of the system according to one embodiment of the invention. The system 100 for processing medical data processing comprises a computer platform 101 comprising a processing block 102 via which processes (zoom, rotation, application of MPR and / or MIP techniques, etc.) on initial medical data 105, which are stored in a memory 107 of the computer platform 101 and / or in a particular storage device 106 type database ("datawarehouse" in English), from control commands from of a client device 109 via the use of a communication channel 108. These control commands are received by the computer platform 101 through a reception block 103, and the processed medical data are sent to the client device through the use of a transmission block 104 of processed medical data. The processed medical data are received at the client device 109 by a receiving block 111 which redirects them to the remote control block 110.

In a particular embodiment, the initial medical data are medical images stored in DICOM format, or graphical or textual data (relating for example to medical reports), and the medical data processed can for example consist of graphic data ready to be displayed on a screen.

Note that it is the remote control block 110 that generates the control commands that are sent to the computer platform 101.

Finally, the combination of the remote control block 110 and the restitution block 112 makes it possible to reproduce identically images or sounds that a user could see via a screen connected to the computer platform 101. Thus, these are for example graphical data that can be used by a display device, and not the transmission of the DICOM format images that pass through the communication channel 108. In a preferred embodiment, the communication channel is secured via the establishment of an SSL tunnel (acronym for "Secure Socket Layer"). In a preferred embodiment, the communication channel makes it possible to make an RDP (Remote Desktop Protocol) connection between the computer platform 101 and the client device 109. In a preferred embodiment, the remote control block 110 comprises an ActiveX module (or component) or a Java applet allowing, via the use of a web browser and a restitution block 112, to render (in this mode, display) the graphic data received. Thus, the combination of the SSL system with the HTTP protocol, allows compatibility with the security policies implemented in the local area networks in which the computer platform 101 and the client device 109 are located, because of the use of the port 443, which is generally not blocked by a firewall in the context of application of the present invention. Finally, note that the remote control block 110 requires only a few memory resources and is interoperable on all operating systems. Figure 2 shows the structure of a client device according to a particular embodiment of the invention. In a particular embodiment, the remote control block 110 comprises a software module (which is for example an ActiveX module or a Java applet) 202, and when this activated (ie executed), it can start the execution an RDP client 203 integrated, in one embodiment, with the operating system running on the client device 109. Thus, in one embodiment, the remote control block 110 includes the software module 202. and an RDP client 203. If no RDP client is present within the device, the software module 202 initiates the download of such a client. Generally, the Microsoft Windows operating system includes, by default, such an RDP client. When the operating system is of the Linux, Mac OS or other type, such a download is generally made. When no RDP client linked to an operating system can be obtained, a Java RDP client can be run (however, performance is degraded). Such a Java RDP client can be integrated by default into the software module 202.

In a particular embodiment, when the RDP client is started, the software module 202 transmits the following parameters to the RDP client that are necessary to establish the connection with the computer platform 101: - IP address or platform name computer 101; - domain name, username and password for the connection with the computer platform 101; - Application to run at startup; - Parameters to be transmitted to the application to be executed at startup; - Size of the window; - Full screen display; - Number of colors displayed; - Redirection of printers, local drives, clipboard, audio redirection, USB devices or others; - Cache images. The software module 202 constitutes the equivalent of a gateway for the client RDP 203. The software module 202 is obtained following the execution of a obtaining step of connecting to a computer platform (which may be different of the computer platform 101) via a web browser 201 and to transmit parameters related to the client device. Thus, the choice of transmission and execution of the ActiveX module or the Java applet (i.e the software module 202) is performed according to the result of a verification step of the parameters related to the client device. The software module 202, once obtained, can be cached by the web browser 201 to speed up future consultations. Note that the module 202 is considered secure (i.e being digitally signed by a trusted authority), and in fact no sandbox type mechanism is used in the preferred embodiment. Thus, the computing platform through which the client device 109 obtains the software module 202 and the computer platform 101 comprising the processing block 102 can be distinct.

In a preferred embodiment, in which the rendering block 112 is a screen or a display device, the web browser 201 forms the interface with the remote control block 110 enabling a user to view processed medical data. , and to choose control commands to send to the processing block 102 included in the computer platform 101.

In another embodiment, the control block comprises interfaces allowing a user to interact directly, via the rendering block, with the other elements included in the control block. In another embodiment, the data (commands and / or medical data processed) in and out of the remote control block 110 are respectively decrypted and encrypted by an encryption block and a decryption block included in the client device. In one embodiment, Figure 3 shows the structure of a computer platform according to a particular embodiment of the invention. In a preferred embodiment, the processing block 102 included in the computer platform 101 includes a decryption and encryption block 301 called "Tunnel" module for processing encrypted data (by the use of the SSL protocol). , conveying control commands for rendering and / or processing to be performed on the initial medical data 105, originating from a client device via the communication channel 108. The decryption and encryption block 301 makes it possible to decrypt the encrypted data. then, redirects the decrypted data to a distribution block 302. The distribution block 302 redirects the decrypted data to at least one so-called terminal server module 303 included in the processing block 102. In one embodiment when a virtualization technique is implemented in the computer platform 101, the distribution block 302 can redirect ig the commands from the decryption and encryption module 301, among a plurality of modules of the "Terminal Server" type 303, depending on the load of these different modules. Thus, load balancing is performed at these modules. The terminal server module 303 is a component of Microsoft Windows allowing the access and use of applications present on the computer platform 101. In particular, in a particular embodiment, the terminal server module 303 allows access and the use of modules 304 which are applications for processing initial medical data 105 according to the orders received. The processed medical data that is obtained via one of the modules 304 is then transmitted to one of the "Terminal Server" modules 303 with which it is interacting. The Terminal Server module 303 redirects the processed medical data to the decryption and encryption block 301 which encrypts them. The encrypted processed medical data is then transmitted to a transmission block 104 which redirects them to the client device 109 via the communication channel 108.

FIG. 4 presents a flowchart of a particular embodiment of the method of rendering medical data processed on a client device. In this embodiment, it is considered that the client device 109 and the computer platform 101 have never made communication between them. In step 401, a user of a client device 109 launches any web browser 201 installed on the device 109, and connects to a first computing platform via a conventional HTTP connection on which a website provides a service of restitution of medical images. In step 402, following registration on this site and validation, by the computer platform of the information transmitted, a software module (an ActiveX module or a Java applet) 202 is downloaded and then executed by the web browser 201 The software module 202 then downloads, if necessary, an RDP client. Thus, at the end of this step, the client device has a software module 202 and an RDP client 203. In step 403, the software module 202 initiates an SSL type connection between the client device 109 and a client. computer platform 101.

In step 404, the software module 202 initiates an RDP connection via the RDP 203 client with the computer platform 101. In the step 405, the software module 202 renders (or displays) via the browser 201 and the restitution block 112, the processed medical data obtained through the processing block 102. FIG. 5 shows the simplified structure of a client device 109 according to the invention (for example the particular embodiment described above in relation to the figure 1). This device comprises a RAM 503, a processing unit 501, equipped for example with a processor, and driven by a computer program stored in a ROM 502. At initialization, the code instructions of the program of computer are for example loaded into the RAM 503 before being executed by the processor of the processing unit 501. This FIG. 5 illustrates only one particular way, among several possible, of carrying out the various steps detailed above, in relation with FIG. 4. Indeed, the technique of the invention is carried out indifferently: on a reprogrammable calculation machine (a PC computer, a DSP processor or a microcontroller) executing a program comprising a sequence of instructions, or on a dedicated computing machine (for example a set of logical gates such as an FPGA or an ASIC, or any other hardware module). In the case where the invention is implemented on a reprogrammable calculation machine, the corresponding program (that is to say the sequence of instructions) can be stored in a removable storage medium (such as for example a diskette, a CD-ROM or a DVD-ROM) or not, this storage medium being readable partially or totally by a computer or a processor.

Claims (17)

REVENDICATIONS1. A system for rendering processed medical data, said system comprising a client device (109) connected, via a communication channel (108), to a computer platform (101) obtaining initial medical data (105), the medical data processed being obtained by processing the initial medical data, characterized in that said computer platform (101) comprises: - a command receiving block (103) from said client device (109); - a processing block (102), for generating the medical data processed from the initial medical data (105), according to the commands received; - a transmission block (104) of the medical data processed to the client device (109); and in that the client device (109) comprises: - a remote control block (110) of the processing block (102) included in the computer platform, via the transmission of said commands; - a receiving block (111) processed medical data, generated by the processing block (102) included in the computer platform; a restitution block (112) of the received processed medical data. The medical data processing system processed according to claim 1, characterized in that said remote control block (110) comprises a software module (202) which executes in the window of a web browser (201) . The medical data processing system processed according to claim 2, characterized in that said software module (202) comprises a Java applet or an Active X module. The medical data processing system processed according to any one of claims 1 to 3, characterized in that said initial medical data (105) comprises medical imaging data. The medical data processing system according to any one of claims 1 to 4, characterized in that said initial medical data (105) is in accordance with the DICOM standard. 15 6. System for the return of processed medical data according to any one of claims 1 to 5, characterized in that said initial medical data (105) belong to the group comprising: radiotherapy monitoring data; - radiological data; - data obtained via a nuclear medicine examination; - anatomopathological data; electrophysiological data (ECG, EEG, MEG, etc.) and textual data relating to a patient. 7. System for the return of processed medical data according to any one of claims 1 to 6, characterized in that the computer platform (101) is of the PACS type. 8. System for rendering medical data processed according to any one of claims 1 to 7, characterized in that said remote control block (110) comprises a client according to the RDP protocol (203) and in that said block of processing (102) comprises a server according to the RDP protocol (303). 9. system for rendering medical data processed according to any one of claims 1 to 8, characterized in that said computer platform (101) and said client device (109) each comprise an encryption block and a decryption block (301) for securing said communication channel. A method of rendering processed medical data, on a connected client device, via a communication channel, to a computer platform obtaining initial medical data, the processed medical data being obtained by processing the initial medical data, characterized in that it comprises the following steps: - issuing commands via a remote control block (110) included in said client device; receiving said commands by a receiving block (103) of commands included in said computer platform (101); processing (302) said received commands and generating (303, 304) said processed medical data from the initial medical data (105) based on said received commands; - issuing (104) said processed medical data to the client device by a transmission block - restoring said processed medical data received at the client device via the remote control block and a restitution block. 11. The method of claim 10 characterized in that it comprises a prior step of obtaining a software module by the client device. 12. Method according to claim 11 characterized in that it comprises, following the obtaining step and before the issuing step, a step of executing said software module (202) in the window of a browser. web (201) included in said control block (110). The method according to claim 12, further comprising a step of executing an RDP client at the client device and a step of executing an RDP server at said computing platform. (101). A computer program product, comprising program code instructions for carrying out the method according to any one of claims 10 to 13, when said program is run on a computer. A computer readable storage medium, storing a computer program comprising a set of instructions executable by a computer or a processor for carrying out the method of any one of claims 10 to 13. Client device included in a processed medical data retrieval system, connected via a communication channel (108) to a computer platform (101) obtaining initial medical data (105), the processed medical data being obtained by processing the initial medical data, characterized in that the client device (109) comprises: remote control means (110) for processing means (102) included in the computer platform, via the transmission of said commands; means (111) for receiving the processed medical data generated by the processing means (102) included in the computer platform; means for restoring (112) received processed medical data. 17. A computer platform included in a processed medical data rendering system, said system comprising a client device (109) connected via a communication channel (108) to said computer platform (101) obtaining data. medical initials (105), the processed medical data being obtained by processing the initial medical data, characterized in that said computer platform (101) comprises: - receiving means (103) of commands from said client device (109) ; processing means (102) for generating the medical data processed from the initial medical data, according to the commands received; means (104) for sending the processed medical data to the client device.