KR20180105284A - Remote treatment method - Google Patents

Abstract

The present invention relates to a telemedicine method, comprising: providing a first medical image requested from a first user to a first collaborative terminal; Providing the first medical image to a second cooperative terminal of the second user according to information about a second user to collaborate through sharing of the first medical image; Generating a second medical image for cooperation according to an operation of the first medical image from any one of the first and second narrowing terminals; And providing the generated second medical image to the first coarse terminal and the second coarse terminal.

Description

{REMOTE TREATMENT METHOD}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a medical service, and more particularly, to a telemedical method for sharing medical images remotely through a server for providing medical images.

Humans visit hospitals for various diseases or otherwise. There are also cases where a number of health professionals need to consult for medical attention. At this time, each healthcare professional will work according to each schedule in his / her field, so it is not easy for all the necessary people to gather at one place and share opinions at the same time.

Also, even if a person questions and answers each other's opinions by a document, the document alone may cause problems in communicating with the doctor, and the time required for communicating opinions is highly required.

Therefore, there is a need for a method that can easily perform collision remotely. As a prior art enabling such remote collaboration, a remote collaboration system capable of exchanging information through video conference according to a predetermined schedule is presented. However, remote collaboration via conventional videoconferencing does not provide processing for various data, information or images.

Due to recent developments in medical imaging technology, diagnosis of patients is frequently performed based on various medical images. For remote cooperation, a user interface capable of various editing and processing of medical images is required.

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to provide a telemedicine method for sharing medical images among medical staff through a server for providing medical images, .

According to another aspect of the present invention, there is provided a telemedical method comprising: providing a first medical image requested by a first user to a first collaborative terminal; Providing the first medical image to a second cooperative terminal of the second user according to information about a second user to collaborate through sharing of the first medical image; Generating a second medical image for cooperation according to an operation of the first medical image from any one of the first and second narrowing terminals; And providing the generated second medical image to the first coarse terminal and the second coarse terminal.

Receiving biometric information of the patient detected by the medical collaboration server from the biometric information detector when the biometric information of the patient is detected using the biometric information detector; And the medical cooperative server further comprises transmitting a monitoring alarm signal to at least one of the first coarse terminal and the second coarse terminal according to the received biometric information of the patient.

Receiving, when the medical reservation information is input using the reservation terminal, the reservation information inputted by the medical collaboration server from the reservation terminal; And the medical collaboration server further comprises storing the received reservation information in a database.

According to the present invention, a medical image can be shared among medical staff through a server for providing medical images, and remote distinction can be easily performed through the medical image. Thus, a medical image can be provided to a medical image providing server The security of the medical image can be improved.

In addition, the present invention can establish an interface for sharing a medical image to a messenger, and easily select a user to share a medical image through an interface, thereby facilitating sharing and remote negotiation of a medical image.

1 shows a configuration of a telemedicine system according to an embodiment of the present invention.
2 is a block diagram of one embodiment of a medical collaboration server shown in FIG.
3 shows a flow chart of a telemedicine method according to an embodiment of the present invention.
4 is a reference diagram showing an example second medical image generated by a medical collaboration server.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art, and the following embodiments may be modified in various other forms, The present invention is not limited to the following embodiments. Rather, these embodiments are provided so that this disclosure will be more thorough and complete, and will fully convey the concept of the invention to those skilled in the art.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms "a", "an," and "the" include plural forms unless the context clearly dictates otherwise. Also, " comprise "and / or" comprising "when used herein should be interpreted as specifying the presence of stated shapes, numbers, steps, operations, elements, elements, and / And does not preclude the presence or addition of one or more other features, integers, operations, elements, elements, and / or groups. As used herein, the term "and / or" includes any and all combinations of one or more of the listed items.

Although the terms first, second, etc. are used herein to describe various elements, regions and / or regions, it should be understood that these elements, components, regions, layers and / Do. These terms do not imply any particular order, top, bottom, or top row, and are used only to distinguish one member, region, or region from another member, region, or region. Thus, the first member, region or region described below may refer to a second member, region or region without departing from the teachings of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the drawings schematically showing embodiments of the present invention. In the figures, for example, variations in the shape shown may be expected, depending on manufacturing techniques and / or tolerances. Accordingly, embodiments of the present invention should not be construed as limited to any particular shape of the regions illustrated herein, including, for example, variations in shape resulting from manufacturing.

Hereinafter, a telemedicine system and method according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4.

1 shows a configuration of a telemedicine system 100 according to an embodiment of the present invention.

1, a system according to the present invention includes a medical collaboration server 110, a first coarse terminal 120, a second coarse terminal 130, a biometric information detector 140, and a reservation terminal 150 , And a communication network 10 for connection of each terminal and server.

The communication network 10 may form a network of at least one of a wired network and a wireless network. For example, the communication network 10 may include a wired Internet network, a wireless internet such as WiFi (wireless fidelity), a wireless Internet such as WiBro (wireless broadband internet) or WiMax (world interoperability for microwave access) a 3G mobile communication network such as a wideband code division multiple access (WCDMA) or a CDMA2000, a high speed downlink packet access (HSDPA), or a high speed uplink (HSUPA) a 3.5G mobile communication network such as a packet access, a 4G mobile communication network such as an LTE (Long Term Evolution) network or an LTE-Advanced network, and a 5G mobile communication network.

The medical collaboration server 110 is a server for sharing information related to a medical image and a medical image to perform collaboration between the first and second narrowing terminals 120 and 130. The first and second narrowing terminals 120, A first cooperative medical image requested by a first user of the second cooperative terminal 130 to the first cooperative terminal 120, a second cooperative terminal 130 receiving information about a second user, To the second cooperative terminal 130 and processes the first cooperative medical image on the basis of the user input inputted from any one of the cooperative terminals of the two cooperative terminals, (Hereinafter, referred to as a second cooperative medical image) to the first cooperative terminal 120 and the second cooperative terminal 130. The first cooperative terminal 120 and the second cooperative terminal 130 generate a second cooperative medical image. Herein, it is assumed that the first cooperative terminal 120 is a user requesting medical image sharing (hereinafter, referred to as 'first user') and the second cooperative terminal 130 is referred to as a user of the first cooperative terminal 120 (Hereinafter referred to as a " second user "). The processing for the first cooperative medical image may include operations such as rotation, enlargement, and reduction, or may include a process of displaying an annotation superimposed on a screen, and may include a process of CAD or rendering. You may.

The medical collaboration server 110 can receive information about the second user from any one of the first and second narrowing terminals 120 and 130 and the information about the second user is received When the synchronization is performed through the messenger of the two cooperative terminals, the time may be the time when the first cooperative terminal 120 and the second cooperative terminal 130 are synchronized. When synchronization is performed through the medical cooperative server 110 The first user of the first cooperative terminal 120 may select the second user. The medical collaboration server 110 may search for and provide a medical image requested from each cooperative terminal.

The medical collaboration server 110 not only provides medical images capable of performing collaboration between the two cooperative terminals or more cooperative terminals, but also can provide the medical images generated through processing according to the user inputs to the cooperative terminals, Further, the first cooperative terminal 120 may detect related users so that the second user can be easily selected, and provide information on the related users to the first cooperative terminal 120. For example, the medical collaboration server 110 detects a plurality of users corresponding to the characteristic information among the users stored in advance based on the characteristic information of the first cooperative medical image requested from the first cooperative terminal 120, The first user can select the second user to perform the collaboration by providing the first plurality of users to the first collaboration terminal 120. [

Here, the characteristic information of the medical image may be obtained by a medical image capturing device in which a medical image is captured, for example, a computed tomography (CT), a magnetic resonance imaging (MRI) device, a positron emission tomography Positron Emission Tomography (X-ray) apparatus, X-ray apparatus and the like, photographed body parts, interest areas in medical images, medical imaging related fields, and the like.

In another example, the medical collaboration server 110 detects a plurality of users corresponding to the first user information among the users stored in advance based on the information about the first user, and transmits the detected plurality of users to the first collaboration terminal 120), whereby the first user can select the second user to perform the collaboration. Here, the first user information may include a user's affiliation, a user's professional field (for example, a cancer specialist), and may include all information of a user that can be applied in association with collaboration. If necessary, the medical collaboration server 110 may detect a plurality of users among the users stored in advance considering both the characteristic information of the first shared medical image and the first user information.

As another example, the medical collaboration server 110 stores a plurality of group information including a plurality of users, and provides the group information requested by the first user to the first cooperative terminal, The second user can be selected. Here, the group information may be classified according to a special field (category), the group information may include users in the corresponding field, and may further include basic group information set by the first user. Users included in the information may be added / modified / deleted by the first user.

Further, the medical collaboration server 110 may receive the shared information set by the first user from the first cooperative terminal 120, and the received shared information may be stored together with the cooperative medical image, The shared medical image and the cooperative medical image may be provided together with the shared information.

In addition, when at least one of the annotation, text, and voice information is received from any one of the two cooperative terminals of the two cooperative terminals, the medical collaboration server 110 provides the information received by the other cooperative terminal, . ≪ / RTI > At this time, the medical collaboration server 110 may directly provide the corresponding information to the two cooperative terminals, but may provide the corresponding information to the two cooperative terminals through the link information by providing link information on the corresponding information.

Further, the medical collaboration server 110 may be configured to display the cooperative medical image and textual result data, for example, a shared medical image manipulated by user input, an annotation input by a first user or a second user, and may store windowing, rendering, and the like. The resultant data may be stored in a database table mapped with the corresponding image data. The medical collaboration server 110 may provide reference data for collaborative results stored in the database table at the time of subsequent reading of the image data. Of course, the collaboration result data stored in the medical collaboration server 110 may be stored at the request of the first user or the second user performing the collaboration, and is preferably stored at the request of the first user requesting collaboration However, the present invention is not limited to this, and the second user may be stored at the request of the second user when the second user has the authority related to the storage. The collaboration result data stored in the medical collaboration server 110 may be updated by the first user and the second user performing the collaboration so that the collaboration result data is updated by the first user requesting the collaboration.

The first cooperative terminal 120 includes a messenger for performing the collaboration with the messenger of the second cooperative terminal 130. The first cooperative terminal 120 requests / receives the medical image from the medical cooperative server 110 and displays it on the screen, The second user who wants to share the medical image is selected and the link information of the medical image to be shared is provided to the messenger of the second collaboration terminal 130 via the messenger.

At this time, the first user of the first cooperative terminal 120 may receive the information about the plurality of users from the medical collaboration server 110, and may select the second user based on the information about the received plurality of users And may select a second user among the users of other messengers connected to the messenger.

Also, the first user may obtain group information preset by the first user, and may select a second user from the users included in the obtained group information, wherein the group information is transmitted to the first cooperative terminal 120 May be stored in the medical collaboration server 110 and may be provided to the first cooperative terminal 120 in response to a request of the first user.

At this time, the first user may add / delete / change the users included in the group information using the interface provided in the first collaboration terminal 120 or the messenger, and the group information set by the first user may be added / It may be the basic group information to which the first user belongs or may be the first group information for the other group to which the first user himself belongs. Of course, the first user can select one of the basic group information and the first group information using the interface provided in the first cooperating terminal 120 or the messenger.

The first cooperative terminal 120 may perform a synchronization process to share a medical image with the second cooperative terminal 130. When the second cooperative terminal 130 synchronizes with the second cooperative terminal 130, Medical image ") to the messenger 110 of the second cooperative terminal 130, and thereafter, the user's operation on the cooperative medical image input by the first user or the second user is processed The medical image, the text, the voice, and the like can be mutually shared through the medical collaboration server 110. [ Of course, according to the circumstances, the link information about the user's actions, texts, voices, and the like can be exchanged with each other through the messenger, and the cooperative medical images, texts, and voices processed by the user's actions can be mutually shared. The synchronization between the first collaboration terminal 120 and the second collaboration terminal 130 may be a synchronization between the messenger of the first collaboration terminal 120 and the messenger of the second collaboration terminal 130, ≪ / RTI >

The first cooperating terminal 120 and the second cooperating terminal 130 may be configured to process the processing result according to the input of the first user or the second user, for example, the rotation / enlargement / reduction / Cooperative medical image, CAD, annotation, text, voice, and the like from the medical cooperative server 110 directly. The first cooperative terminal 120 and the second cooperative terminal 130 are not limited to being directly provided with the processing result of the user input from the medical cooperative server 110, And receive the processed result through the link information.

The first cooperative terminal 120 synchronizes with the second cooperative terminal 130 and provides the input information to the medical cooperative server 110 when the user operation, annotation, text, voice, The first and second cooperating terminals 120 and 130 provide link information to the first cooperating terminal 120 and the second coining terminal 130 so that the first cooperating terminal 120 and the second coining terminal 130 can input user information So that the traffic between the first cooperative terminal 120 and the second cooperative terminal 130 can be minimized.

The first collaboration terminal 120 and the second collaboration terminal 130 may transmit and receive the link information of the result of the user input through the messenger. In this case, the result of the medical user input The link information can be received from the medical collaboration server 110 and provided to other cooperative terminals. The link information used in the description of the present invention may be generated in the first cooperative terminal 120 or the second cooperative terminal 130 and may be transmitted to other cooperative terminals through the messenger, The link information generated by the medical collaboration server 110 may be received by one of the cooperative terminals and may be provided to the other cooperative terminals.

At this time, in order to directly provide the link information from the medical collaboration server 110 to the second collaboration terminal 130, the medical collaboration server 110 acquires information on the second user of the second collaboration terminal 130 in advance It is self-evident to be. The messenger provided in each collaboration terminal may be a messenger capable of real-time remote collaboration, and may be a medical collaboration server 110, for example, a messenger specialized in a PACS system, and a user interface for sharing medical images.

At this time, the first user can set the sharing information related to the cooperative medical image using the UI provided in the messenger of the first cooperative terminal 120, and the shared information to be set is shared among the information related to the cooperative medical image A shared medical image control method, an operation control authority, and the like. Here, the information related to the cooperative medical image includes whether the second user can adjust / edit the cooperative medical image, the adjustment / editable range, CAD, annotation, windowing, rendering, and the like, and the operation control authority includes not only the user input to the cooperative medical image but also the authority to perform annotation, windowing, rendering, and the like . That is, the first user can set information sharing, access authority, motion control, and the like for the cooperative medical image when performing the cooperative operation.

The shared information on the cooperative medical image set using the user interface may be transmitted to the medical cooperative server 110. The medical cooperative server 110 may transmit the data to the second cooperative terminal 130 in consideration of the shared information .

The second cooing terminal 130 is a second cooing terminal for cooperating with the first cooing terminal 120. The second cooing terminal 130 includes a messenger of the first cooing terminal 120 and a messenger of the second cooing terminal 130 After receiving the request for cooperation from the first cooperative terminal 120 and performing a synchronization process by accepting the request of the second user, the link information of the cooperative medical image from the messenger or the medical collaboration server 110 of the first cooperative terminal 120 And receives the cooperative medical image corresponding to the link information from the medical cooperative server 110 and displays it on the screen.

The first cooperative terminal 120 and the second cooperative terminal 130 can transmit and receive link information such as coarse medical images, annotations, texts, and voices through the messenger or the medical collaboration server 110, Annotation, text, voice, and the like through the medical collaboration server 110 based on the medical image data. The second cooperating terminal 130 may restrict user input and information that can be shared based on shared information about the cooperative medical image set by the first user.

In FIG. 1, the first user of the first cooperative terminal requests collaboration and the second user of the second cooperative terminal accepts the medical image and shares the medical image. However, the present invention is not limited to this, have. In addition, a new medical image may be shared through the medical collaboration server 110 at the request of the first user or the second user in a state where the first cooperative terminal and the second cooperative terminal are synchronized.

In the embodiment of FIG. 1, an embodiment has been described in which a result screen of a rotation operation on an image shared among users participating in remote collaboration is shared. However, it is apparent to those skilled in the art that the spirit of the present invention is not limited to this embodiment. According to another embodiment of the present invention, results of operations such as enlargement, reduction, direction change (change of view point), and rotation of images shared among users participating in remote collaboration can be synchronized and shared. Also, annotation information of a user for a shared image can be displayed in synchronization with the rest of the users. If a user selects a medical image of interest from among various sets of medical images (set or group or series or study), the result of the selection may be provided to other users, and a plurality of medical images may be displayed together The result of screen switching by any one user can also be provided to other users.

On the other hand, manipulations such as rotation, enlargement, or reduction of an image by a user's request may be performed on a 3D medical image obtained as a result of 3D rendering, slice images of CT, MRI, Dimensional medical images such as sagittal, coronal, axial images, and multi-planar reformatting (MPR) images.

Further, the result of the additional processing by a request of one user may be shared with other users. Examples of the additional processing include three-dimensional rendering, a region of interest (ROI) such as a tumor, Interest segmentation, or computer aided diagnosis (CAD).

Such an operation, annotation display, image selection result, screen switching, additional processing, and the like are executed by the medical collaboration server 110 according to a request of one user, and the result is shared with the cooperative terminals of a plurality of users . At this time, when a user inputs an operation, an annotation addition, an image selection, a screen switching request, and an additional processing request through the user interface, the system according to the present invention determines whether to share the result of the request with another user And a confirmation menu for confirming the confirmation. Such a confirmation menu may be selectively provided considering factors such as a processing cost of a user request, a resource occupied by a user request, and a time required for processing. In other words, if the request of the user takes a lot of resources or takes a long time, a confirmation menu for confirming whether the result is to be shared with another user is provided. If the request of the user can be processed immediately, It can also be shared with users.

Conversely, a confirmation menu may be provided to confirm whether the request of the user is closely related to the patient ' s personal information and whether the request is to be shared with other users, not the processing cost, resource, processing time, etc. of the user's request. At this time, whether or not the confirmation menu is provided may be determined in consideration of a lesion or an organ request even if the same screen operation is performed.

The biometric information detector 140 can detect the biometric information of the patient. The bio-information detector 140 is a wearable bio-signal measuring means that can be worn by a patient, and includes an ECG sensor for measuring electrocardiogram, a blood pressure sensor for measuring blood pressure, a blood glucose sensor for measuring blood glucose, a breathing sensor And a momentum sensor for measuring an amount of exercise, the apparatus comprising: wearable bio-signal measurement means for measuring a bio-body of a patient; image capturing means for capturing an image of the patient; biometric data output from the bio- And communication means for transmitting the photographed data output from the photographing means to the data archive server via the wired / wireless network.

The biometric information detected by the biometric information detector 140 is transmitted to the medical collaboration server 110. The medical collaboration server 110 generates a monitoring alarm signal in accordance with the biometric information of the patient received from the biometric information detector 140 . The monitoring alarm signal may be a warning signal to alert the patient of an emergency. The medical collaboration server 110 may transmit the generated monitoring alarm signal to at least one of the first coarse terminal 120 and the second coarse terminal 130. [

The reservation terminal 150 can receive reservation information for the patient's care. The reservation terminal 150 is a conventional computing terminal used by a user. The reservation terminal 150 may be a personal computer (PC), a notebook, a netbook, a PDA, a tablet PC, a portable terminal, or the like. The reservation terminal 150 may be connected to the communication network 10 to perform data communication with the medical collaboration server 110. In particular, the reservation terminal 150 may include a conventional smart phone, a tablet PC, a PDA, or the like as a portable terminal. The reservation terminal 150 can perform a mobile reservation, a real-time reservation change, and a reservation time alarm function, and stores an application program for performing these functions.

The information reserved at the reservation terminal 150 is transmitted to the medical collaboration server 110. Accordingly, the medical collaboration server 110 stores the reservation information received from the reservation terminal 150 in the database. Thereafter, an alarm signal according to the reservation can be output.

2 is a block diagram of one embodiment of a medical collaboration server shown in FIG. Referring to FIG. 2, the medical collaboration server 110 may include a control unit 200, a communication unit 210, and a database 220.

The controller 200 provides the first medical image requested by the first user of the first cooperative terminal to the first cooperative terminal. At this time, the control unit 200 may provide information on a plurality of users for selecting a second user to the first cooperative terminal. For example, the control unit 200 may check the characteristic information stored in advance for the first medical image requested from the first cooperative terminal, and may detect a plurality of users corresponding to the characteristic information about the first medical image among the stored users And provides it to the first cooperative terminal. Here, the characteristic information of the medical image may be obtained by a medical image capturing device in which a medical image is captured, for example, a computed tomography (CT), a magnetic resonance imaging (MRI) device, a positron emission tomography Positron Emission Tomography (X-ray) apparatus, X-ray apparatus and the like, photographed body parts, interest areas in medical images, medical imaging related fields, and the like.

In another example, the control unit 200 may detect a plurality of users corresponding to the first user information among the previously stored users based on the information about the first user of the first cooperative terminal, And provides it as a cooperative terminal. Here, the first user information may include the user's affiliation, the user's professional field (for example, cancer specialist), and the like, as well as all information of the user that can be applied in association with the collaboration . In addition, the first user information may further include history information selected by the user for cooperation, and the history information may include information related to the characteristic information about the shared medical image, the selected user information, and the collaboration.

In another example, the control unit 200 may provide the first grouping information requested by the first user among the plurality of group information including the plurality of users to the first grouping terminal. Here, the request of the first user may be received through the user interface provided in the first cooperative terminal or the messenger. At this time, the group information may be classified according to the special field, and the group information may include users in the corresponding field, and such group information may include basic group information set by the first user.

In this way, the control unit 200 can detect a plurality of users corresponding to a specific criterion among the stored users and provide the detected users to the first cooperative terminal. And the information about the users provided to the first cooperative terminal 120 may include information on the priorities of the users in the related fields.

The communication unit 210 receives the information about the second user to perform the collaboration by sharing the first medical image with the first cooperative terminal. At this time, the communication unit 210 may receive information about the second user from the first cooperative terminal or from the second cooperative terminal, and the first cooperative terminal and the second cooperative terminal may be provided in each of the cooperative terminals And can receive information about the second user when synchronized through the messenger.

The information on the second user received by the communication unit 210 means information on the user selected by the first user among the plurality of users provided to the first cooperative terminal in the control unit 200. [

Also, the communication unit 210 may receive the sharing information about the first medical image set by the first user of the first cooperative terminal, and the sharing information about the first medical image may include information related to the first medical image Information that can be provided to the second user and information related to the operation of the second user.

The communication unit 210 receives annotations, texts, and voices input by one of the first user and the second user while the first medical image is shared with the two cooperative terminals, and transmits the received information to another user As a cooperative terminal.

The control unit 200 provides the first medical image to the second cooperative terminal of the second user based on the information about the second user received by the communication unit 210. [ That is, the controller 200 can share medical images with the first cooperative terminal and the second cooperative terminal that perform collaboration.

Furthermore, the control unit 200 may provide the second medical image to the second cooperative terminal together with the first medical image sharing information set by the first user.

In addition, the control unit 200 can share annotation, text, and voice information by providing the annotation, text, voice information, and the like received by the communication unit 210 to other cooperative terminals. Further, The second medical image generated with respect to the user input of the terminal is provided to the first cooperative terminal and the second cooperative terminal so that the second medical image can be shared.

The control unit 200 processes the first medical image based on the received user input when the user input for the operation of the first medical image is received from any one of the first and second narrowing terminals, And generates a second medical image for one medical image, thereby providing the second medical image to the first coarse terminal and the second coarse terminal. At this time, the process for the medical image performed by the control unit 200 may include an operation such as rotation, enlargement, and reduction, or may include a process of superimposing an annotation on a screen, (CAD), computer aided diagnosis (CAD), or the like, for example, a region of interest (ROI) such as a tumor,

The database 230 means a memory storing means for storing data. The database 230 may be configured to be included in the medical collaboration server 110, or may be configured by a separate means. The database 230 may store information related to medical images, user information, and medical images. In addition, the database 230 may include an image processing module such as a rendering unit, and may store a cooperative medical image at the request of the control unit 200.

3 shows a flow chart of a telemedicine method according to an embodiment of the present invention.

First, a cooperative medical image (first medical image) to be shared is searched from the first cooperative terminal and is provided to the first cooperative terminal (S300).

After the step S300, if the second user to perform the collaboration by the first user of the first coarse terminal is selected after the first medical image is provided to the first coarse terminal, the first coarse terminal or the second coarse terminal, (S302). Here, the step S302 may receive the information about the second user when the synchronization is performed through the messenger provided to the first and second narrowing terminals, respectively, or may select the second user by the first user And may receive information about the second user. Further, in step S302, not only the information about the second user but also the sharing information about the first medical image set by the first user may be received.

After the step S302, when the information about the second user is received, the first medical image is provided to the second cooperative terminal of the second user based on the received information about the second user (S304). Here, the medical collaboration server may provide link information for the first medical image to the second narrowing terminal, and may provide the first medical image to the second narrowing terminal based on the link information, Or may be provided directly to the second cooperative terminal or may be provided from the first cooperative terminal to the second cooperative terminal through the messenger. The step S304 may provide the shared information about the first medical image received from the first cooperative terminal to the second cooperative terminal together with the first medical image.

After step S304, if the first medical image is shared between the first cooperative terminal and the second cooperative terminal, it is determined whether a user input is received from the first user of the first cooperative terminal and the second user of the second cooperative terminal, The first medical image is processed based on the received user input, and the second medical image for the first medical image is generated (S306). FIG. 4 is an example of a second medical image generated for the medical collaboration server, that is, an image for a normal. Here, the step S306 includes both cases where the sharing information on the first medical image can not be manipulated / edited by the second user and the case where it is possible, and the second medical image includes a case where the first medical image is rotated, enlarged , Reduction, rendering, annotation insertion, insertion of CAD results, and the like.

After step S306, when the second medical image is generated, the generated second medical image is provided to the first and second cooperative terminals (S308). Text, voice, and the like are received from one of the cooperative terminals while the first medical image is shared between the two cooperative terminals, the received coincident terminal provides the received comment, text, voice, It is possible.

On the other hand, if the biometric information of the patient is detected using the biometric information detector during or after the steps S300 to S308, the medical cooperation server receives the biometric information of the detected patient from the biometric information detector, And transmits a monitoring alarm signal to at least one of the first coarse terminal and the second coarse terminal according to the biometric information of the patient. When the medical reservation information is input using the reservation terminal, the medical collaboration server receives the input reservation information from the reservation terminal and stores the received reservation information in the database.

The telemedical method of the present invention can be applied to various reproduction apparatuses by being implemented in a software program and recorded in a predetermined recording medium readable by a computer. The various playback devices may be a PC, a notebook, a portable terminal, and the like. For example, the recording medium may be a hard disk, a flash memory, a RAM, a ROM, or the like embedded in each reproduction apparatus, or an external optical disk such as a CD-R or a CD-RW, a compact flash card, a smart media, have.

Although the embodiments of the present invention have been described above, the embodiments disclosed in the specification of the present invention do not limit the present invention. The scope of the present invention should be construed according to the following claims, and all the techniques within the scope of equivalents should be construed as being included in the scope of the present invention.

110: Medical Collaboration Server
120: first cooperative terminal
130: second cooperation terminal
140: Biometric information detector
150: reservation terminal

Claims (3)

Providing a first medical image requested from a first user to a first cooperative terminal;
Providing the first medical image to a second cooperative terminal of the second user according to information about a second user to collaborate through sharing of the first medical image;
Generating a second medical image for cooperation according to an operation of the first medical image from any one of the first and second narrowing terminals; And
And providing the generated second medical image to the first coarse terminal and the second coarse terminal. The method according to claim 1,
Receiving biometric information of the patient detected by the medical collaboration server from the biometric information detector when the biometric information of the patient is detected using the biometric information detector; And
Wherein the medical collaboration server further comprises transmitting a monitoring alarm signal to at least one of the first coarse terminal and the second coarse terminal according to the received biometric information of the patient. The method according to claim 1,
Receiving, when the medical reservation information is input using the reservation terminal, the reservation information inputted by the medical collaboration server from the reservation terminal; And
Wherein the medical collaboration server further comprises storing the received reservation information in a database.

Images