CN107610754B - Medical image center system, remote end and local end - Google Patents

Abstract

The invention discloses a medical image center system, a remote end and a local end, wherein the medical image center system comprises the remote end and at least one local end, and the remote end comprises a data processing workstation, wherein the data processing workstation is used for acquiring patient information and an examination protocol according to a received access request of the local end and sending the patient information and the examination protocol to the local end; the local end is used for acquiring image data according to the examination protocol and the patient information and sending the image data to a remote end; the data processing workstation is further configured to process the image data to generate a diagnostic result. Based on the medical image center system, the remote end and the local end, the interaction times between the local end and the remote end can be reduced, the workflow of the local end is simplified, the labor of the local end is saved, and the cost of the local end is reduced.

Description

Medical image center system, remote end and local end

Technical Field

The embodiment of the invention relates to the technical field of medical images, in particular to a medical image center system, a remote end and a local end.

Background

The medical imaging equipment is various instruments which use various different media as information carriers to reproduce the internal structure of a human body into images, and the image information of the medical imaging equipment has a corresponding relation in space and time distribution with the actual structure of the human body. The medical imaging apparatus includes: digital Radiography (DR), Computed Tomography (CT), Magnetic Resonance imaging (MR), breast machine, gastrointestinal machine, ultrasound, nuclear medicine, and other imaging devices.

The medical imaging device may perform photographing through interaction with a PACS (Picture architecture and Communications System) or an RIS (Radiology Information System). However, when photographing in this manner, the workflow is complicated and the technician is inconvenienced.

Disclosure of Invention

The embodiment of the invention provides a medical image center system, a remote end and a local end, which can unify and simplify the workflow of the local end and reduce the complexity and cost of the local end.

In order to achieve the purpose, the invention adopts the following technical scheme:

in a first aspect, an embodiment of the present invention provides a medical image center system, including a remote end and at least one local end, where the remote end includes a data processing workstation, where:

the data processing workstation is used for acquiring patient information and an examination protocol according to the received access request of the local end and sending the patient information and the examination protocol to the local end;

the local end is used for acquiring image data according to the examination protocol and the patient information and sending the image data to the remote end;

the data processing workstation is further configured to process the image data to generate a diagnostic result.

Further, in the medical image center system, the data processing workstation is further configured to send the processed image data to the local end for the local end to confirm, and generate a diagnosis result when receiving a confirmation instruction from the local end.

Further, in the medical image center system, the data processing workstation includes an image processing module:

the image processing module is used for processing the image data sent by the local end to generate a diagnosis result and filing the diagnosis result.

Further, in the medical image center system, the data processing workstation at least further includes: one of a protocol editor, a patient registration module, a patient management module, and a remote services module, wherein:

the protocol editor is used for importing and/or editing the check protocol;

the patient registration module is used for receiving patient information, wherein the patient information comprises name, gender, age and examination part;

the patient management module is used for managing the patient information and the diagnosis result;

the remote service module is used for realizing interaction and control between the local end and the remote end, and/or monitoring the running state of the remote end and processing running fault errors of the remote end.

Further, in the medical image center system, the local end comprises a data acquisition workstation, an acquisition system and a first display;

the acquisition system is used for acquiring image data of a patient;

the data acquisition workstation is respectively in communication connection with the data processing workstation and the acquisition system, and is used for controlling the acquisition system to acquire image data according to the examination protocol and the patient information and sending the image data to the data processing workstation;

the first display is in communication connection with the data acquisition workstation and is used for displaying the processed image data.

Furthermore, in the medical image center system, the data processing workstation is further configured to send examination completion status information to the data acquisition workstation after the diagnosis result is generated;

the data acquisition workstation is also used for receiving the inspection completion information, closing a current inspection page according to the received inspection completion information and entering a preparation state.

Further, in the medical image center system, the data acquisition workstation at least includes: one of an examination protocol module and an image acquisition module, wherein:

the inspection protocol module is used for editing and/or importing the inspection protocol from the remote end;

the image acquisition module is used for controlling the acquisition system to acquire image data according to the examination protocol and the patient information.

Further, in the medical image center system, the data acquisition workstation further includes a local service module:

the local service module is used for realizing remote interaction with the data processing workstation and responding to the control of the data processing workstation, and/or monitoring the running state of the local end and processing the running fault error of the local end.

In a second aspect, an embodiment of the present invention further provides a remote end for the medical image center system provided in the first aspect, where the remote end may perform data interaction with a local end, receive an access request from the local end, obtain patient information and an examination protocol, and send the patient information and the examination protocol to the local end; and receiving the image data sent by the local end, processing the image data to generate a diagnosis result, and sending the diagnosis result to the local end.

In a third aspect, an embodiment of the present invention further provides a local end used in the medical image center system provided in the first aspect, where the local end may perform data interaction with a remote end, and the local end sends an access request to the remote end, collects image data according to patient information and an examination protocol sent by the remote end, sends the image data to the remote end, and receives a diagnosis result sent by the remote end.

According to the medical image center system, the remote end and the local end provided by the embodiment of the invention, through the data processing workstation of the remote end, the remote end is connected with the plurality of local ends, the local end only acquires images, and the remote end realizes a technical means of unified processing and monitoring, so that on one hand, the interaction times between the local end and the remote end can be reduced, and on the other hand, the local end only acquires the image data without processing the image data, so that the workflow of the local end is simplified, and meanwhile, the cost of the local end is reduced. In practical application, the local end only needs a technician to perform positioning and shooting operations, and the remote end can be provided with an expert to diagnose a plurality of images acquired by the local end to generate a diagnosis result, so that the labor cost of the local end is reduced to a great extent.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a medical image center system according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a medical image processing method according to a fourth embodiment of the present invention;

fig. 3 is a schematic flow chart of a medical image processing method according to a fifth embodiment of the present invention;

fig. 4 is an interaction diagram of a medical image center system according to a fifth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

As mentioned in the background, the workflow of current photography systems is complex when image acquisition is performed. After research, the inventor finds that in the current photography mode, an operator needs to operate at both the RIS end and the photography system end and perform interactive confirmation of information, and the workflow is complicated and intersected. Such as: an operation needs to be performed during photographing to read a patient database worklist stored in the RIS system to obtain patient information, and then to confirm whether the patient information is correct on the photographing system, and also, it may be necessary to supplement gantry information or an examination protocol, etc. at the time of photographing.

Therefore, the embodiment of the invention provides a medical image center system, which uniformly allocates and monitors a plurality of local ends through a data processing workstation of a remote end so as to solve the problem of complex workflow of the local ends. As shown in fig. 1, the medical image center system includes:

a remote peer 10 and at least one local peer 20, the remote peer 10 comprising a data processing workstation 101, wherein: the data processing workstation 101 is used for acquiring the patient information and the examination protocol according to the received access request of the local end 20 and sending the patient information and the examination protocol to the local end 20; the local end 20 is in communication connection with the remote end 10 and is used for acquiring image data according to an examination protocol and patient information and sending the image data to the remote end 10; the data processing workstation 101 is further configured to process the image data to generate a diagnostic result.

In the above scheme, the communication mode between the remote end and the local end is wireless communication and/or wired communication; suitable communication protocols are used for the different data, for example the standard DICOM protocol is used for the transmission of image data. When the local end 20 is connected to the remote end 10, the remote end 10 generates a unique identification number for management, and associates the unique identification number with the local end 20, so that the subsequent remote end 10 can still accurately monitor the local end 20 when connecting to a plurality of local ends 20.

It should be noted that, because the remote end 10 and the local end 20 are used as monitoring and monitored subjects, and the connection between the remote end 10 and the local end 20 should be established when the local end 20 obtains the permission of the remote end 10 to connect, for example, it is suggested to integrate a function module for starting the remote connection into an internal system of the remote end 10, so that after a worker at the local end 20 registers basic information to obtain the connection permission, the worker at the remote end 10 only needs to determine the basic information of the local end 20 to be connected, and press a shortcut key of the remote connection to start the remote connection service, or start the remote connection service in other manners.

It should be further noted that, in the embodiment of the present invention, the local end 20 acquires the access qualification from the remote end 10 by generating the access request, in order to access the patient management database of the remote end 10, the local end 20 requests the access qualification.

Specifically, the access request with the basic information of the patient at the local end 20 can be sent to the remote end 10 in a triggering manner of automatic identification by swiping the medical card, the identification card, the military functionality card, the driving license, the passport, the social security card and other documents carrying the identification information of the patient to be photographed at the magnetic card machine of the local end 20, or in a triggering manner of manual input by a technician, wherein the basic information of the patient can include the name, the sex, the age, the identification number and/or the ID number of the medical card and the like.

After the data processing workstation 101 of the remote end 10 receives the access request from the local end 20, the data processing workstation 101 identifies the information in the certificate carrying the identification information of the identified patient, queries and matches the corresponding patient information in the patient management database, matches the corresponding examination protocol according to the patient information, and sends the patient information and the examination protocol corresponding to the patient information to the local end 20; in the embodiment of the present invention, optionally, the data processing workstation 101 first sends the matched patient information to the local end 20 that has made the access request, and after the local end 20 confirms that there is no error, the local end 20 feeds back a ready signal to the data processing workstation 101, so that the data processing workstation 101 continues to issue the examination protocol to the local end 20.

In the embodiment of the present invention, the image data of the body part of the patient acquired by the local end 20 according to the examination protocol and the patient information may be acquired by a DR system, specifically, the image data of the part to be examined is generated by a flat panel detector and sent to the remote end 10 for image processing, where the image processing may include image preprocessing and image post-processing; the image preprocessing may include segmenting the image, removing a dead line in the image by filtering, and the image post-processing may include equalizing, denoising, enhancing, LUT transforming, window width and window level adjusting, and the like. Through image post-processing, images acquired by the flat panel detector can be processed into images which can be used for clinical diagnosis.

In this embodiment, the local end acquires the image data through the DR system, and in other embodiments, the local end may also acquire the image data through the MR or CT system.

In other embodiments, the data processing workstation is further configured to send the processed image data to the local end for confirmation by the local end, and generate a diagnosis result when receiving a confirmation instruction from the local end. Specifically, the local technician confirms whether the part of the patient photographed in the processed image is correct; after the technician confirms that no error exists, a confirmation instruction without error of the shooting part is sent to the remote end, and the data processing workstation generates a diagnosis result after receiving the instruction, wherein the diagnosis result comprises a diagnosis report.

Optionally, the data processing workstation comprises an image processing module. The image processing module is used for processing the image data sent by the local end to generate a diagnosis result and filing the diagnosis result.

The image processing module may implement the image preprocessing and the image post-processing mentioned above for the image data uploaded at the local end, and may also implement functions such as image preview, image archiving (printing, storing), data archiving, and the like.

Optionally, the data processing workstation further comprises at least: one of a protocol editor, a patient registration module, a patient management module, and a remote services module, wherein: the protocol editor is used for importing and/or editing the check protocol; the patient registration module is used for receiving patient information, wherein the patient information comprises name, gender, age and examination part; the patient management module is used for managing the patient information and the diagnosis result; the remote service module is used for realizing interaction and control between the local end and the remote end, and/or monitoring the running state of the remote end and processing running fault errors of the remote end.

In this embodiment, since the acquisition system used for acquiring the image data of the body part of the patient is exemplified by a DR system, the examination protocol includes a gantry positioning parameter and an exposure parameter, but for different medical imaging apparatuses, the examination protocol includes different contents, for example: when the acquisition system is a breast machine, the corresponding examination protocol may include dose information, positioning information, examination purpose, projection information, and the like.

In this embodiment, the protocol editor in the data processing workstation may store examination protocols with different versions, and different examination protocols are corresponding to different shooting positions; checking the protocol, on one hand, the protocol can be imported into a protocol editor in a form or a data packet mode, and then the protocol editor confirms or modifies the protocol; on the other hand, the method can be obtained by editing in an online input mode through a protocol editor. Taking the DR system as an example, the content in the inspection protocol includes rack placement parameters of the DR system at the local end, such as: source image distance, gantry rotation angle, etc., exposure parameters: such as tube current, tube voltage, exposure time, etc.

The patient information registered by the patient at the hospital registration window or the patient information registered by the APP of the mobile phone client is sent to the patient registration module of the data processing workstation of the remote end for registration, and then is stored in the patient management module. Accordingly, all records of the patient during the hospitalization procedure, including the diagnosis results, are also stored in the patient management module.

In the embodiment of the present invention, the data processing workstation 101 is further provided with a communication module for implementing data transmission; the remote service module in the data processing workstation 101 realizes the interaction and control between the local end and the remote end through the communication module; specifically, the remote end can receive the interactive data of the local end through the remote service module, and can input a control instruction through the remote service module, and then transmit the control instruction to the local end through the communication module, so as to realize remote control of the local end 20. When the remote end 10 has an operation fault, the remote service module responsible for monitoring the operation state of the remote end 10 can accurately locate a fault point and prompt a worker to process the fault point in time in a manner of giving an alarm.

In this embodiment, the local end 20 includes a data acquisition workstation, an acquisition system, and a first display;

the acquisition system is used for acquiring image data of a patient; in this embodiment, the acquisition system may include a bulb, a gantry, and a detector in a DR system.

The data acquisition workstation is respectively in communication connection with the data processing workstation and the acquisition system and is used for controlling the acquisition system to acquire image data according to the examination protocol and the patient information and sending the image data to the data processing workstation; the first display is in communication connection with the data acquisition workstation and is used for displaying the processed image data. The first display adopts a universal level display and is mainly used for displaying processed images sent back after being processed by a remote end, checking pages and the like.

Optionally, the data processing workstation is further configured to send examination completion information to the data acquisition workstation after the diagnostic result is generated; the data acquisition workstation is also used for receiving the inspection completion information, closing a current inspection page according to the received inspection completion information and entering a preparation state for executing the next shooting. It should be noted that, before the data processing workstation at the remote end generates the diagnosis result, the data acquisition workstation at the local end may still be in an operating state, because for some patients, it may be necessary to photograph multiple parts of the body; only when the data acquisition workstation receives the inspection completion information from the data processing workstation, the data acquisition workstation closes the current inspection page, initializes the parameter setting of the acquisition system, and enters a preparation state for the next shooting.

Optionally, the data collection workstation includes a local service module: the local service module is used for realizing remote interaction with the data processing workstation and responding to the control of the data processing workstation, and/or monitoring the running state of the local end and processing the running fault error of the local end.

Specifically, the data acquisition workstation is also provided with a communication module for realizing data transmission, and the local service module realizes remote interaction with the data processing workstation and responds to the control of the data processing workstation through the communication module. When the local end has operation fault errors, the local service module responsible for monitoring the operation state of the local end can also accurately locate fault points and prompt the staff at the local end to follow up the processing in a manner of giving an alarm. In addition, the abnormal condition of the local end can also be sent to the mobile phone client of the staff through the communication module to prompt.

Optionally, the data acquisition workstation further comprises at least: one of an examination protocol module and an image acquisition module, wherein: the inspection protocol module is used for editing and/or importing the inspection protocol from the remote end; the image acquisition module is used for controlling the acquisition system to acquire image data according to the examination protocol and the patient information.

In this embodiment, the check protocol received by the data acquisition workstation from the remote end data processing workstation may be imported to the check protocol module in a form or a data packet. Generally, only if the corresponding authority is provided, the check protocol in the check protocol module can be edited and modified, and only if the check protocol has messy codes or other errors caused by system errors, the editing and modification of the check protocol are allowed according to the indication of the remote end. In this embodiment, the remote end further includes a second display connected to the data processing workstation for displaying the diagnosis result. The second display can adopt a medical grade display, and is mainly used for diagnosing the focus and displaying the diagnosis result.

In summary, in the medical image center system provided in the first embodiment of the present invention, the data processing workstation of the remote end is used to connect the remote ends to the plurality of local ends, and the local ends only perform image acquisition, and the remote ends implement a technical means of unified processing and monitoring, so that on one hand, the number of interactions between the local ends and the remote ends can be reduced, and on the other hand, the local ends only need to perform image data acquisition and do not need to perform image data processing, and therefore, the workflow of the local ends is simplified and the cost of the local ends is reduced. In practical application, the local end only needs a technician to perform positioning and shooting operations, and the remote end can be provided with an expert to diagnose a plurality of images acquired by the local end to generate a diagnosis result, so that the labor cost of the local end is reduced to a great extent.

Example two

The embodiment of the invention provides a remote end for a medical image center system provided by the first embodiment, wherein the remote end can perform data interaction with a local end, receives an access request of the local end, acquires patient information and an examination protocol, and sends the patient information and the examination protocol to the local end; and receiving the image data sent by the local end, processing the image data to generate a diagnosis result, and sending the diagnosis result to the local end.

In this embodiment, the remote end includes a data processing workstation and a second display. After the remote end is connected with the local end, the data processing workstation inquires and acquires patient information and an examination protocol matched with the patient basic information from a patient management database according to the patient basic information in the received access request, such as the name, the sex, the age, the identification number and/or the medical card ID number of the patient, and then sends the patient information and the examination protocol to the local end; the data processing workstation is also used for receiving the image data sent by the local end, processing the image data, sending the processed image data to the local end for the local end to confirm, and generating a diagnosis result when receiving a confirmation instruction of the local end. The second display is connected with the data processing workstation and used for displaying the diagnosis result.

The data processing workstation of the remote end can be connected with a plurality of local ends, and the unified allocation and monitoring of the local ends are realized.

According to the remote end for the medical image center system, the data processing workstation of the remote end is used for realizing the unified allocation and monitoring of the local ends, and the local ends only need to acquire images, so that the problem of complex workflow of the local ends is solved.

EXAMPLE III

The embodiment of the invention provides a local end used for a medical image center system provided by the first embodiment, the local end can perform data interaction with a remote end, the local end sends an access request to the remote end, acquires image data according to patient information and an examination protocol sent by the remote end, sends the image data to the remote end, and receives a diagnosis result sent by the remote end.

In this embodiment, the remote end includes a data acquisition workstation, an acquisition system, and a first display. After the local end is connected with the remote end, the data acquisition workstation sends an access request with basic information of a patient to the data processing workstation of the remote end, and after receiving patient information and an examination protocol which are sent back by the data processing workstation and matched with the basic information of the patient, the data acquisition workstation controls the acquisition system to acquire image data of a part to be shot of the patient and sends the image data to the data processing workstation of the remote end; the data acquisition workstation is also used for receiving the processed image data sent by the data processing workstation, confirming the processed image data, sending a confirmation instruction to the data processing workstation of the remote end, and receiving a diagnosis result sent by the data processing workstation. The first display is connected with the data acquisition workstation and used for displaying the processed image data.

The local end for the medical image center system provided by the embodiment of the invention realizes unified allocation and monitoring by the remote end through the local end, and the local end only carries out image acquisition, so that the interaction times between the local end and the remote end can be reduced, and the local end only needs to carry out image data acquisition without carrying out image data processing, so that the workflow of the local end is simplified, the cost of the local end is reduced, and the labor cost of the local end is saved.

Example four

Referring to fig. 2, fig. 2 is a flowchart illustrating a medical image processing method according to a fourth embodiment of the present invention. The method is executed by the medical image center system provided by the embodiment of the invention, and comprises the following steps:

s310, the data processing workstation of the remote end obtains patient information and an examination protocol according to the received access request of at least one local end, and sends the patient information and the examination protocol to the local end.

At least one of which may be one, two or more. It should be noted that, the data processing workstation of the remote end may be connected to a plurality of local ends, and when a plurality of local ends send access requests to the data processing workstation of the remote end simultaneously or sequentially, the data processing workstation will query in the patient management database according to the received sequence and according to the patient basic information in the access requests, and send back to the corresponding local end after the patient information and the corresponding examination protocol are acquired.

And S320, the local end acquires image data according to the examination protocol and the patient information and sends the image data to the data processing workstation.

It should be noted that the patient information is used to confirm the identity of the patient and the part to be photographed; the examination protocol is used to set various parameters of the acquisition system, such as gantry positioning parameters, exposure parameters, etc. in the DR system, according to patient information. In this embodiment, unlike the prior art, after the image data of the patient is collected at the local end, the image data is not processed at the local end, but is transmitted from the local end to the data processing workstation at the remote end, so as to transfer the processing operation of the image data to the remote end.

S330, the data processing workstation processes the image data to generate a diagnosis result.

In this embodiment, the diagnosis result includes processed image data and other measurement data, where the processed image data may be a visual image obtained by processing image data acquired by the local end by a data processing workstation. Other measurement data may be some useful metric, data or information extracted from the image. For example, a relevant parameter obtained by measuring or calculating each tissue structure in the image, and the like.

The diagnosis result includes, in addition to the processed image data and other measurement data, a conclusion made by the physician based on the processed image data and other measurement data, a treatment plan, and the like.

According to the medical image processing method provided by the embodiment of the invention, the remote end is connected with the plurality of local ends, the local ends only carry out image acquisition, and the remote ends realize unified image processing and monitoring of the local ends, so that the interaction times between the local ends and the remote ends are reduced, the workflow of the local ends is simplified, and the cost of the local ends is also reduced.

In practical application, the local end only needs a technician to perform positioning and shooting operations, and the remote end can be provided with an expert to diagnose a plurality of images acquired by the local end to generate a diagnosis result, so that the labor cost of the local end is reduced to a great extent.

EXAMPLE five

As shown in fig. 3, the medical image processing method according to the fifth embodiment of the present invention is a further optimization of the step S330 "the data processing workstation processes the image data to generate a diagnosis result" based on the technical solution according to the fourth embodiment. Namely:

sending the processed image data to the local terminal for confirmation;

and when receiving the confirmation instruction of the local end, generating a diagnosis result according to the processed image data.

Based on the above optimization, as shown in fig. 3, the medical image processing method provided in this embodiment may specifically include the following steps:

s410, the data processing workstation of the remote end inquires and obtains patient information and an examination protocol according to the received access request of at least one local end, and sends the patient information and the examination protocol to the local end.

And S420, the local end acquires image data according to the examination protocol and the patient information and sends the image data to the data processing workstation.

And S430, sending the processed image data to the local terminal for confirmation.

The data processing workstation transmits the processed image data to the local end which makes the access request by adopting a standard DICOM protocol in a wireless communication and/or wired communication mode.

And S440, when the confirmation instruction of the local end is received, generating a diagnosis result according to the processed image data.

After receiving the processed image data from the data processing workstation at the remote end, the local end needs to confirm whether the patient part captured in the processed image is correct or not by the technician at the local end; after the technician confirms that the data is correct, a confirmation instruction that the shooting part is not wrong is sent to the remote end, and the data processing workstation generates a diagnosis result after receiving the instruction.

Optionally, before the acquiring the patient information and the examination protocol, the method may further include: patient information entered locally and/or sent remotely via a client is received.

Specifically, on one hand, the remote end can receive the registered patient information from the preset local end through the network, wherein the local end comprises a terminal operated by a specially-assigned person and arranged at a hospital registration place and/or a terminal which is arranged at a preset position of the hospital and can control the patient to register by himself; on the other hand, patient information may also be registered by receiving a specific APP from the patient's mobile client. The benefit that sets up like this lies in, can provide multiple selection for the patient to conveniently carry out patient information registration high-efficiently, satisfy different patients' demand, promote efficiency and experience of seeking medical advice.

Taking the DR system as an example, to achieve accurate acquisition of image data, before the local end acquires image data according to the examination protocol and the patient information, the method further may include: and the local end adjusts the frame positioning parameters and executes exposure operation according to the examination protocol and the patient information.

It should be noted that, after confirming that the patient information is correct, the local DR system positions the gantry in the acquisition system according to the gantry positioning parameters in the examination protocol, for example: adjusting the source image distance, the rotating angle of the frame, etc., and setting the tube current, the tube voltage, the exposure time, etc. of the bulb tube according to the exposure parameters in the inspection protocol.

Optionally, after generating the diagnosis result, the method further includes:

the data processing workstation sends inspection completion information to the local end;

and the local terminal receives the checking completion information, closes the current checking page according to the received checking completion information and enters a preparation state.

It should be noted that the entering of the local end into the ready state means that the local end enters a standby mode waiting for the next shooting, at this time, the local end has already closed the check page, and the parameter setting of the acquisition system is initialized.

In order to show the implementation process of the solution provided by the embodiment of the present invention more clearly, a specific example is described in detail below, wherein the local acquisition system is exemplified by a DR system. Referring to fig. 4, the remote end 10 is illustratively configured to have two local ends 20 connected thereto.

The remote terminal 10 receives patient information registered by a registration department of the hospital 30 and/or a self-service terminal of the hospital 30 through a network, and receives patient information remotely registered through the mobile phone client 40; when a patient swipes his or her certificate carrying patient identification information, such as a medical card, an identity card, a military officer certificate, a driver's license, a passport, a social security card, etc., at the magnetic card machine of the local terminal 20, the local terminal 20 sends an access request with patient basic information to the remote terminal 10, wherein the patient basic information may include the patient's name, sex, age, identification number and/or medical card ID number, etc.; the remote terminal 10 identifies which of the two local terminals 20 sends the access request according to the received access request with the identification number, inquires and acquires patient information and examination protocol corresponding to the patient according to the basic information of the patient, then firstly sends the acquired corresponding patient information to the local terminal 20 which provides the access request, and continues to send the corresponding examination protocol to the local terminal 20 after the local terminal 20 confirms that no error exists and feeds back a ready signal; a technician at the local terminal 20 positions a rack of the DR system according to an examination protocol, determines a part to be shot of a patient according to patient information, performs exposure operation after the part to be shot of the patient is ready, acquires image data of the part to be shot of the patient by an acquisition system, sends the image data to the remote terminal 10, and processes the image data by the remote terminal 10 to generate a diagnosis result; among them, the remote site 10 needs to send the processed image data back to the local site 20, and the technician at the local site 20 confirms whether the patient part photographed in the processed image is correct; after the technician confirms that the image is correct, a confirmation command indicating that the image-capturing part is correct is transmitted to the remote terminal 10, and the remote terminal 10 generates a diagnosis result when receiving the confirmation command. When the remote end 10 generates a diagnosis result, the examination is completed, and at this time, the remote end 10 sends examination completion information to the local end 20, so that the local end 20 closes the current examination page, enters a preparation state of waiting for the next shooting, and the interaction is finished.

According to the medical image processing method provided by the embodiment of the invention, the remote end is connected with the plurality of local ends, the local ends only carry out image acquisition, and the remote end realizes a technical means of unified processing and monitoring, so that on one hand, the interaction times between the local ends and the remote ends can be reduced, and on the other hand, the local ends only need to carry out image data acquisition and do not need to carry out image data processing, so that the workflow of the local ends is simplified, and meanwhile, the cost of the local ends is reduced; in addition, the technical means of sending the processed image data to the local terminal for confirmation through the remote terminal is adopted, so that the accuracy of the shooting part of the patient can be ensured. In practical application, the local end only needs a technician to perform positioning and shooting operations, and the remote end can be provided with an expert to diagnose a plurality of images acquired by the local end to generate a diagnosis result, so that the labor cost of the local end is reduced to a great extent.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (10)

1. A medical image center system, comprising a remote end and at least one local end, the remote end comprising a data processing workstation, wherein:

the data processing workstation is used for inquiring and matching corresponding patient information according to the received access request of the local terminal, matching corresponding examination protocols according to the patient information, and sending the patient information and the examination protocols to the local terminal;

the local end is used for acquiring image data according to the examination protocol and the patient information and sending the image data to the remote end;

the data processing workstation is further configured to process the image data to generate a diagnostic result.

2. The system as claimed in claim 1, wherein the data processing workstation is further configured to transmit the processed image data to the local end for confirmation, and generate a diagnosis result when receiving a confirmation instruction from the local end.

3. The medical image center system of claim 1, wherein the data processing workstation comprises an image processing module:

the image processing module is used for processing the image data sent by the local end to generate a diagnosis result and filing the diagnosis result.

4. The medical image center system of claim 3, wherein the data processing workstation further comprises at least: one of a protocol editor, a patient registration module, a patient management module, and a remote services module, wherein:

the protocol editor is used for importing and/or editing the check protocol;

the patient registration module is used for receiving patient information, wherein the patient information comprises name, gender, age and examination part;

the patient management module is used for managing the patient information and the diagnosis result;

the remote service module is used for realizing interaction and control between the local end and the remote end, and/or monitoring the running state of the remote end and processing running fault errors of the remote end.

5. The medical image center system according to claim 1 or 2, wherein the local end includes a data acquisition workstation, an acquisition system and a first display;

the acquisition system is used for acquiring image data of a patient;

the data acquisition workstation is respectively in communication connection with the data processing workstation and the acquisition system, and is used for controlling the acquisition system to acquire image data according to the examination protocol and the patient information and sending the image data to the data processing workstation;

the first display is in communication connection with the data acquisition workstation and is used for displaying the processed image data.

6. The medical image center system according to claim 5,

the data processing workstation is also used for sending examination completion information to the data acquisition workstation after the diagnosis result is generated;

the data acquisition workstation is also used for receiving the inspection completion information, closing a current inspection page according to the received inspection completion information and entering a preparation state.

7. The medical image center system of claim 5, wherein the data acquisition workstation comprises at least: one of an examination protocol module and an image acquisition module, wherein:

the inspection protocol module is used for editing and/or importing the inspection protocol from the remote end;

the image acquisition module is used for controlling the acquisition system to acquire image data according to the examination protocol and the patient information.

8. The medical image center system of claim 7, wherein the data acquisition workstation further comprises a local service module:

the local service module is used for realizing remote interaction with the data processing workstation and responding to the control of the data processing workstation, and/or monitoring the running state of the local end and processing the running fault error of the local end.

9. A remote end for the medical image center system according to any one of claims 1 to 8, the remote end being capable of data interaction with a local end,

the remote end receives an access request of the local end, inquires and matches corresponding patient information, matches a corresponding examination protocol according to the patient information, and sends the patient information and the examination protocol to the local end; and receiving the image data sent by the local end, processing the image data to generate a diagnosis result, and sending the diagnosis result to the local end.

10. A local end for the medical image center system as claimed in any one of claims 1-8, the local end being capable of data interaction with a remote end,

the local end sends an access request to the remote end, acquires image data according to the patient information and the examination protocol sent by the remote end, sends the image data to the remote end, and receives a diagnosis result sent by the remote end.

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