CN106998337B - Method and system for remotely controlling ophthalmic equipment to automatically acquire inspection data - Google Patents

Abstract

The invention provides a method and a system for remotely controlling ophthalmic equipment to automatically acquire inspection data. The method comprises the following steps: adopting a doctor client to open a checking order, and storing the checking order into a to-be-processed checking order list of a worklist server; starting a corresponding worklist client when the ophthalmic equipment is checked, so that the worklist client sends a worklist query request to a worklist server, and the worklist server returns a corresponding check list to the worklist client according to the request; selecting a corresponding check list from the check list, sending the ID of the check list to a worklist server, and enabling the worklist server to move the check list record corresponding to the ID to a processed check list; writing the currently selected check list into a check list interface file by the worklist client, and finishing the operation; and after the ophthalmic device monitors that the worklist client is finished running, reading in an inspection list from an inspection list interface file, and executing corresponding inspection according to the inspection list. The invention can realize paperless office of ophthalmology and improve the inspection efficiency of ophthalmology equipment.

Description

Method and system for remotely controlling ophthalmic equipment to automatically acquire inspection data

Technical Field

The invention belongs to the technical field of medical equipment communication, and particularly relates to a method and a system for remotely controlling ophthalmic equipment to automatically acquire inspection data.

Background

An ophthalmic PACS is a system applied in the ophthalmic imaging department of hospitals. The main task of the ophthalmology PACS is to store various medical images daily generated by ophthalmology, including images generated by OCT, fundus camera, fundus fluorography camera, slit lamp, AB ultrasound, perimeter, electrophysiology and other ophthalmology equipment, in a digital mode through interfaces such as analog interface, network interface, digital imaging and Communications in Medicine (DICOM) and the like. When needed, the system can be quickly called back to use under certain authorization, and meanwhile, auxiliary diagnosis management functions are added. As the examination data of various ophthalmic equipment needs to be highly fused and analyzed, the left eye and the right eye are separately examined and possibly combined to be analyzed, the cup and plate parameters, the macular thickness topographic map and other ophthalmic special measurement functions are required, and the like, the common PACS aiming at equipment such as hospital-wide grade CT and the like in the market cannot meet the ophthalmic requirement, so that the ophthalmic equipment is not basically brought into the range of the hospital-wide grade PACS, namely a large number of ophthalmic equipment still work in isolation, and the examination data are not sent to the PACS server through DICOM. With the upgrading of hospital informatization and the development of telemedicine and graded diagnosis and treatment, particularly with the high requirements of ophthalmology on image quality and the observation and analysis of all examination images (for example, 128 images can be generated by one OCT examination), the paper report sheet cannot meet the diagnosis requirements, and the ophthalmology urgently needs to configure an ophthalmologic PACS meeting the requirements.

In addition, after a prescribing physician makes a preliminary determination of the condition, it is often desirable to examine certain fundus or anterior segment locations of the patient in a specific manner. The ophthalmology PACS on the market is not many at present, and does not support paperless office, namely, the examination part and the examination mode can be remarked on the examination sheet only by printing the examination sheet, which not only requires that a diagnostician can memorize the part and the examination mode which are allowed to be examined by equipment allocated to each examination department, but also wastes more time spent by the examination department to check the examination sheet, thereby affecting the examination efficiency, and possibly causing the condition of mislooking the examination sheet when the examination sheet is busy.

Disclosure of Invention

An object of an embodiment of the present invention is to provide a method and a system for automatically acquiring examination data by remotely controlling an ophthalmic apparatus, which are used to solve the problems that the ophthalmic PACS in the prior art does not support paperless office, and only an examination part and an examination mode can be remarked on an examination sheet, resulting in low examination efficiency and easy error.

The embodiment of the invention is realized in such a way that the method for remotely controlling the ophthalmic equipment to automatically acquire the inspection data comprises the following steps:

adopting a doctor client to open an inspection list, and storing the inspection list into a to-be-processed inspection list of a worklist server, wherein the inspection list at least comprises an inspection list ID, an inspection part and an inspection mode;

starting a corresponding worklist client when ophthalmic equipment is checked, so that the worklist client sends a worklist query request to a worklist server, and the worklist server returns a corresponding check list to the worklist client according to the worklist query request;

the worklist client displays the checklist list, selects a corresponding checklist from the checklist list, and sends the checklist ID of the checklist to the worklist server, so that the worklist server moves the checklist record from the to-be-processed checklist list to the processed checklist list according to the checklist ID;

and the worklist client writes the currently selected examination list into an examination list interface file, and finishes the operation after the writing is finished, so that the ophthalmic equipment reads the examination list from the examination list interface file after monitoring that the worklist client finishes the operation, and executes corresponding examination according to an examination part and an examination mode in the examination list.

In the method for automatically acquiring examination data by remotely controlling an ophthalmic apparatus according to the embodiment of the present invention, before the issuing an examination order by a doctor client and storing the examination order in a to-be-processed examination order list of a worklist server, the method further includes:

setting a configuration file of the ophthalmic device in the worklist server in advance, wherein the configuration file of the ophthalmic device comprises an AET identifier, a device type, an address, a DICOM file receiving port number, an inspection part and an inspection mode of the ophthalmic device.

In the method for automatically acquiring examination data by remotely controlling an ophthalmic apparatus according to the embodiment of the present invention, the creating an examination order by using a doctor client and storing the examination order in a to-be-processed examination order list of a worklist server specifically includes:

the doctor client sends an equipment type query request to the worklist server, so that the worklist server returns a corresponding ophthalmic equipment type list to the doctor client according to the equipment type query request;

selecting a certain type of equipment in the ophthalmic equipment type list, and inquiring and displaying AET identification lists of all ophthalmic equipment contained in the currently selected equipment type from the worklist server through the doctor client;

selecting a certain ophthalmic device from the AET identification list, and inquiring and displaying all examination part lists and examination mode lists contained in the ophthalmic device from the worklist server through the doctor client;

checking the inspection part and the inspection mode in the inspection part list and the inspection mode list to generate an inspection list, and storing the inspection list into a to-be-processed inspection list of the worklist server.

In the method for remotely controlling ophthalmic equipment to automatically acquire inspection data according to the embodiment of the present invention, starting a corresponding worklist client during inspection of ophthalmic equipment, so that the worklist client sends a worklist query request to a worklist server, and the returning of a corresponding inspection list to the worklist client by the worklist server according to the worklist query request specifically includes:

starting a corresponding worklist client when the ophthalmic equipment is checked, and enabling the worklist client to send a DIMSE _ C _ FIND _ RQ message to the worklist server;

after monitoring the DIMSE _ C _ FIND _ RQ message, the worklist server analyzes a patient ID and an AET identifier carried in the DIMSE _ C _ FIND _ RQ message, and combines the patient ID and the AET identifier into an SQL statement to inquire a checklist set meeting conditions from the to-be-processed checklist list;

the worklist server encapsulates each checking list information in the checking list set into a DICOM message data set, and sends each DICOM message data set to the worklist client through C-FIND-RSP messages in sequence;

after the worklist client receives the C-FIND-RSP message, a DICOM message data set carried in the C-FIND-RSP message is analyzed, a checking list ID packaged in the DICOM message data set is inserted into a checking list to be displayed, and a checking part and a checking mode are stored in a hash table.

In the method for automatically acquiring examination data by remotely controlling an ophthalmic apparatus according to the embodiment of the present invention, the selecting, by the worklist client, a certain examination order from the examination order list according to an operation instruction input by a user, and sending an examination order ID of the examination order to the worklist server, so that the moving, by the worklist server, the examination order record from the examination order list to be processed to the processed examination order list according to the examination order ID specifically includes:

the worklist client selects a certain checking order from the checking order list according to an operation instruction input by a user, packages the checking order ID of the checking order into an MPPS message and sends the MPPS message to the worklist server; and the worklist server receives and analyzes the MPPS message to obtain a checking list ID carried in the MPPS message, then the checking list ID is constructed into an SQL statement, a checking list record corresponding to the checking list ID is inquired from the checking list to be processed, and the checking list record is moved from the checking list to be processed to the processed checking list.

Another object of the embodiments of the present invention is to provide a system for remotely controlling an ophthalmic apparatus to automatically acquire examination data, including a doctor client, a worklist server, an ophthalmic apparatus, and a worklist client, where the worklist server is in communication connection with the doctor client and the worklist client, respectively, and the worklist client is also in communication connection with the ophthalmic apparatus; the ophthalmic device comprises a worklist client starting unit and a monitoring and control unit, the worklist server comprises a worklist query request processing unit and an examination order record processing unit, the worklist client comprises an examination order list query unit, a to-be-processed examination order display unit, a to-be-processed examination order selection unit and an examination order interface file generation unit, and the worklist client starting unit comprises a worklist query unit, a to-be-processed examination order display unit, a to-be-processed examination order selection unit and an examination order interface file generation unit, wherein:

the doctor client is used for issuing a checklist and storing the checklist into a to-be-processed checklist list of a worklist server, wherein the checklist at least comprises a checklist ID, an examination part and an examination mode;

the worklist client starting unit is used for starting a worklist client corresponding to the worklist client during checking so that the checking list querying unit sends a worklist querying request to the worklist server;

the worklist query request processing unit is used for returning a corresponding check list to the worklist client according to the worklist query request;

the inspection list display unit to be processed is used for receiving and displaying the inspection list;

the inspection list selection unit to be processed is used for selecting a corresponding inspection list from the inspection list and sending the inspection list ID of the inspection list to the worklist server;

the inspection list record processing unit is used for moving the inspection list record from the list of the inspection lists to be processed to the list of processed inspection lists according to the ID of the inspection list;

the inspection list interface file generating unit is also used for writing the currently selected inspection list into the inspection list interface file and finishing the operation after the writing is finished;

and the monitoring and control unit is used for reading the inspection list from the inspection list interface file after the fact that the worklist client ends to operate is monitored, and executing corresponding inspection according to an inspection part and an inspection mode in the inspection list.

In the system for automatically acquiring examination data by remotely controlling an ophthalmic apparatus according to an embodiment of the present invention, the worklist server further includes:

the configuration unit is used for setting a configuration file of the ophthalmic device in the worklist server in advance, wherein the configuration file of the ophthalmic device comprises an AET identifier, a device type, an address, a DICOM file receiving port number, an inspection part and an inspection mode of the ophthalmic device.

In the system for automatically acquiring examination data by remotely controlling an ophthalmic apparatus according to an embodiment of the present invention, the doctor client includes:

the device type query unit is used for sending a device type query request to the worklist server, so that the worklist server returns a corresponding ophthalmological device type list to the doctor client according to the device type query request;

an AET identifier list query unit, configured to select a certain type of device from the ophthalmic device type list, and query and display an AET identifier list of all ophthalmic devices included in the currently selected device type from the worklist server according to the currently selected device type;

an examination item acquisition unit, configured to select a certain ophthalmic apparatus from the AET identifier list, and query and display all examination site lists and examination mode lists included in the ophthalmic apparatus from the worklist server through the doctor client;

and the examination list generating unit is used for checking the examination part and the examination mode in the examination part list and the examination mode list to generate an examination list and storing the examination list into a to-be-processed examination list of the worklist server.

In the system for automatically acquiring the examination data by remotely controlling the ophthalmic apparatus according to the embodiment of the present invention,

the worklist client starting unit is specifically used for starting a corresponding worklist client during ophthalmic device examination, so that an examination list query unit of the worklist client sends a DIMSE _ C _ FIND _ RQ message to the worklist server;

the worklist query request processing unit is specifically configured to, after monitoring the DIMSE _ C _ FIND _ RQ message, parse out a patient ID and an AET identifier carried in the DIMSE _ C _ FIND _ RQ message, and combine the patient ID and the AET identifier into an SQL statement to query a checklist set satisfying a condition from the checklist list to be processed; packaging each checking list information in the checking list set into a DICOM message data set, and sending each DICOM message data set to the worklist client through a C-FIND-RSP message in sequence;

the to-be-processed checklist display unit is specifically configured to parse out a DICOM message dataset carried in the C-FIND-RSP message after receiving the C-FIND-RSP message, insert a checklist ID encapsulated in the DICOM message dataset into a checklist list for display, and store a check part and a check mode in a hash table.

In the system for automatically acquiring the examination data by remotely controlling the ophthalmic apparatus according to the embodiment of the present invention,

the inspection list selection unit to be processed is specifically configured to select a certain inspection list from the inspection list according to an operation instruction input by a user, package an inspection list ID of the inspection list as an MPPS message, and send the MPPS message to the worklist server;

the checking order record processing unit is specifically configured to receive and analyze the MPPS message to obtain a checking order ID carried in the MPPS message, then construct the checking order ID into an SQL statement, query a checking order record corresponding to the checking order ID from the to-be-processed checking order list, and move the checking order record from the to-be-processed checking list to a processed checking order list.

The method and the system for remotely controlling the ophthalmic equipment to automatically acquire the inspection data have the following beneficial effects that:

the configuration file of the ophthalmic equipment is stored in a worklist server in advance, then the configuration file of the ophthalmic equipment in the worklist server is inquired by a doctor client during order opening, an examination order is made according to the configuration file of the ophthalmic equipment, the made examination order is stored in a list of examination orders to be processed of the worklist server, the corresponding worklist client is automatically started to read a corresponding list of examination orders from the list of examination orders to be processed of the worklist server during examination of the ophthalmic equipment, the doctor selects the examination orders to be processed in the list of examination orders and sends the selected examination order ID to the worklist server, the worklist server moves the examination order record corresponding to the examination order ID from the list of examination orders to be processed to the list of examination orders, and the work list client writes the selected examination orders into an interface file of the examination orders and then stops running, after monitoring that the worklist client stops running, the ophthalmological equipment reads the examination list information in the examination list interface file and executes corresponding examination according to the examination list information, so that paperless office work of ophthalmology is realized, the examination efficiency of the ophthalmological equipment is improved, and the condition of missed examination or false examination caused by human factors can be avoided.

Drawings

Fig. 1 is a flowchart illustrating an implementation of a method for automatically acquiring inspection data by remotely controlling an ophthalmic apparatus according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating an implementation of S101 in a method for automatically acquiring inspection data by remotely controlling an ophthalmic apparatus according to an embodiment of the present invention;

fig. 3 is a flowchart illustrating an implementation of S102 in the method for automatically acquiring inspection data by remotely controlling an ophthalmic apparatus according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a system for automatically acquiring examination data by remotely controlling an ophthalmic apparatus according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 shows a flow chart of an implementation of a method for automatically acquiring inspection data by remotely controlling an ophthalmic apparatus according to an embodiment of the present invention. Referring to fig. 1, an embodiment of the present invention provides a method for automatically acquiring inspection data by remotely controlling an ophthalmic apparatus, including:

in S101, a doctor client is adopted to open an examination order, and the examination order is stored in a to-be-processed examination order list of a worklist server, wherein the examination order at least comprises an examination order ID, an examination part and an examination mode.

Further, in the embodiment of the present invention, step S101 further includes, before: setting a configuration file of the ophthalmic device in the worklist server in advance, wherein the configuration file of the ophthalmic device comprises an AET identifier, a device type, an address, a DICOM file receiving port number, an inspection part and an inspection mode of the ophthalmic device. Fig. 2 shows a specific implementation flow of S101, and referring to fig. 2, the implementation flow of S101 is detailed as follows:

in S201, the doctor client sends an equipment type query request to the worklist server, so that the worklist server returns a corresponding ophthalmic equipment type list to the doctor client according to the equipment type query request;

in S202, a certain type of device is selected from the ophthalmic device type list, and an AET identifier list of all ophthalmic devices included in the currently selected device type is queried and displayed from the worklist server through the doctor client;

in S203, a certain ophthalmic device is selected from the AET identifier list, and all examination site lists and examination mode lists contained in the ophthalmic device are queried and displayed from the worklist server through the doctor client;

in S204, checking a checking part and a checking mode in the checking part list and the checking mode list to generate a checking list, and storing the checking list in a to-be-processed checking list of the worklist server.

In S102, when the ophthalmic device is checked, starting a corresponding worklist client, so that the worklist client sends a worklist query request to the worklist server, and the worklist server returns a corresponding check list to the worklist client according to the worklist query request.

As a specific implementation example, fig. 3 shows a specific implementation flow of S102, and referring to fig. 3, the implementation flow of S102 is detailed as follows:

in S301, starting a corresponding worklist client during an ophthalmic device examination, so that the worklist client sends a DIMSE _ C _ FIND _ RQ message to the worklist server;

in S302, after monitoring the DIMSE _ C _ FIND _ RQ message, the worklist server parses a patient ID and an AET identifier carried in the DIMSE _ C _ FIND _ RQ message, and combines the patient ID and the AET identifier into an SQL statement to query a checklist set satisfying a condition from the to-be-processed checklist list;

in S303, the worklist server encapsulates each checklist information in the checklist set in turn into a DICOM message dataset, and sends each DICOM message dataset back to the worklist client through a C-FIND-RSP message in turn;

in S304, after receiving the C-FIND-RSP message, the worklist client parses a DICOM message dataset carried in the C-FIND-RSP message, inserts a checklist ID encapsulated in the DICOM message dataset into a checklist list for display, and stores the check part and the check pattern in a hash table.

In the embodiment of the invention, the DIMSE _ C _ FIND _ RQ message and the C-FIND-RSP message are both in a standard message format in the DICOM communication protocol, wherein the DIMSE-C-FIND-RQ message is used for querying the worklist from the worklist server.

In S103, the worklist client displays the checklist list, selects a corresponding checklist from the checklist list, and sends the checklist ID of the checklist to the worklist server, so that the worklist server moves the checklist record from the to-be-processed checklist list to the processed checklist list according to the checklist ID.

In the embodiment of the present invention, step S103 specifically includes: the worklist client selects a certain checking order from the checking order list according to an operation instruction input by a user, packages the checking order ID of the checking order into an MPPS message and sends the MPPS message to the worklist server; and the worklist server receives and analyzes the MPPS message to obtain a checking list ID carried in the MPPS message, then the checking list ID is constructed into an SQL statement, a checking list record corresponding to the checking list ID is inquired from the checking list to be processed, and the checking list record is moved from the checking list to be processed to the processed checking list.

In S104, the worklist client writes the currently selected checklist into a checklist interface file, and ends the operation after the writing is completed, so that the ophthalmic apparatus reads the checklist from the checklist interface file after monitoring that the worklist client ends the operation, and executes a corresponding inspection according to an inspection part and an inspection mode in the checklist.

In the embodiment of the invention, the worklist client can operate independently, and the interaction between the worklist client and the ophthalmic equipment is realized through the examination order interface file, so that ophthalmic equipment manufacturers do not need to care about DICOM related technologies (the DICOM technologies are difficult to understand and realize and manufacturers mastering the DICOM technologies are few), and the upgrading difficulty of the ophthalmic equipment manufacturers is effectively reduced.

As can be seen from the above, in the method for remotely controlling ophthalmic apparatus to automatically acquire inspection data provided in the embodiment of the present invention, since the configuration file of the ophthalmic apparatus is stored in the worklist server in advance, then the configuration file of the ophthalmic apparatus in the worklist server is queried by using the doctor client when an order is issued, an inspection sheet is issued according to the configuration file of the ophthalmic apparatus, and the issued inspection sheet is stored in the list of inspection sheets to be processed of the worklist server, when the ophthalmic apparatus is inspected, the corresponding worklist client is automatically started to read a corresponding inspection sheet list from the list of inspection sheets to be processed of the worklist server, the doctor selects an inspection sheet to be processed in the list of inspection sheets and sends the selected inspection sheet ID to the worklist server, so that the worklist server moves the inspection sheet record corresponding to the inspection sheet ID from the list to be processed to the list, and simultaneously, the work list client writes the selected examination list into an examination list interface file and then stops operating, so that the ophthalmic equipment reads examination list information in the examination list interface file after monitoring that the work list client stops operating, and executes corresponding examination according to the examination list information, thereby realizing paperless office in ophthalmology, improving the examination efficiency of the ophthalmic equipment, and avoiding the condition of missed examination or false examination caused by human factors.

Fig. 4 is a schematic structural diagram of a system for remotely controlling an ophthalmic apparatus to automatically acquire inspection data according to an embodiment of the present invention, which is used for operating the method according to the embodiment shown in fig. 1 to 3. Only portions related to the embodiments of the present invention are shown for convenience of explanation.

Referring to fig. 4, a system for remotely controlling an ophthalmic device to automatically acquire examination data according to an embodiment of the present invention includes a doctor client 1, a worklist server 2, an ophthalmic device 4, and a worklist client 3, where the worklist server 2 is in communication connection with the doctor client 1 and the worklist client 3, respectively, and the worklist client 3 is also in communication connection with the ophthalmic device 4; the ophthalmic apparatus 4 includes a worklist client starting unit 41 and a monitoring and control unit 42, the worklist server 2 includes a worklist query request processing unit 22 and a checklist record processing unit 23, the worklist client 3 includes a checklist list querying unit 31, a to-be-processed checklist display unit 32, a to-be-processed checklist selecting unit 33 and a checklist interface file generating unit 34, where:

the doctor client 1 is used for issuing a checklist and storing the checklist into a to-be-processed checklist list of the worklist server 2, wherein the checklist at least comprises a checklist ID, an examination part and an examination mode;

the worklist client starting unit 41 is configured to start the worklist client 3 corresponding to the worklist client during checking, so that the checklist list querying unit 31 sends a worklist query request to the worklist server 2;

the worklist query request processing unit 22 is configured to return a corresponding checklist list to the worklist client 3 according to the worklist query request;

the to-be-processed checklist display unit 32 is configured to receive and display the checklist list;

the to-be-processed checklist selecting unit 33 is configured to select a corresponding checklist from the checklist list, and send a checklist ID of the checklist to the worklist server 2;

the checklist record processing unit 23 is configured to move the checklist record from the to-be-processed checklist list to a processed checklist list according to the checklist ID;

the inspection list interface file generating unit 34 is further configured to write the currently selected inspection list into the inspection list interface file, and end the operation after the writing is completed;

and the monitoring and control unit 42 is configured to read the checklist from the checklist interface file after it is monitored that the worklist client 3 ends operating, and execute a corresponding check according to a check part and a check mode in the checklist.

Optionally, the worklist server 2 further includes:

a configuration unit 21, configured to set a configuration file of the ophthalmic apparatus 4 in the worklist server 2 in advance, where the configuration file of the ophthalmic apparatus 4 includes an AET identifier, an apparatus type, an address, a DICOM file receiving port number, an inspection site, and an inspection mode of the ophthalmic apparatus 4.

Optionally, the doctor client 1 includes:

an apparatus type query unit 11, configured to send an apparatus type query request to the worklist server 2, so that the worklist server 2 returns a corresponding ophthalmic apparatus 4 type list to the doctor client 1 according to the apparatus type query request;

an AET identifier list query unit 12, configured to select a certain type of device from the ophthalmic device 4 type list, and query and display an AET identifier list of all ophthalmic devices 4 included in the currently selected device type from the worklist server 2 according to the currently selected device type;

an examination item acquisition unit 13, configured to select a certain ophthalmic apparatus 4 from the AET identifier list, and query and display all examination site lists and examination mode lists included in the ophthalmic apparatus 4 from the worklist server 2 through the doctor client 1;

a checklist generating unit 14, configured to check the examination region and the examination mode in the examination region list and the examination mode list to generate a checklist, and store the checklist into a to-be-processed checklist list of the worklist server 2.

Optionally, the worklist client starting unit 41 is specifically configured to start the corresponding worklist client 3 when the ophthalmic apparatus 4 performs an examination, so that the examination list querying unit 31 of the worklist client 3 sends a DIMSE _ C _ FIND _ RQ message to the worklist server 2;

the worklist query request processing unit 22 is specifically configured to, after monitoring the DIMSE _ C _ FIND _ RQ message, parse out a patient ID and an AET identifier carried in the DIMSE _ C _ FIND _ RQ message, and combine the patient ID and the AET identifier into an SQL statement to query a checklist set satisfying a condition from the checklist list to be processed; packaging each checking list information in the checking list set into a DICOM message data set, and sending each DICOM message data set back to the worklist client 3 through a C-FIND-RSP message in sequence;

the to-be-processed checklist displaying unit 32 is specifically configured to parse the DICOM message dataset carried in the C-FIND-RSP message after receiving the C-FIND-RSP message, insert the checklist ID encapsulated in the DICOM message dataset into a checklist list for displaying, and store the check part and the check mode in a hash table.

Optionally, the to-be-processed checklist selecting unit 33 is specifically configured to select a checklist from the checklist list according to an operation instruction input by a user, package a checklist ID of the checklist as an MPPS message, and send the MPPS message to the worklist server 2;

the checking order record processing unit 23 is specifically configured to receive and analyze the MPPS message to obtain a checking order ID carried in the MPPS message, then construct the checking order ID into an SQL statement, query a checking order record corresponding to the checking order ID from the to-be-processed checking order list, and move the checking order record from the to-be-processed checking list to the processed checking order list.

It should be noted that, since each module in the system provided in the embodiment of the present invention is based on the same concept as that of the embodiment of the method of the present invention, the technical effect brought by the embodiment of the method of the present invention is the same as that of the embodiment of the method of the present invention, and specific contents may be referred to the description in the embodiment of the method of the present invention, and are not described herein again.

Therefore, it can be seen that in the system for remotely controlling the ophthalmic apparatus 4 to automatically acquire the inspection data provided in the embodiment of the present invention, similarly, as the configuration file of the ophthalmic apparatus 4 is stored in the worklist server 2 in advance, then the configuration file of the ophthalmic apparatus 4 in the worklist server 2 is queried by using the doctor client 1 when the order is opened, the checklist is opened according to the configuration file of the ophthalmic apparatus 4, and the opened checklist is stored in the to-be-processed checklist list of the worklist server 2, when the ophthalmic apparatus 4 performs the inspection, the corresponding worklist client 3 is automatically started to read the corresponding checklist list from the to-be-processed checklist list of the worklist server 2, the doctor selects the to-be-processed checklist from the checklist list and sends the selected checklist ID to the worklist server 2, so that the worklist server 2 moves the checklist record corresponding to the checklist ID from the to-be-processed checklist list, meanwhile, the work list client 3 writes the selected examination list into an examination list interface file and then stops operating, so that the ophthalmic device 4 reads examination list information in the examination list interface file after monitoring that the work list client 3 stops operating, and executes corresponding examination according to the examination list information, thereby realizing paperless office work for ophthalmology, improving the examination efficiency of the ophthalmic device 4, and avoiding the condition of missed examination or false examination caused by human factors.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A method of remotely controlling an ophthalmic device to automatically acquire examination data, comprising:

adopting a doctor client to open an inspection list, and storing the inspection list into a to-be-processed inspection list of a worklist server, wherein the inspection list at least comprises an inspection list ID, an inspection part and an inspection mode;

starting a corresponding worklist client when ophthalmic equipment is checked, so that the worklist client sends a worklist query request to a worklist server, and the worklist server returns a corresponding check list to the worklist client according to the worklist query request;

the worklist client displays the checklist list, selects a corresponding checklist from the checklist list, and sends the checklist ID of the checklist to the worklist server, so that the worklist server moves the checklist record from the to-be-processed checklist list to the processed checklist list according to the checklist ID;

the worklist client writes the currently selected examination order into an examination order interface file, and finishes the operation after the writing is finished, so that the ophthalmic equipment reads the examination order from the examination order interface file after monitoring that the worklist client finishes the operation, and executes corresponding examination according to an examination part and an examination mode in the examination order;

the worklist client operates independently.

2. The method for automatically acquiring examination data by a remotely controlled ophthalmic device of claim 1, wherein prior to said preparing an examination order with a doctor client and storing said examination order in a list of pending examination orders in a worklist server, further comprises:

setting a configuration file of the ophthalmic device in the worklist server in advance, wherein the configuration file of the ophthalmic device comprises an AET identifier, a device type, an address, a DICOM file receiving port number, an inspection part and an inspection mode of the ophthalmic device.

3. The method for automatically acquiring examination data by remotely controlling an ophthalmic apparatus according to claim 2, wherein the step of issuing an examination order by a doctor client and storing the examination order in a to-be-processed examination order list of a worklist server specifically comprises:

the doctor client sends an equipment type query request to the worklist server, so that the worklist server returns a corresponding ophthalmic equipment type list to the doctor client according to the equipment type query request;

selecting a certain type of equipment in the ophthalmic equipment type list, and inquiring and displaying AET identification lists of all ophthalmic equipment contained in the currently selected equipment type from the worklist server through the doctor client;

selecting a certain ophthalmic device from the AET identification list, and inquiring and displaying all examination part lists and examination mode lists contained in the ophthalmic device from the worklist server through the doctor client;

checking the inspection part and the inspection mode in the inspection part list and the inspection mode list to generate an inspection list, and storing the inspection list into a to-be-processed inspection list of the worklist server.

4. The method for automatically acquiring examination data by remotely controlling an ophthalmic device according to claim 1, wherein starting a corresponding worklist client during examination of the ophthalmic device to enable the worklist client to send a worklist query request to the worklist server, and the returning of a corresponding examination order list to the worklist client by the worklist server according to the worklist query request specifically comprises:

starting a corresponding worklist client when the ophthalmic equipment is checked, and enabling the worklist client to send a DIMSE _ C _ FIND _ RQ message to the worklist server;

after monitoring the DIMSE _ C _ FIND _ RQ message, the worklist server analyzes a patient ID and an AET identifier carried in the DIMSE _ C _ FIND _ RQ message, and combines the patient ID and the AET identifier into an SQL statement to inquire a checklist set meeting conditions from the to-be-processed checklist list;

the worklist server encapsulates each checking list information in the checking list set into a DICOM message data set, and sends each DICOM message data set to the worklist client through C-FIND-RSP messages in sequence;

after the worklist client receives the C-FIND-RSP message, a DICOM message data set carried in the C-FIND-RSP message is analyzed, a checking list ID packaged in the DICOM message data set is inserted into a checking list to be displayed, and a checking part and a checking mode are stored in a hash table.

5. The method for automatically acquiring examination data by remotely controlling an ophthalmic apparatus according to claim 1, wherein the work list client selects a certain examination order from the examination order list according to an operation instruction input by a user, and sends an examination order ID of the examination order to the work list server, so that the work list server moves the examination order record from the to-be-processed examination order list to a processed examination order list according to the examination order ID specifically comprises:

the worklist client selects a certain checking order from the checking order list according to an operation instruction input by a user, packages the checking order ID of the checking order into an MPPS message and sends the MPPS message to the worklist server; and the worklist server receives and analyzes the MPPS message to obtain a checking list ID carried in the MPPS message, then the checking list ID is constructed into an SQL statement, a checking list record corresponding to the checking list ID is inquired from the checking list to be processed, and the checking list record is moved from the checking list to be processed to the processed checking list.

6. A system for remotely controlling ophthalmic equipment to automatically acquire examination data is characterized by comprising a doctor client, a worklist server, ophthalmic equipment and a worklist client, wherein the worklist server is in communication connection with the doctor client and the worklist client respectively, and the worklist client is also in communication connection with the ophthalmic equipment; the ophthalmic device comprises a worklist client starting unit and a monitoring and control unit, the worklist server comprises a worklist query request processing unit and an examination order record processing unit, the worklist client comprises an examination order list query unit, a to-be-processed examination order display unit, a to-be-processed examination order selection unit and an examination order interface file generation unit, and the worklist client starting unit comprises a worklist query unit, a to-be-processed examination order display unit, a to-be-processed examination order selection unit and an examination order interface file generation unit, wherein:

the doctor client is used for issuing a checklist and storing the checklist into a to-be-processed checklist list of a worklist server, wherein the checklist at least comprises a checklist ID, an examination part and an examination mode;

the worklist client starting unit is used for starting a worklist client corresponding to the worklist client during checking so that the checking list querying unit sends a worklist querying request to the worklist server;

the worklist query request processing unit is used for returning a corresponding check list to the worklist client according to the worklist query request;

the inspection list display unit to be processed is used for receiving and displaying the inspection list;

the inspection list selection unit to be processed is used for selecting a corresponding inspection list from the inspection list and sending the inspection list ID of the inspection list to the worklist server;

the inspection list record processing unit is used for moving the inspection list record from the list of the inspection lists to be processed to the list of processed inspection lists according to the ID of the inspection list;

the inspection list interface file generating unit is also used for writing the currently selected inspection list into the inspection list interface file and finishing the operation after the writing is finished;

and the monitoring and control unit is used for reading the inspection list from the inspection list interface file after the fact that the worklist client ends to operate is monitored, and executing corresponding inspection according to an inspection part and an inspection mode in the inspection list.

7. The system for automatically acquiring examination data by remotely controlling an ophthalmic apparatus according to claim 6, wherein the worklist server further comprises:

the configuration unit is used for setting a configuration file of the ophthalmic device in the worklist server in advance, wherein the configuration file of the ophthalmic device comprises an AET identifier, a device type, an address, a DICOM file receiving port number, an inspection part and an inspection mode of the ophthalmic device.

8. The system for automatically acquiring examination data of a remotely controlled ophthalmic device of claim 7, wherein the doctor client comprises:

the device type query unit is used for sending a device type query request to the worklist server, so that the worklist server returns a corresponding ophthalmological device type list to the doctor client according to the device type query request;

an AET identifier list query unit, configured to select a certain type of device from the ophthalmic device type list, and query and display an AET identifier list of all ophthalmic devices included in the currently selected device type from the worklist server according to the currently selected device type;

an examination item acquisition unit, configured to select a certain ophthalmic apparatus from the AET identifier list, and query and display all examination site lists and examination mode lists included in the ophthalmic apparatus from the worklist server through the doctor client;

and the examination list generating unit is used for checking the examination part and the examination mode in the examination part list and the examination mode list to generate an examination list and storing the examination list into a to-be-processed examination list of the worklist server.

9. The system for automatically acquiring examination data of a remotely controlled ophthalmic device of claim 6, wherein:

the worklist client starting unit is specifically used for starting a corresponding worklist client during ophthalmic device examination, so that an examination list query unit of the worklist client sends a DIMSE _ C _ FIND _ RQ message to the worklist server;

the worklist query request processing unit is specifically configured to, after monitoring the DIMSE _ C _ FIND _ RQ message, parse out a patient ID and an AET identifier carried in the DIMSE _ C _ FIND _ RQ message, and combine the patient ID and the AET identifier into an SQL statement to query a checklist set satisfying a condition from the checklist list to be processed; packaging each checking list information in the checking list set into a DICOM message data set, and sending each DICOM message data set to the worklist client through a C-FIND-RSP message in sequence;

the to-be-processed checklist display unit is specifically configured to parse out a DICOM message dataset carried in the C-FIND-RSP message after receiving the C-FIND-RSP message, insert a checklist ID encapsulated in the DICOM message dataset into a checklist list for display, and store a check part and a check mode in a hash table.

10. The system for automatically acquiring examination data of a remotely controlled ophthalmic device of claim 6, wherein:

the inspection list selection unit to be processed is specifically configured to select a certain inspection list from the inspection list according to an operation instruction input by a user, package an inspection list ID of the inspection list as an MPPS message, and send the MPPS message to the worklist server;

the checking order record processing unit is specifically configured to receive and analyze the MPPS message to obtain a checking order ID carried in the MPPS message, then construct the checking order ID into an SQL statement, query a checking order record corresponding to the checking order ID from the to-be-processed checking order list, and move the checking order record from the to-be-processed checking list to a processed checking order list.