阅读说明：本技术 检查管理装置 (Inspection management device ) 是由 永田卓志 秋山一弘 馆下功 三津桥桂 于 2019-04-12 设计创作，主要内容包括：连接检测部(13)检测连接有能够记录胶囊内窥镜拍摄到的图像数据组的接收装置的情况。提供部(14)在规定的时机对被检测到连接的多个接收装置(4a)、(4b)、(4c)的全体提供相同的被检者信息。(A connection detection unit (13) detects that a receiving device capable of recording an image data set captured by the capsule endoscope is connected. A providing unit (14) provides the same subject information to all of the plurality of receiving devices (4a), (4b), and (4c) for which connection has been detected at a predetermined timing.)

1. An inspection management device, comprising:

a connection detection unit that detects connection of a receiving device capable of recording an image data set captured by the capsule endoscope; and

and a providing unit that provides the same subject information to all of the plurality of receiving apparatuses to which connection has been detected at a predetermined timing.

2. The examination management apparatus according to claim 1,

the providing unit provides a plurality of subject information to the entire plurality of receiving apparatuses.

3. The examination management apparatus according to claim 1,

the inspection management device further includes a status management unit that manages the status of the inspection command,

the providing unit provides subject information included in the following examination command to the whole of the plurality of receiving apparatuses: the check command is set to an unchecked state.

4. The inspection management device according to claim 3,

the examination management apparatus further includes an image data acquisition unit that acquires the image data group recorded by the receiving apparatus,

when the acquisition by the image data acquisition unit is completed, the state management unit changes the state of the inspection command from non-inspection to inspection completion.

Technical Field

The present invention relates to a technique for providing subject information to a receiving apparatus of image data.

Background

Patent document 1 discloses a system including a receiving device that receives an image signal wirelessly transmitted by a capsule endoscope and a workstation. In the system described in patent document 1, before the start of the examination, a receiving device is connected to a workstation, and examination information and subject information are transmitted from the workstation. Thereafter, the receiving device was removed from the workstation, attached to the subject, and an examination was performed in which about 8 hours of in-vivo images transmitted from the capsule endoscope that was swallowed were recorded. After the examination by the capsule endoscope is completed, the receiving apparatus is detached from the subject and connected to the workstation again, and the received in-vivo image is transmitted to the workstation in association with the examination ID.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open publication No. 2009-61123

Disclosure of Invention

Problems to be solved by the invention

In a conventional capsule endoscope system, a nurse operates a workstation and transmits examination information and subject information to a receiving apparatus before an examination. When a plurality of capsule endoscopy examinations are scheduled within 1 day, a nurse transmits the assigned examination information and subject information from the workstation to the plurality of receiving devices, and the assigned examination information and subject information are recorded in the receiving devices. Then, when the nurse wears the receiving apparatus on the subject, the examination information and the subject information recorded in each receiving apparatus are displayed and confirmed to prevent the wrong taking. In this way, the nurse needs to transmit and confirm the examination information and the subject information for the number of times of the number of receiving devices used for the examination, and it takes time.

The present invention has been made in view of such circumstances, and an object thereof is to realize a technique for efficiently providing subject information to a receiving apparatus.

Means for solving the problems

In order to solve the above problem, an inspection management device according to an aspect of the present invention includes: a connection detection unit that detects connection of a receiving device capable of recording an image data set captured by the capsule endoscope; and a providing unit that provides the same subject information to the plurality of receiving apparatuses detected to be connected at a predetermined timing.

In addition, any combination of the above-described constituent elements and an embodiment of the present invention in which the expression form of the present invention is changed among a method, an apparatus, a system, a recording medium, a computer program, and the like are also effective as an embodiment of the present invention.

Drawings

Fig. 1 is a diagram for explaining an outline of a capsule endoscope system according to an embodiment.

Fig. 2 is a diagram showing functional blocks of the inspection management apparatus.

Fig. 3 is a diagram showing an example of a status management table of the check command.

Fig. 4 is a diagram showing the record contents of the state management table after the change.

Fig. 5 is a diagram showing a state in which another receiving apparatus is connected to the inspection management apparatus.

Fig. 6 is a diagram showing a state in which another receiving apparatus is connected to the inspection management apparatus.

Fig. 7 is a diagram showing the record contents of the state management table after the change.

Detailed Description

Fig. 1 is a diagram for explaining an outline of a capsule endoscope system according to an embodiment. The capsule endoscope system 1 includes: a receiving device 4 capable of recording an image data set captured by the capsule endoscope 3; an examination management device 10 that manages capsule endoscopy; and a cradle 5 connected to the inspection management device 10 so as to be able to transfer data. The rack 5 is connected to the inspection management device 10 via a data transmission cable. The receiving device 4 includes a display for displaying information and an input unit for operating displayed items. The input unit may be a button or the like, but the display may be configured as a touch panel. The receiving device 4 is charged by being inserted into the cradle 5, and is connected to the inspection management device 10 via the cradle 5.

In the capsule endoscopy, a subject (patient) sticks a plurality of receiving antennas (not shown) to the abdomen, and swallows the capsule endoscope 3 from the mouth with the receiving apparatus 4 attached to the waist with a belt. The capsule endoscope 3 includes: an image pickup unit as a subminiature camera; an illumination unit for illuminating the inside of the body of the subject; a signal processing unit for performing A/D conversion on the image pickup signal outputted from the image pickup unit to generate image data to which an image ID and photographing time information are added; a memory for temporarily storing image data; a communication module that transmits the image data stored in the memory; and a battery for supplying power to each unit. The image ID is information for identifying an image, and may be information to which a serial number indicating a shooting order is added. The capsule endoscope 3 periodically captures still images while moving in the digestive tract, and transmits image data to the receiving device 4 via an antenna.

The receiving device 4 incorporates a recording medium, and the receiving device 4 records the image data received by each receiving antenna on the recording medium. When the capsule endoscope 3 photographs the inside of the body every 0.5 second, about 6 ten thousand pieces of image data are recorded in the recording medium when the photographing of the inside of the body is completed within about 8 hours.

When the in-vivo imaging is completed, the antenna and the receiving device 4 are collected from the subject. When the nurse inserts the receiving apparatus 4 into the cradle 5, the data terminal of the receiving apparatus 4 is connected to the connector of the cradle 5, and about 6 ten thousand pieces of image data recorded in the recording medium are transferred to the examination management apparatus 10.

The examination management apparatus 10 is realized by a workstation, and manages examination commands and records image data captured by the capsule endoscope 3. Before the start of the examination, 1 examination order is assigned to the receiving apparatus 4, and after the end of the examination, the receiving apparatus 4 transmits the image data to the examination management apparatus 10 in correspondence with the information for specifying the examination order. Thus, the examination management apparatus 10 records the image data captured during the capsule endoscopy in association with the information (examination ID) for identifying the examination. In addition, the information for specifying the examination command is typically an examination ID, but may be information for identifying the subject (subject ID).

Fig. 2 shows functional blocks of the examination management apparatus 10. The inspection management device 10 is connected to the plurality of racks 5, and includes an inspection command generation unit 11, a state management unit 12, a connection detection unit 13, a supply unit 14, an image data acquisition unit 15, and a recording device 16. In the example shown in fig. 2, 3 racks 5a, 5b, and 5c are connected to the inspection management device 10, but the number of racks 5 connected is not limited to 3.

The configuration of the inspection management device 10 can be realized by an arbitrary processor, memory, or other LSI in terms of hardware, and by a program or the like loaded in the memory in terms of software, but functional blocks realized by cooperation of these are depicted here. Accordingly, those skilled in the art will appreciate that these functional blocks can be implemented in various forms by hardware only, software only, or a combination thereof.

The examination command generation unit 11 generates an examination command for capsule endoscopy. The examination order generation unit 11 can generate an examination order by inputting information necessary for a predetermined input format by the doctor. The information of the examination command (command information) includes at least an examination ID and information related to the subject (subject information). The subject information may include a subject ID, name, sex, age, contraindication information, and the like. The order information may also contain a check date. In the capsule endoscope system 1, an examination order may be generated by a Hospital Information System (HIS) and supplied to the examination management apparatus 10.

The status management unit 12 manages the status of the check command.

Fig. 3 shows an example of a status management table of the check command. The state management table records the relationship of the check ID and the state. The status management unit 12 manages the statuses of a plurality of inspection commands by means of a status management table. When the check command is generated by the check command generating section 11, the status managing section 12 newly registers the check ID of the check command in the status management table, and sets the status of the check command as "unchecked". The "not-checked" state indicates that the image data group has not been recorded in the recording device 16.

When the capsule endoscopy is completed, the receiving apparatus 4 in which the image data is recorded is removed from the subject and inserted into the holder 5. The connection detecting unit 13 constantly monitors the connection state of the cradle 5, and detects that the receiving device 4 is connected when the receiving device 4 is inserted into the cradle 5 and the terminals of the receiving device 4 come into contact with the connector of the cradle 5.

At this time, the image data acquisition unit 15 inquires of the receiving device 4 whether or not there is an image data set recorded in the capsule endoscopy. If an image data group exists, the image data acquisition unit 15 acquires information for specifying the inspection command assigned to the receiving device 4 and the image data group, and records the information and the image data group in the recording device 16. When the acquisition of the image data group by the image data acquisition unit 15 is completed, the status management unit 12 changes the status of the inspection command from "not inspected" to "inspected". The state of "inspection completion" indicates that the image data group is recorded in the recording device 16.

Before the examination starts, 1 examination order is assigned to the receiving means 4. Conventionally, a nurse operates the examination management apparatus and manually assigns 1 examination order to 1 receiving apparatus 4, but in the embodiment, the examination management apparatus 10 automatically provides the receiving apparatus 4 with information on all examination orders whose status is "not examined". Therefore, if there are a plurality of "unchecked" check commands, information relating to the plurality of check commands is provided to the reception apparatus 4. When the receiving apparatus 4 is attached to the subject, the nurse displays information related to a plurality of examination orders on the display of the receiving apparatus 4, and selects information related to an examination order to be executed next. The information displayed on the display includes subject information, and the nurse selects information indicating a subject wearing the receiving apparatus 4 from among a plurality of pieces of subject information included in the subject selection screen, and assigns 1 examination order to the receiving apparatus 4. In this way, since the examination command is assigned to the receiving apparatus 4 when the nurse attaches the receiving apparatus 4 to the subject, the receiving apparatus 4 is not mistakenly taken.

The providing unit 14 provides the receiving apparatus 4, which has been detected to be connected by the connection detecting unit 13, with information relating to the "unchecked" check command. The information related to the examination command includes at least subject information for display on the subject selection screen. In addition, the information related to the inspection command preferably includes an inspection ID. The providing unit 14 provides the receiving apparatus 4 with information on the "unchecked" check command at a predetermined timing.

The state is assumed that the receiving apparatus 4a shown in fig. 2 is assigned with the check command of check ID "0001" and the check has been performed. At this time, the image data set captured by the capsule endoscope 3 is recorded in the receiving device 4 a. When the receiving device 4a is inserted into the cradle 5a, the connection detecting unit 13 detects that the receiving device 4a is connected, and the image data acquiring unit 15 inquires of the receiving device 4a whether or not there is a recorded image data set. When confirming that the image data set exists in the receiving apparatus 4a, the image data acquiring unit 15 transmits a transmission request to the receiving apparatus 4a to acquire the image data set.

When the acquisition of the image data group by the image data acquisition unit 15 is completed, the status management unit 12 changes the status of the inspection command from "not inspected" to "inspected".

Fig. 4 shows the record contents of the state management table after the change. The status management unit 12 changes the status of the check command for the check ID "0001" from "unchecked" to "check completed" and registers it. When the image data set is transmitted from the receiving apparatus 4a and the status of the inspection command is changed, the providing unit 14 provides information on the inspection command in which the status of "not inspected" is set to all the receiving apparatuses 4 whose connection is detected. Here, since only 1 receiving device 4a is connected, the providing unit 14 provides the receiving device 4a with information relating to the inspection command in which the inspection ID is "0002" and the inspection ID is "0003" in the state in which "no inspection" is set. Therefore, the receiving apparatus 4a registers information related to the inspection command having the inspection ID "0002" or "0003". In this way, the providing unit 14 can provide the connected receiving apparatus 4 with the information relating to the inspection command in which the "not-inspected" state is set, when the state management table is changed. The providing unit 14 automatically provides the information related to the examination order to the receiving apparatus 4, so that the nurse only needs to operate the examination management apparatus 10, and does not need to manually transmit the information related to the examination order to the receiving apparatus 4.

Fig. 5 shows a state in which another receiving apparatus 4b is connected to the inspection management apparatus 10. No image data record is recorded in the receiving device 4 b. When the receiving apparatus 4b is inserted into the cradle 5b, the connection detecting unit 13 detects that the receiving apparatus 4b is newly connected, and the image data acquiring unit 15 inquires of the receiving apparatus 4b whether or not the recorded image data set exists. When it is confirmed that the image data group does not exist in the receiving apparatus 4b, the image data obtaining unit 15 recognizes that the transfer of the image data from the receiving apparatus 4b is not necessary.

The providing unit 14 may provide information on an inspection command in which an "unchecked" state is set to all of the plurality of receiving apparatuses 4a and 4b that have detected connection when the receiving apparatus 4b is newly connected to the inspection management apparatus 10 and it is confirmed that image data transfer is not necessary. That is, the providing unit 14 provides the plurality of receiving devices 4a and 4b with the same information on the plurality of inspection commands at the same timing. In the receiving devices 4a, 4b, information related to a check command provided in the past is registered, and the information is overwritten with information related to a newly provided check command. Thus, the receiving apparatuses 4a and 4b register information on the inspection command having the inspection IDs "0002" and "0003".

Fig. 6 shows a state in which another receiving apparatus 4c is connected to the inspection management apparatus 10. The receiving apparatus 4c is assigned a check command with a check ID of "0003" and is set to be in a state in which the check has been executed. At this time, the image data set captured by the capsule endoscope 3 is recorded in the receiving device 4 c. When the receiving apparatus 4c is inserted into the cradle 5c, the connection detecting unit 13 detects that the receiving apparatus 4c is newly connected, and the image data acquiring unit 15 inquires of the receiving apparatus 4c whether or not the recorded image data set exists. When confirming that the image data set exists in the receiving apparatus 4c, the image data acquiring unit 15 transmits a transmission request to the receiving apparatus 4c to acquire the image data set.

When the acquisition of the image data group by the image data acquisition unit 15 is completed, the status management unit 12 changes the status of the inspection command from "not inspected" to "inspected".

Fig. 7 shows the record contents of the state management table after the change. The status management unit 12 changes the status of the check command having the check ID "0003" from "not checked" to "check completed" and registers the changed status. When the image data set is transmitted from the receiving apparatus 4c and the status of the inspection command is changed, the providing unit 14 provides information on the inspection command in which the status of "not inspected" is set to all the receiving apparatuses 4 whose connection is detected. Here, 3 receiving apparatuses 4a, 4b, and 4c are connected, and the providing unit 14 provides the receiving apparatuses 4a, 4b, and 4c with information relating to the inspection command having the inspection ID "0002" in which the "non-inspection" state is set. In the receiving devices 4a, 4b, 4c, information related to the check command provided in the past is registered, and the information is overwritten with the information related to the newly provided check command. Therefore, information on the check command having the check ID "0002" is registered in the receiving apparatuses 4a, 4b, 4 c.

As described above, the providing unit 14 provides the information related to the same inspection command to the whole of the plurality of providing units 14 whose connection is detected at a predetermined timing. There may be a plurality of occasions provided. As described above, 1 opportunity is when the content of the state management table is updated, and another 1 opportunity is when a new receiving apparatus 4 is connected and it is confirmed that the transfer of the image data is not necessary. The providing unit 14 may provide information related to the inspection command in which the "not-inspected" state is set to all the connected receiving apparatuses 4 at the timing when the user logs in to the inspection management apparatus 10, the predetermined operation is performed, the application is started, or the like.

The present invention has been described above based on examples. It should be understood by those skilled in the art that this embodiment is an example, various modifications are possible in combination of each constituent element and each process, and such modifications are also within the scope of the present invention.

Industrial applicability

The present invention can be used in the technical field of a receiving device using image data captured by a capsule endoscope.

Description of the reference symbols

A capsule endoscope system, 3 … capsule endoscope, 4a, 4b, 4c … receiving device, 5a, 5b, 5c … bracket, 10 … examination management device, 11 … examination command generation part, 12 … state management part, 13 … connection detection part, 14 … supply part, 15 … image data acquisition part, 16 … recording device.