JP2005013252A - Operating space image display system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an operating space image display system allowing a doctor performing the operation, etc. to observe a radiographic image in an operating room in a short period of time after photographing in the operating room to quicken the progress of the operation. <P>SOLUTION: The system comprises a radiographic image reading device disposed outside the operating room with a means of specifying the operating room, a network for connecting the reading device and each operating room, and an image display means connected to the network in the operating room. The reading device, after reading an radiographic image, transmits the image data on the read radiographic image to the specified operating room. When the image data on the radiographic image is supplied, the image display means displays the radiographic image as a main image. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention belongs to the technical field of a radiographic image display system in an operating room, and more particularly relates to an operating field image display system that allows a radiographic image taken in an operating room to be observed quickly in the operating room.
[0002]
[Prior art]
In order to perform various checks before surgery, during surgery, and after surgery, a radiograph such as an X-ray image of a patient is taken in an operating room and a surgeon observes the image.
Conventionally, radiographic images of patients are taken on so-called X-ray film, taken to a developing room outside the operating room, developed, taken to the operating room, and observed by a surgeon or the like. It was.
[0003]
On the other hand, in recent years, radiation images are displayed on a monitor arranged in an operating room using a so-called CR such as FCR (Fuji Computed Radiography) manufactured by Fuji Photo Film Co., Ltd. for observation by a surgeon or the like. An operating field image display system (hereinafter referred to as a display system) has been put into practical use.
[0004]
A conceptual diagram of an example of this display system is shown in FIG.
In this display system 100, when a radiographic image of a patient is photographed on an IP (Imaging Plate) accommodated in a cassette in any of the operating rooms 102, the cassette is taken to a predetermined place such as the preparation room 104, and the radiographic image reading is performed. A radiographic image captured by the IP is read by an apparatus 106 (hereinafter referred to as a reading apparatus 106). The read radiation image (its image data) is sent from the reading device 106 to a predetermined server 108 and stored.
On the other hand, in each operating room 102, an image search / display terminal 110 (hereinafter referred to as a terminal 110) connected to the server 108 is arranged. By operating this terminal 110, a radiographic image (image data) of a patient taken from the server 108 is read out and displayed, and a surgeon or the like observes and confirms the image.
[0005]
[Problems to be solved by the invention]
In the display system 100, such operations are basically performed by a radiologist. That is, the radiographer transports the cassette to the preparation room 104 after completing the imaging, loads the captured IP into the reading device 106, performs a predetermined operation for image reading and the like, and then returns to the operating room 102. Then, the terminal 110 is operated to search and read out the radiographic image taken from the server 108 and display the image.
[0006]
Naturally, surgeons and nurses involved in surgery cannot perform such operations. Therefore, in order for a surgeon or the like to observe the radiographic image taken during the operation, the radiographer who went to the preparation room 104 for reading the IP returns to the operating room 102 after the radiographing is completed, and the terminal 110 It is necessary to wait until the operation is performed and an image is displayed. In particular, if the operating room 102 is far from the installation position of the reading device 106 such as the preparation room 104, the waiting time becomes longer accordingly.
For this reason, in the conventional display system 10, it takes time from taking a radiographic image to observing it.
[0007]
In addition, since the terminal 110 normally uses a personal computer or the like, the monitor size is about 20 inches at most. Therefore, when observing a radiographic image, it is necessary for the surgeon to move to the vicinity of the terminal 110, and in this respect, it cannot be said that the efficiency is good.
[0008]
An object of the present invention is to solve the above-described problems of the prior art, and is an image display system capable of observing a radiographic image taken in an operating room in an operating room, and is extremely short after taking the radiographic image in the operating room. Surgery and nurses can observe radiographic images in the operating room, preferably without moving during the waiting time, so that the progress of the surgery can be accelerated, and the surgical field image display can be suitably used even in urgent surgery To provide a system.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, an operating field image display system according to the present invention includes a radiological image reading apparatus arranged outside an operating room and having operating room designating means, and a network connecting the reading apparatus and each operating room. The image display means connected to the network in the operating room, and the reading device transfers the image data of the read radiographic image to the operating room designated using the network after reading the radiographic image Then, the image display means provides an operating field image display system that displays the radiographic image as a main image when image data of the radiographic image is supplied from the network.
[0010]
In such an operating field image display system of the present invention, it is preferable that the image display means has a screen size that allows a surgeon to check an image without leaving the operating table, and the image display means serves as a moving base. Preferably, the image display means displays the new radiographic image as a main image when the image data of the new radiographic image is supplied, and the main image display means It is preferable to display a thumbnail image of the radiographic image displayed as an image at a predetermined position on the display screen, and when the thumbnail image is instructed, it is preferable to display the radiographic image as a main image. A server connected to the network for storing a number of medical images associated with the identification information; It is preferable to have means for retrieving and acquiring image data of a medical image and patient identification information corresponding to the medical image and displaying the image, and the reading device is further configured to input patient identification information. The image display means includes a patient identification information confirmation means, and the reading device transfers the input patient identification information together with image data of a radiographic image to the image display means. When the display means receives image data of a radiographic image that is different from the displayed radiographic image and patient identification information, it preferably outputs that fact.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the operating field image display system of the present invention will be described in detail based on a preferred embodiment shown in the accompanying drawings.
[0012]
In FIG. 1, the conceptual diagram of an example of the operating field image display system of this invention is shown.
An operating field image display system 10 (hereinafter referred to as a display system 10) shown in FIG. 1 is a system that captures a radiation image of a patient in an operating room and displays the image in the operating room. (12a, 12b...), An image display device 14 arranged in (12a, 12b...), A radiation image reading device 18 (hereinafter referred to as a reading device 18) arranged in a preparation room 16 provided outside the operating room 12, and all operations. And a network 20 that connects the chamber 12 and the reader 18.
In the illustrated example, as a preferred embodiment, a server 24 is connected to the network 20 constituting the display system 10 of the present invention.
[0013]
In the illustrated example, the network 20 is a well-known LAN (Local Area Network), for example, a PACS (Picture Archiving & Communication System medical image management / diagnosis system) that has been constructed in many hospitals in recent years. It is. In the present invention, the network 20 may be an independent network for connecting the reading device 18 and the operating room 12 (image display device 14) or only the server 24 for the display system 10 of the present invention. Good.
[0014]
The server 24 is a medical image (image data) taken or read by various modalities such as MRI, CT, mammography, CR (Computed Radiography) such as FCR (Fuji Computed Radiography) manufactured by Fuji Photo Film Co., Ltd. The database is stored in association with various information such as ID (patient identification information), imaging date and time, modality type, imaging site, imaging method, etc. It is a server to configure.
In addition, as a preferable mode, the server 24 stores not only medical images but also patient face photos in association with patient IDs in order to prevent patient misunderstandings. An image diagnosis report or the like may be stored.
[0015]
As described above, the image display device 14 is disposed in each operating room 12. Further, the operating room 12 is provided with radiographic imaging equipment, and the operating table 22 is an imaging base.
In the display system 10 of FIG. 1, each operating room 12 has the same configuration requirements with respect to the display system 10 of the present invention, such as an image display device 14, a radiographic image capturing unit, and a network 20 connection unit. However, it goes without saying that each operating room 12 may have different facilities for operations, treatments, examinations, etc. other than the display system 10. Furthermore, in a facility such as a hospital using the present invention, an operating room 12 having the display system 10 of the present invention and an operating room not having the display system 10 may coexist.
[0016]
The display system 10 in the illustrated example uses a CR such as an FCR, and a radiation image of a patient is photographed on a photographing medium called IP ((Imaging Plate) storage (stimulable) phosphor sheet). . The IP is a radiographic image capturing medium that accumulates irradiated radiation energy and generates stimulated emission light corresponding to the accumulated radiation energy when irradiated with excitation light.
The IP is housed in a light-shielding case called a cassette as in a normal X-ray film, and is loaded at a predetermined position on the operating table 22 (imaging table) according to the imaging region, and irradiated from an X-ray source (not shown). The irradiated X-rays are irradiated through the patient (subject), so that a radiation image of the patient is taken (accumulated and recorded).
[0017]
The image display device 14 is configured by using, for example, a personal computer (PC), and has a monitor 26 for displaying a radiographic image. The image display device 14 is connected to the network 20 by known means in the operating room 12. Connected.
[0018]
In the present invention, when a new radiation image (image data) is transferred from a reading device 18 described later, the image display device 14 stores the image in a hard disk (HD) or the like and automatically performs no operation. Therefore, this radiation image is displayed on the monitor 26 as a main image for observation by a surgeon or the like. At this time, if there is a main image that has been previously displayed, the thumbnail image is displayed at a predetermined position. When a thumbnail image is instructed, the instructed image is displayed as a main image, and if there is no thumbnail image of the main image displayed so far, it is generated and displayed at a predetermined position.
Further, the image display device 14 performs a search of the server 24 in response to an instruction input from a radiographer or the like, reads out the specified searched image, similarly stores it in the HD or the like, and displays it on the monitor 26. .
Further, the image display device 14 compares the patient IDs with the previously displayed radiographic image and the supplied radiographic image, and when an image with a different patient ID is supplied, the fact is displayed on the monitor display or the like. The warning is issued.
The above points will be described in detail later.
[0019]
Such various operations and processes are performed by known means implemented on a PC or the like using a keyboard or mouse, a GUI (Graphical User Interface) using a display image of the monitor 26, or the like. Realize it.
[0020]
Various types of monitors can be used as the monitor 26, but a thin display such as a plasma display, an organic EL display, and an LCD (liquid crystal display) is preferable in terms of size (occupied area), and in particular, has a viewing angle characteristic. A plasma display and an organic EL display are preferably exemplified in this respect.
The monitor 26 preferably has a large size that allows a surgeon, nurse, or the like to observe / confirm the displayed medical image without leaving the operating table 22. This size is appropriately selected according to the size of the operating room 12, the positional relationship between the operating table 22 and the monitor 26, and cannot be determined in general. If present, it is preferably 40 inches or more.
[0021]
In the illustrated example, the image display device 14 is installed on a gantry (moving gantry) having moving means such as casters, and can be moved manually. Accordingly, the image display device 14 is connected to the network 20 by connecting a connector or the like in the moved operating room 12. Radiographic imaging is not necessary for all operations, and there are many operations that do not require imaging. Therefore, the cost of the display system 10 can be reduced by making the image display device 14 movable so that one can be used in a plurality of operating rooms 12.
In the present invention, the image display device 14 is not limited to being movable, but may be fixedly installed in the operating room 12 and connected to the network 20. Things and fixed installations may be mixed.
[0022]
The reading device 18 installed in the preparation room 16 reads a radiographic image taken by the IP, and is basically a reading device for a known CR radiographic image (information) such as the above-mentioned FCR.
As an example, when the cassette is loaded at a predetermined position, the reading device 18 opens the cassette, takes out the IP, and conveys it to the reading unit. In the reading unit, excitation light such as a laser beam deflected in the main scanning direction is incident on a predetermined reading position, and the IP is conveyed in the sub-scanning direction orthogonal to the main scanning direction while the IP is positioned at the reading position. As a result, the entire surface of the IP is scanned two-dimensionally by the excitation light, and stimulated emission light corresponding to the radiographic image taken (accumulated and recorded) is generated. The reading device 18 makes this stimulated emission light incident on the light propagating device, propagates it, photoelectrically reads it with a CCD sensor, a photomultiplier, or the like, and performs a predetermined process such as A / D conversion on the obtained image signal. To obtain a radiographic image (its image data) photographed on the IP. Further, the reading device 18 accommodates the IP whose reading has been completed again in the cassette, and closes the cassette.
[0023]
In addition to such IP reading means, the reading device 18 has operating room selection means for transferring the read radiographic image, and as a preferred aspect, the patient ID, imaging region, etc. of the patient who has taken the radiographic image, etc. There are various information input means.
These inputs may be performed by known means using a keyboard, a GUI, or the like. For example, “operating room 12a chest”, which combines the operating room 12 (image data transfer destination) and the imaging region, Menus such as “operating room 12a lower limb”, “operating room 12b chest” may be created and selected, or a combination of both may be used.
[0024]
In the display system 10 of the present invention, after reading the radiographic image taken by the IP, the reading device 18 uses the network 20 to select / instruct the read radiographic image in the operating room 12 (the image display device 14). ) Automatically. This will be described in detail later.
[0025]
Hereinafter, the operation of the display system 10 will be described to describe the operating field image display system of the present invention in more detail.
[0026]
In the display system 10, prior to the start of surgery, the image display device 14 searches the server 24 using the patient ID of the patient undergoing surgery, reads the patient's face photo from the server 24, and displays it on the monitor 26. It is preferable to confirm the patient. Thereby, a patient's confusion can be prevented.
Further, if necessary, the server 24 is searched using the image display device 14 to read out medical images, electronic medical records, etc. of patients taken in the past, such as MRI and CT, and the monitor 26 is used as an operation reference image. May be displayed.
[0027]
When radiographing a patient before, during or after surgery, a radiographer loads the cassette containing the IP into a predetermined position of the operating table 22 corresponding to the imaging site, and Radiographs of
When the radiographing is completed, the radiologist takes the cassette to the preparation room 16, loads it into a predetermined position of the reader 18, and inputs necessary information such as an operating room for transferring the radiographic image, a patient ID, an imaging region, and the like. To start reading. In the illustrated example, it is assumed that surgery and radiographic image capturing are performed in the operating room 12a, and accordingly, the radiographic image is transferred to the operating room 12a.
[0028]
In response to this, the reading device 18 takes out the IP from the loaded cassette, performs reading as described above, and obtains a radiographic image (its image data) photographed on this IP. When the reading is completed, the reading device 18 uses the network 20 to send the read radiographic image to the designated operating room 12a. Of course, the read radiation image may be transferred to the server 24 and stored in association with the patient ID or the like.
The image display device 14 in the operating room 12a to which the radiographic image has been transferred performs predetermined image processing such as gradation conversion and density correction on the radiographic image as necessary, and is schematically shown in FIG. In addition, this radiation image is automatically displayed on the monitor 26 as a main image for the surgeon to observe / confirm, even if no operation is performed. At the same time, a thumbnail image of this radiation image may be generated and displayed at a predetermined position.
[0029]
Here, the radiographic image is not always captured once during the operation, and the radiographic image is often captured a plurality of times before, during, and after the operation.
At this time, similarly to the above, the reading device 14 reads the IP and transfers the radiation image to the designated operating room 12 in accordance with the operation by the radiologist. Here, when a new radiographic image is transferred from the reading device 14, the image display device 14 automatically displays the newly transferred radiographic image as a main image in the same manner as shown in FIG. As schematically shown, the main image displayed so far is displayed as a thumbnail image at a predetermined position (left end in the illustrated example). That is, in the present invention, basically, the latest radiographic image is displayed as the main image.
[0030]
In the conventional operating field image display system, in order to display the captured radiographic image in the operating room, it is necessary for the radiologist to return to the operating room, operate the terminal, search the server, read it, and display it. As described above, the doctor or the like was unable to observe the radiographic image until this was completed.
On the other hand, in the display system 10 of the present invention, when the reading device 18 reads the IP from which the radiographic image is taken, it is automatically and directly transferred to the designated operating room 12 (the image display device 14) to display the image. The apparatus 14 automatically displays the received radiographic image as a main image for observation / confirmation by a surgeon or the like. Therefore, the surgeon or the like can immediately observe the latest radiographic image without waiting for the operation by the radiologist or the like, and can greatly accelerate the progress of the operation. In particular, by using the large monitor 26 as described above, the surgeon can observe the radiographic image without leaving the operating table 22, that is, the patient, and perform accurate surgery with better efficiency. Can do.
[0031]
In the display system 10 of the present invention, when a radiographic image is taken a plurality of times and a corresponding thumbnail image is displayed, the selected thumbnail image is selected (for example, clicked with the mouse). A thumbnail image is displayed as a main image. If there is no thumbnail image for the main image that has been displayed, a thumbnail image is generated and displayed at a predetermined position. Therefore, it is possible to switch the main image without searching for the image again.
Further, a plurality of appropriately selected images may be subjected to scaling processing as necessary, so that they can be displayed side by side as main images. For example, a list of radiation images displayed so far (or medical images read out from the server 24) may be displayed in a window on the monitor 26, and the images may be displayed side by side by selecting images in this window. .
[0032]
Here, the transfer of the radiographic image from the reading device 18 is not necessarily performed in the proper operating room 12, and for example, the radiographic image may be transferred to the wrong operating room 12 due to an input error or the like. is there.
To cope with this, in the display system 10, when reading the IP, the patient ID is also input to the reading device 18, and the reading device 18 associates the patient ID with the radiographic image, and the image display device 14. Send to. The image display device 14 compares the patient ID of the main image being displayed with the patient ID of the newly supplied radiographic image, and if different, warns that a radiographic image with a different patient ID has been transferred. Preferably, the user is further requested to select whether or not to display the radiation image.
There is no particular limitation on the method for outputting the warning, and it is sufficient to use a sound output such as a display on the monitor 26 or a warning sound. The display can be selected by a known method using a GUI or the like.
[0033]
In the display system 10 of the present invention, when the past medical images of the patient are read before the operation, these may be displayed at predetermined positions as thumbnail images, and the thumbnail image is selected. Of course, it may be displayed as a main image.
In addition, when a face photograph or a past medical image is displayed, a confirmation is made between the patient ID used for the reading and the patient ID of the first radiographic image, and the patient ID of the radiographic image is different. If so, a similar warning or selection instruction is issued.
[0034]
The operating field image display system of the present invention has been described in detail above. However, the present invention is not limited to the above-described embodiment, and various improvements and modifications may be made without departing from the gist of the present invention. Of course.
For example, in the illustrated example, the image display device arranged in the operating room has only one monitor, but the present invention is not limited to this, and the image display device has a plurality of monitors. A multi-monitor may be used.
In addition, the installation position of the reader is not limited to the preparation room, and can be installed in various places such as a medical image management room if it is connected to a network including the operating room outside the operating room. It is.
[0035]
【The invention's effect】
As described above in detail, according to the operating field image display system of the present invention, in a system for observing a radiographic image taken in the operating room in the operating room, a very short waiting time after the radiographic image is taken in the operating room. Preferably, the surgeon or nurse can observe the radiographic image in the operating room without moving, so that the progress of the operation can be accelerated, and it is possible to cope with a urgent operation suitably.
[Brief description of the drawings]
FIG. 1 is a conceptual diagram of an example of a surgical field image display system according to the present invention.
FIGS. 2A and 2B are conceptual diagrams for explaining an example of radiation image display in the operating field image display system of the present invention. FIGS.
FIG. 3 is a conceptual diagram of an example of a conventional operating field image display system.
[Explanation of symbols]
10, 100 (Operating field image) display system 12, 102 Operating room 14 Image display device 16, 104 Preparation room 18, 106 (Radiation image information) Reader 20 Network 22 Operating table 24, 108 Server 26 Monitor 110 Terminal

Claims (6)

A radiographic image reader arranged outside the operating room and having operating room designation means; a network connecting the reading apparatus to each operating room; and an image display means connected to the network in the operating room. ,
After reading the radiation image, the reading device transfers the image data of the read radiation image to a designated operating room using the network, and the image display means is supplied with the image data of the radiation image from the network. Then, an operating field image display system that displays the radiation image as a main image. The operating field image display system according to claim 1, wherein the image display means has a screen size that allows a surgeon to confirm an image without leaving the operating table. The operating field image display system according to claim 1 or 2, wherein the image display means is installed on a movable gantry and can be moved manually. When the image data of the new radiographic image is supplied, the image display means displays the new radiographic image as a main image and displays a thumbnail image of the radiographic image displayed as the main image at a predetermined position on the display screen. The operation field image display system according to any one of claims 1 to 3, wherein the radiographic image is displayed as a main image when a thumbnail image is instructed. A server connected to the network for storing a number of medical images associated with patient identification information, and the reading device searches the server for image data of medical images, and the medical images The operating field image display system according to any one of claims 1 to 4, further comprising means for acquiring identification information of a patient corresponding to, and displaying the image. The reading device has input means for patient identification information, and the image display means has confirmation means for patient identification information,
The reading device transfers the input identification information of the patient together with the image data of the radiographic image to the image display means, and the image display means is an image of a radiographic image in which the displayed radiographic image is different from the identification information of the patient. The operating field image display system according to any one of claims 1 to 5, wherein when data is received, a message to that effect is output.

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