JP4417610B2 - Image display apparatus and method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image display device and method for displaying medical images of a large number of subjects, and more particularly to an image display device and method for searching a data file for each of a large number of subjects and displaying medical images.
[0002]
[Prior art]
Currently, so-called CT (Computed Tomography) scanners and MRI (Magnetic Resonance Imaging) devices are used in medical settings as devices for capturing multiple tomographic images from a subject as medical images. Various image display devices for displaying the image have been developed.
[0003]
Such an image display device is realized, for example, by installing a dedicated computer program on a personal computer or a workstation, and can search a medical image for each registered subject and display it on the display unit.
[0004]
More specifically, in a general image display device, a large number of medical images for each subject are used as one data file, and the data file is data together with various data such as the subject name, subject ID, work date and time, work ID, and the like. to manage. For this reason, when the worker wants to view the medical image of the subject, the worker performs an input operation on the keyboard using text data such as the subject ID as a search key on the image display device. Then, the image display device searches the data file using the input text data as a search key and displays the medical image of the data file on the display unit, so that the operator can view the medical image of the desired subject. it can.
[0005]
When the medical image of the data file including the medical image for each subject is series data including a plurality of continuous tomographic images as described above, for example, the operator performs an input operation of a direction key on the keyboard or the like as desired. Then, the image display device sequentially switches one tomographic image displayed in the data file, so that the operator can browse a plurality of tomographic images of the subject as desired.
[0006]
In addition, since a CT scanner or the like normally captures tomographic images in the axial direction from a subject, the image display apparatus as described above can view a plurality of continuous tomographic images in the axial direction. However, some current image display apparatuses generate and display MPR images in the coronal direction and the sagittal direction from a plurality of continuous tomographic images in the axial direction by a predetermined CG (Computer Graphic) process.
[0007]
In this case, a display unit such as a personal computer that is generally an image display device has a horizontally long screen in the left-right direction, but an MPR image is obtained and vertically long. Therefore, in the current image display apparatus, only a part of one MPR image in the vertical direction is displayed on the display unit, and the display part is scrolled in the vertical direction corresponding to the input operation of the keyboard.
[0008]
[Problems to be solved by the invention]
In the image display apparatus as described above, a medical image of a subject can be browsed freely, but for that purpose, it is necessary to search for a desired data file. As described above, since the medical image data file is usually managed with various data such as the subject name, subject ID, work date and time, work ID, etc., it is appropriate to search for a desired data file. Information may be input as text data with a keyboard, but the operation of inputting text data such as a subject ID with a keyboard is complicated.
[0009]
In addition, when a medical image of the retrieved text data is displayed, the display form is controlled by an input operation such as a keyboard. However, when the image display device is a personal computer or the like as described above, the alphabet or the like Since the above-described input operation is executed with a keyboard or mouse on which the input keys are arranged, the versatility is good but the operability is not good.
[0010]
In particular, when the medical image data file is series data consisting of a plurality of continuous tomographic images, the displayed tomographic images are switched one by one, the displayed tomographic images are switched at a high speed, and the switching is performed at a high speed. Although it is required to stop the display of the tomographic image instantaneously, it is difficult to operate it easily and reliably with a general keyboard or mouse.
[0011]
In addition, in the conventional image display device, even if a longitudinal MPR image in the coronal direction and the sagittal direction is generated from a plurality of axial tomographic images, only a part of the single MPR image in the vertical direction is displayed. Since the unit is scrolled, it can be observed in detail, but it is difficult to grasp the whole image.
[0012]
The present invention has been made in view of the above-described problems, and an object of the present invention is to provide an image display device capable of searching a data file and displaying a medical image with a simple operation.
[0013]
[Means for Solving the Problems]
  The image display device of the present invention includes image storage means, mode operation means, mode setting means, voice input means, voice recognition means, data search means, image display means, display operation means, and display control means.And a list display means and a data selection means.
[0014]
  In the image display device of the present invention, the image storage means stores data files of medical images taken from a large number of subjects together with at least subject names and subject IDs, and mode setting is performed in response to an input operation to the mode operation means. When the voice mode is switched by the means, the voice recognition means recognizes the voice input to the voice input means as at least one of the subject name and the subject ID, and the data search means searches using the recognition result as a search key. The medical image of the data file is displayed by the image display means, and the display form is controlled by the display control means corresponding to the input operation to the display operation means. Therefore, in the image display apparatus of the present invention, the data file is enormous. Even if the quantity is entered, at least one of the subject's name and the subject ID is input by voice search. Further, when a plurality of data files are searched and displayed, it is possible to select and display one data file by inputting information for selecting one from the data file by voice. If the medical image of the data file is displayed, the display form is controlled in response to the input operation to the display operation means. The voice recognition described above is not executed until the voice mode is switched, and the voice mode switching setting is executed by a general input operation.
Further, the voice input function is turned off when one of the plurality of data files is selected, thereby preventing erroneous voice input.
[0015]
The input operation referred to in the present invention means various operations other than voice input that mechanically move a member such as a switch or a lever. For example, a manual operation to a keyboard or an operation panel, a foot It is possible to perform stepping on the pedal.
[0016]
The various means referred to in the present invention need only be formed so as to realize the function. For example, dedicated hardware that exhibits a predetermined function, an image display device provided with a predetermined function by a computer program The computer program allows a predetermined function realized by the computer program, a combination thereof, and the like.
[0017]
In addition, the various means referred to in the present invention do not necessarily have to be independent of each other, a plurality of means are formed as one member, a certain means is a part of other means, It is also possible that a part of one means and a part of another means overlap.
[0018]
The image display apparatus according to the present invention may be hardware that can read data from a computer program and execute a corresponding processing operation. For example, a CPU (Central Processing Unit) is mainly used as a ROM (Read Hardware to which various devices such as only memory (RAM), random access memory (RAM), and interface (I / F) unit are connected is allowed.
[0019]
In addition, having the image display apparatus execute various operations corresponding to the computer program in the present invention also allows the image display apparatus to control the operation of various devices. For example, storing various data in the image display device means storing various data in an information storage medium such as a RAM provided as a part of the image display device, or being exchangeably loaded in the image display device. It is allowed to store various data in an information storage medium such as an FD (Flexible Disc-cartridge).
[0020]
DETAILED DESCRIPTION OF THE INVENTION
[Configuration of the embodiment]
An embodiment of the present invention will be described below with reference to the drawings. As shown in FIGS. 1 and 2, the image display apparatus 300 of the present embodiment is formed as a part of the tomographic inspection system 400 as shown in FIGS. 2 and 1, and is connected online to the CT scanner 401. Yes.
[0021]
As shown in FIG. 3, the image display apparatus 300 according to the present embodiment includes a main body unit 212, a display unit 211, and a control unit 200 that is various types of operation means. The display unit 211 and the control unit 200 include It is connected to the main unit 212.
[0022]
As shown in FIG. 4, the image display apparatus 300 according to the present embodiment includes a CPU 301 as hardware that is a main component of a computer. The CPU 301 includes a ROM 303, a RAM 304, and an HDD 305 (Hard Disc Drive) via a bus line 302. 305, FDD (FD Drive) 307 in which FD 306 is interchangeably loaded, CD drive 309 in which CD (Compact Disc) -ROM 308 is interchangeably loaded, microphone 310 as voice input means, control unit 200, display unit 211, I / F unit 311, etc. are connected.
[0023]
As shown in FIGS. 5 and 6, in the control unit 200 of the image display apparatus 300 according to the present embodiment, a main body housing 201 is formed with a long and narrow deformed hole 202 in the front-rear direction, and the operation member 106 of the input operation apparatus 100 is formed there. Is exposed from below.
[0024]
The control unit 200 is also provided with various operation keys 205, and a circuit board (not shown) connected to these operation keys 205 is also incorporated. A connector cable 206 is also connected to the circuit board, and the connector cable 206 is detachably connected to the connection connector 119 of the input operation device 100.
[0025]
Here, the structure of the input operation device 100 of the control unit 200 will be described in detail below. First, as shown in FIGS. 6 to 8, the input operation device 100 of this embodiment includes a base member 101 made of a rectangular metal plate elongated in the front-rear direction, and is provided on both left and right sides of the upper surface of the base member 101. Are integrally fixed with a pair of side wall members 102 made of a flat metal plate bent in an L shape.
[0026]
A base substrate 103 that is elongated in the front-rear direction is integrally fixed to the upper surface of the base member 101 located in the gap between the pair of side wall members 102, and the front and rear end portions of the base substrate 103 are front and rear of the base member 101. Each protrudes outward from the edge. A support shaft 104 corresponding to a support mechanism is mounted at the upper center of the pair of side wall members 102, and a swinging member 105 made of a rectangular metal plate elongated in the front-rear direction on the support shaft 104 is formed in the front-rear direction. Is pivotally supported by the shaft.
[0027]
On the upper surface of the swingable swinging member 105, an operation member 106 made of resin in a flat rectangular shape elongated in the front-rear direction is integrally mounted. The operation member 106 has an upper surface from the front end portion. It is formed on one surface that communicates smoothly to the rear portion. Since the swing substrate 107 is integrally mounted on the lower surface of the swing member 105, the swing substrate 107 supported so as to be swingable in the front-rear direction faces the base substrate 103 from above at a predetermined interval. .
[0028]
In the input operation device 100 of the present embodiment, two sensor elements 111 are mounted in parallel on each of the front and rear end portions of the base substrate 103 facing the swing substrate 107, and these two sensor elements are mounted in parallel. One sensor element 111 is mounted on each of the front and rear end portions of the swinging substrate 107 facing the top 111 from above.
[0029]
For this reason, two sensor elements 111 are mounted in parallel on both end portions on the front side of the base member 101 via the base substrate 103, and the swing member 105 and the swing substrate are mounted on the back side of the operation member 106. 107, one sensor element 111 is mounted on each end portion.
[0030]
In the input operation device 100 according to the present embodiment, a guide member 112 is mounted on each of the front and rear end portions of the pair of side wall members 102 so as to be vertically displaceable. Two sensor elements 111 mounted on the front and rear end portions are in contact with one sensor element 111 mounted on the front and rear end portions of the swing substrate 107.
[0031]
These sensor elements 111 are made of general commercially available parts, and sensor convex portions 114 project elastically from the element body 113. In the sensor element 111, the sensor convex portion 114 is buried in the element body 113 only when a predetermined operating load is applied, and the presence / absence of an input operation is detected in binary.
[0032]
Since the sensor elements 111 mounted in parallel on the front and rear ends of the base substrate 103 and the sensor elements 111 mounted on the front and rear ends of the swing substrate 107 have a common operating load, the operation member 106 The front and rear end portions are urged upward in two stages by the operating load and the double operating load, and are held at the initial position. Hereinafter, in order to simplify the description, the operation load of the sensor element 111 is referred to as a first load, and the double operation load is referred to as a second load.
[0033]
In the input operation device 100 of the present embodiment, since the operation member 106 is biased to one initial position by the first load and the second load as described above, as shown in FIG. When a first load is applied to one end portion of 106, only one sensor element 111 mounted on the swing substrate 107 is operated, so that one end portion of the operation member 106 swings from the initial position to the first operation position. To do.
[0034]
Further, as shown in FIG. 8 (c), when a second load is applied to one end portion of the operation member 106 from this state, the two sensor elements 111 mounted on the base substrate 103 are activated, thereby causing an operation. One end portion of the member 106 swings from the first operation position to the second operation position.
[0035]
Further, in the input operation device 100 of this embodiment, the numerical value obtained by adding the diameter of the guide member 112 to twice the upper and lower thickness of the sensor element 111 and the numerical value of the gap between the base substrate 103 and the swinging substrate 107 are the same. Since each part is designed as described above, the operation member 106 is held at the initial position without any so-called play.
[0036]
Note that printed wiring (not shown) is formed on the upper surface of the base substrate 103 and the lower surface of the swinging substrate 107, and the sensor element 111 is mounted on the printed wiring. Further, one end of the flexible substrate 116 is directly connected to the printed wiring of the swing substrate 107, and the other end of the flexible substrate 116 is connected to the printed wiring of the base substrate 103 via the connection connectors 119 and 118. In addition, an external output connection connector 119 is also mounted on the printed wiring of the base board 103, and the pair of connection connectors 118 and 119 are arranged one by one at the front and rear ends of the base board 103.
[0037]
However, even if the second load is applied to one end portion of the operation member 106 as described above, there is a possibility that an error occurs in the operation timing of the two sensor elements 111 mounted on both end portions of the base substrate 103. is there. Therefore, in the input operation device 100 of this embodiment, for example, by sharing the output wiring of the two sensor elements 111 arranged in parallel at both end portions of the base substrate 103, the two arranged in parallel are used. A structure in which a detection signal is output even if only one of the sensor elements 111 operates is realized.
[0038]
In the tomographic inspection system 400 of this embodiment, the CT scanner 401 includes an image imaging mechanism 411 that is an image imaging unit and a communication unit 412 that is an image supply unit. As illustrated in FIG. The mechanism 411 captures a plurality of tomographic images continuous in the axial direction from a human body (not shown) of the subject as medical images.
[0039]
A plurality of medical images continuously captured from one subject are stored as data files of series data, and the communication unit 412 transmits data to the image display device 300. In the following, for the sake of simplicity, an axial direction in which a plurality of tomographic images are continuous is referred to as a front-rear direction.
[0040]
In the image display apparatus 300 of this embodiment, hardware such as a ROM 303, a RAM 304, an HDD 305, a replaceable FD 306, a replaceable CD-ROM 308 corresponds to an information storage medium, and at least one of them is a computer program for the CPU 301. And resources are stored as software. Such software is preinstalled in the image display apparatus 300, and data is read by the CPU 301 when the image display apparatus 300 is activated.
[0041]
As described above, when the CPU 301 reads an appropriate computer program and executes various processes, the image display apparatus 300 according to the present embodiment has an image acquisition unit 321, an image storage unit 322, a mode setting as illustrated in FIG. 1. Various means such as means 323, voice recognition means 324, data search means 325, image display means 326, list display means 327, data selection means 328, display control means 329, etc. are logically provided as various functions.
[0042]
The image acquisition unit 321 corresponds to the function of the CPU 301 recognizing the received data of the I / F unit 311 corresponding to the computer program stored in the RAM 304 and acquires series data from the CT scanner 410. The image storage unit 322 corresponds to a storage area constructed in the HDD 305 so that the CPU 301 can recognize it. As shown in FIGS. 9 and 10, the series data acquired by the image acquisition unit 321 is displayed as “subject name, subject”. It is stored together with various stator data such as ID, work date and time, and work ID ".
[0043]
It should be noted that the status data can be added to the series data in this manner by any of the CT scanner 410, the image display device 300, the CT scanner 410, or a data processing device (not shown) that performs data communication with the image display device 300. However, in this embodiment, it is assumed that the image display device 300 controls the operation of the CT scanner 410 and adds the stator data to the series data.
[0044]
The following various means correspond to the function of the CPU 301 executing predetermined data processing corresponding to the computer program, and the mode setting means 323 corresponds to the input operation of the control unit 200 and has a plurality of operation modes such as voice mode. Change the setting.
[0045]
The mode setting unit 323 turns on the microphone 310 and the voice recognition unit 324 when the voice mode is switched and sets the microphone 310 and the voice recognition unit 324 when the operation mode other than the voice mode is switched and set. Turn off.
[0046]
When the voice mode is switched, the voice recognition unit 324 recognizes the voice input to the microphone 310 as the subject name or the subject ID, and the data search unit 325 uses the recognition result of the voice recognition unit 324 as a search key for status. The series data corresponding to the data is retrieved from the image storage means 322.
[0047]
Note that when the series data is retrieved by voice recognition, the mode setting means 323 turns off the microphone 310 and the voice recognition means 324 at that time. Further, when one series data is searched by the data search means 325, the image display means 326 displays one tomographic image together with various stator data added thereto as shown in FIG. To display.
[0048]
However, as shown in FIG. 9, when only one series data corresponding to the subject name or subject ID to be voice-recognized is retrieved, the tomographic image of one series data retrieved as described above is displayed on the display unit 211. May be displayed, but multiple series data may be searched.
[0049]
For example, when the name of the subject is recognized by voice, the series data of the subject having the same name and the series data of the subject having the same name are searched uniformly. Moreover, although only one subject ID exists for each subject, a plurality of series data of the subject may be registered.
[0050]
In such a case, as shown in FIG. 10, the list display unit 327 displays a list of various status data of the plurality of series data searched by the data search unit 325 together with the serial number, and the data selection unit 328 displays the list. When a serial number for selecting one of the displayed series data is input to the control unit 200, the serial number of that serial number is selected and displayed on the image display means 326.
[0051]
When an instruction to control the display form of the tomographic image displayed on the display unit 211 is input to the control unit 200, the display control unit 329 controls the display form of the tomographic image corresponding to the input operation. More specifically, as shown in FIG. 12, the series data is composed of a number of tomographic images continuous in the front-rear direction, which is the axial direction, as described above. Therefore, as shown in FIG. When the operation member 106 of the control unit 200 is input in the front-rear direction while being displayed on the display unit 211, the tomographic image displayed on the display unit 211 is switched in the front-rear direction correspondingly.
[0052]
However, in the image display apparatus 300 according to the present embodiment, the input operation device 100 of the control unit 200 accepts the input operation to the operation member 106 in two stages as described above, so that the display is displayed corresponding to the two-stage input operation. The switching speed of the tomographic image is controlled.
[0053]
That is, when the front end portion of the operation member 106 is pressed by the first load, the tomographic image of the displayed series data is switched to a low speed in the forward direction, and further, from this state, the front end portion of the operation member 106 is changed to the second portion. When the pressing operation is performed up to the load, the tomographic image is switched at high speed in the forward direction.
[0054]
Similarly, when the rear end portion of the operation member 106 is pressed by the first load, the tomographic image of the displayed series data is switched to the low speed in the backward direction, and further, the rear end portion of the operation member 106 is switched from this state. Is pressed to the second load, the tomographic image is switched at a high speed in the backward direction.
[0055]
Further, in the image display apparatus 300 of the present embodiment, since the tomographic images of the series data are continuous in the axial direction as described above, the display control unit 329 performs a predetermined input operation on the control unit 200. A longitudinally long MPR image in the coronal direction and the sagittal direction is generated from a plurality of continuous tomographic images by a predetermined CG process. As shown in FIG. 13, the image display means 326 has a longitudinally long length in the coronal direction and the sagittal direction. The entire MPR image is arranged in the horizontal direction and displayed on the display unit 211 together with various types of stator data.
[0056]
Various means of the image display apparatus 300 as described above are realized by using hardware such as the HDD 305 and the I / F unit 311 as necessary. The main unit is a computer program stored in an information storage medium such as the RAM 304. This is realized by the function of the CPU 301 as hardware corresponding to the above.
[0057]
Such a computer program is, for example, a process for receiving series data from the CT scanner 410 by the I / F unit 311, a process for storing the received series data in the HDD 305 together with various status data, and an input operation of the control unit 200. A process for switching and setting a plurality of operation modes such as a voice mode in response to the voice, a process for recognizing voice input to the microphone 310 as a subject name or a subject ID when the voice mode is switched and set, and a search key for the recognition result The process of searching for series data, the process of displaying a tomographic image on the display unit 211 together with various types of stator data when one series data is searched, and the serial data of various types of stator data when searching for multiple series data naan A list display process, a process of selecting corresponding series data and displaying a tomographic image on the display unit 211 when the serial number is input to the control unit 200, and a display form of the tomographic image displayed on the display unit 211. It is stored in an information storage medium such as the RAM 304 as software for causing the CPU 301 to execute processing operations such as processing to be controlled in response to an input operation to the control unit 200.
[0058]
[Operation of the embodiment]
In the configuration as described above, the tomographic inspection method in the tomographic inspection system 400 of this embodiment will be described in order below. First, a plurality of tomographic images continuous in the axial direction from the human body of the subject are captured as medical images by the CT scanner 410, and the plurality of tomographic images are registered in the image display device 300 as data files of series data.
[0059]
At this time, in the tomographic inspection system 400 of this embodiment, for example, when the operator manually operates the control unit 200 of the image display device 300, the series data registered in a predetermined area of the HDD 305 is displayed as shown in FIG. Various types of stator data such as “subject name, subject ID, work date and time, work ID” are given (steps S1 to S3).
[0060]
In this state, when an operator inputs an operation mode switching instruction to the control unit 200 of the image display apparatus 300 (steps S4 and S6), the operation mode of the image display apparatus 300 is switched and set accordingly. (Steps S5 and S7).
[0061]
Therefore, when an operator who wants to view a tomographic image of desired series data switches and sets the voice mode as the operation mode, as shown in FIG. 15, the microphone 310 and the voice recognition function that are set to the off state by default are turned on. (Step T1).
[0062]
In this state, when the subject name or subject ID of the series data that the operator wants to browse is input to the microphone 310 (step T2), the input speech is recognized as the subject name or subject ID by the data processing of the CPU 301 (step S2). T3).
[0063]
Then, using this recognition result as a search key, the series data corresponding to the status data is searched from a predetermined area of the HDD 305 (step T5), and if no series data is searched, it is recognized that "the input voice is ..." An error guidance such as “No data corresponding to this has been registered” is displayed on the display unit 211 (step T6), and the apparatus waits for a voice input again (step T2).
[0064]
When the series data is retrieved by voice recognition, the microphone 310 and the voice recognition function are turned off at that time (step T7). When a plurality of series data is searched (step T8), as shown in FIG. 10, various status data of the plurality of series data are displayed in a list on the display unit 211 together with the serial number (step T9). .
[0065]
Therefore, when the operator who has confirmed this inputs and operates one serial number corresponding to the desired series data to the control unit 200 (step T10), one series data corresponding to the serial number is selected (step T11). ). When one series data is selected in this way, as shown in FIG. 11, the first tomographic image of the series data is displayed on the display unit 211 together with the status data (step T12).
[0066]
When only one series data is retrieved from the beginning based on the recognition result of voice recognition (step T8), the processing operations such as the above list display (steps T9 to T11) are omitted, and the first of the series data is displayed. The first tomographic image is displayed on the display unit 211 together with the status data (step T12).
[0067]
When a display control is input to the control unit 200 with the series data tomographic image displayed on the display unit 211 as described above (step T13), the display form of the tomographic image is controlled in accordance with the input operation. (Step T14).
[0068]
More specifically, as shown in FIG. 11, when one tomographic image of series data is displayed on the display unit 211, as shown in FIG. 16, the operation member 106 of the input operation device 100 of the control unit 200 is displayed. When the front end portion is pressed to the second load (step E1), the tomographic image is switched at high speed in the forward direction (step E2), and when the rear end portion is pressed to the second load (step E5), The tomographic image is switched at high speed in the backward direction (step E6).
[0069]
When the front end portion of the operation member 106 of the input operation device 100 is pressed to the first load (step E3), the tomographic image is switched to a low speed in the forward direction (step E4), and the rear end portion is the first load. (Step E7), the tomographic image is switched to a low speed in the backward direction (step E8).
[0070]
Even when the operation member 106 of the input operation device 100 is manually operated and the tomographic images are sequentially switched as described above, when the manual operation is canceled, the operation member 106 automatically returns to the initial position and the input operation is performed. Since the signal output of the apparatus 100 stops, the forward and backward movement of the tomographic image stops instantaneously.
[0071]
In addition, when the tomographic image is displayed at low speed in the front-rear direction as described above, for example, the displayed tomographic image is switched every time a predetermined time such as 1.0 (sec) elapses. If the button 106 is pressed for a moment, only one tomographic image is moved back and forth.
[0072]
On the other hand, as shown in FIG. 11, when one tomographic image of series data is displayed on the display unit 211, when a predetermined input operation is performed on the control unit 200, the image display device 300 has a plurality of continuous images. The longitudinal MPR image in the coronal direction and the sagittal direction is generated from the tomographic image by a predetermined CG process, and the entire longitudinal MPR image in the coronal direction and the sagittal direction is arranged in the horizontal direction as shown in FIG. And displayed on the display unit 211 together with various stator data.
[0073]
[Effect of the embodiment]
In the image display apparatus 300 of the tomographic inspection system 400 of this embodiment, when the operator wants to browse the tomographic image of the desired series data as described above, the series data is searched if the operator inputs the subject name or the subject ID by voice. Therefore, even if the number of registered series data is enormous, the search process can be easily executed, and the complicated operation of inputting text data of the subject name or subject ID with the control unit 200 or the keyboard is necessary. Absent.
[0074]
If a plurality of series data are searched, the various status data are displayed in a list together with the serial number on the display unit 211, and if only the serial number is input to the control unit 200, one series data is selected. Therefore, even if there are a plurality of series data retrieved by the first voice input, an appropriate one can be selected by a simple input operation.
[0075]
In addition, the microphone 310 and the voice recognition function are defaulted to the off state until the voice mode is switched, and when the series data is retrieved by voice recognition, the microphone 310 and the voice recognition function are set to the off state again. Therefore, it is possible to prevent malfunction due to unnecessary voice input, and it is possible to prevent unnecessary power consumption and processing burden.
[0076]
Further, when the tomographic image of the series data is displayed, the display form is controlled in accordance with the input operation to the control unit 200. Therefore, display control that is difficult with voice input should be executed by a general input operation. Can do. In that case, by operating one input member 106 of the input operation device 100 in multiple stages in the front-rear direction, the tomographic images of the series data can be switched and displayed at multiple stages of variable speeds. When the operation is canceled, the position automatically returns to the initial position, so that the tomographic image displayed by switching can be stopped instantaneously. For this reason, the input operation device 100 of the present embodiment has good operability, and the image display device 300 of the present embodiment can view the tomographic image comfortably.
[0077]
Further, the image display apparatus 300 according to the present embodiment generates predetermined MPR images in the coronal direction and the sagittal direction from a plurality of tomographic images continuous in the axial direction by executing a predetermined input operation on the control unit 200. The entire vertically elongated MPR image in the coronal direction and the sagittal direction can be arranged in the horizontal direction and displayed on the display unit 211.
[0078]
For this reason, in the image display apparatus 300 of this embodiment, the operator can easily grasp the overall image of the subject, and in particular, the two vertically long MPR images are arranged and displayed in the horizontal direction. Two MPR images can be displayed without waste on the horizontally long screen of the unit 211.
[0079]
Moreover, in the input operation device 100 of the present embodiment, the sensor elements 111 are mounted one by one on the front and rear ends of the operation member 106, and two sensor elements 111 are mounted on the front and rear ends of the base member 101. The one-type sensor element 111 realizes a two-stage operation load easily and reliably, and the increase in the number of component types is suppressed, resulting in good productivity.
[0080]
Further, the two types of element sets having two stages of operating loads due to the difference in the number of parallel arrangements are distributed to the base substrate 103 fixed to the base member 101 and the swing substrate 107 fixed to the operation member 106. Since it is mounted, two types of element sets with two stages of operating loads are efficiently arranged with a simple structure, and the productivity is also good.
[0081]
In particular, in the input operation device 100 according to the present embodiment, the two sensor elements 111 are mounted on the base substrate 103 and the one sensor element 111 is mounted on the swing substrate 107. The number of wirings of the flexible substrate 116 that connects to 103 is reduced, and the productivity is further improved.
[0082]
In addition, in the input operation device 100 according to the present embodiment, the swing detection unit detects the swing operation of the operation member 106 and the swing return means for biasing the operation member 106 to the initial position by the sensor element 111 which is a general commercially available part. Therefore, the structure is simple and the productivity is good.
[0083]
[Modification of Embodiment]
In addition, this invention is not limited to the said form, A various deformation | transformation is accept | permitted in the range which does not deviate from the summary. For example, in the above embodiment, the tomographic image of the subject is illustrated as being captured by the CT scanner 410, but it is also possible to capture this with an MRI apparatus (not shown).
[0084]
Furthermore, in the above embodiment, it is exemplified that the series data that is the data file is searched and the tomographic image that is the medical image is browsed. However, it is also possible to search the data file other than the series data by voice recognition. It is also possible to view a medical image such as an angio image other than the above by an input operation.
[0085]
In the above embodiment, when a plurality of series data is retrieved by voice recognition, one series data is selected by the serial number input operation to the control unit 200 from the list display. It is also possible to input an ID or the like.
[0086]
Furthermore, in the above embodiment, one of a plurality of series data displayed in a list is selected by the input operation of the control unit 200. However, one series data can be selected by re-speech input and voice recognition. It is. In this case, it is also possible to input the serial number by voice as in the case of the control unit 200, and it is also possible to input the work date, work ID, etc. by voice.
[0087]
When a small number of series data searched by the first voice recognition is expected, it is preferable to select one by the input operation of the control unit 200. When a large number of series data are expected, it is preferable to select one by re-speech recognition.
[0088]
In the above embodiment, when a plurality of series data is searched by voice recognition, the microphone 310 and the voice recognition unit 324 are turned off at that time. However, the search is performed by voice recognition as described above. When selecting one from a plurality of series data by voice recognition, naturally, it is preferable to turn off the microphone 310 and the voice recognition means 324 after the selection is completed.
[0089]
Furthermore, in the above embodiment, when the voice recognition is not required, both the microphone 310 and the voice recognition means 324 are illustrated as being turned off. However, only one of them may be turned off. However, in order to prevent unnecessary power consumption and processing burden, it is preferable to turn off both the microphone 310 and the voice recognition means 324 when voice recognition is not required.
[0090]
In the above embodiment, only one tomographic image of one series data is displayed on the display unit 211. However, for example, a plurality of series data tomographic images can be displayed one by one in parallel. It is also possible to display a plurality of tomographic images having different front and rear positions of one series data in parallel, and to display a plurality of tomographic images by different image processing.
[0091]
Furthermore, in the above-described embodiment, the input operation device 100 having a smooth surface on which the upper surface of the operation member 106 is manually operated with a fingertip is illustrated. However, for example, like the input operation device 500 illustrated in FIG. The formed operation member 501 can be attached to the swing member 105 and manually operated with fingers. Similarly, like the input operation device 600 illustrated in FIG. 18, an operation member 601 having a cross-sectional shape protruding at an acute angle is attached to the swing member 105 so that an input operation can be performed in the front-rear direction at a so-called finger belly. It is also possible to swing back and forth with the fingertip.
[0092]
Further, in the above embodiment, it is exemplified that various means are logically realized as various functions of the image display apparatus 300 by the CPU 301 operating corresponding to the computer program stored in the RAM 304 or the like. However, each of these various means can be formed as unique hardware, and a part can be stored in the RAM 304 or the like as software and a part can be formed as hardware.
[0093]
【The invention's effect】
In the image display device of the present invention, data files of medical images taken from a large number of subjects are stored together with at least subject names and subject IDs, and when the voice mode is switched by an input operation, the input speech is changed to the subject names or subject names. Voice recognition is performed as the subject ID, the medical image of the data file retrieved using the recognition result as the search key is displayed, and the display form is controlled in response to the input operation, so that the subject name can be obtained even if the data file has a huge quantity Or, if the subject ID is input by voice, the search is performed, so there is no need for a complicated operation of inputting the subject name or the subject ID text data with the keyboard, and if the medical image of the data file is displayed, the display Since the form is controlled in response to general input operations, complicated images are required for voice input. The above control can be executed by a general input operation. Moreover, the above voice recognition is not executed until the voice mode is switched, and the voice mode switching setting is executed by a general input operation. Therefore, it is possible to prevent a malfunction caused by unnecessary voice input.
[0094]
Further, in the image display device as described above, various types of data including at least a subject name and a subject ID of a plurality of searched data files are displayed in a list, and information for selecting one from the displayed data file is displayed. When a voice is input and recognized, the corresponding one data file is selected and displayed, so that even if there are multiple data files retrieved by the first voice input, the appropriate one can be selected by voice input. Can do.
[0096]
Further, when one data file is selected, at least one of the voice input unit and the voice recognition unit is turned off to control the display form of the medical image of the selected data file by a general input operation. Sometimes, it is possible to prevent malfunction due to unnecessary voice input.
[0098]
In addition, series data consisting of a plurality of continuous tomographic images of the subject is stored, and when displaying a large number of tomographic images of one series data one by one, the support mechanism is supported so as to be swingable in a predetermined direction. The operating member is urged with a plurality of different pressures from a plurality of operation positions to one initial position, and swings are individually detected and displayed from one initial position of the operation member to a plurality of operation positions. By switching multiple tomographic images at multiple switching speeds corresponding to multiple-stage input operations on the operating member, multiple series of input operations on a single operating member can be performed to obtain medical images of series data at multiple variable speeds. The switching display can be performed, and the operation member automatically returns to the initial position when the input operation is canceled, so that the medical image displayed by switching can be stopped instantaneously.
[0099]
In addition, series data consisting of axial tomographic images is stored, and longitudinal MPR images in the coronal direction and sagittal direction are generated from a plurality of continuous tomographic images. By displaying the entire MPR image in the horizontal direction, the entire MPR image in the coronal direction and the sagittal direction is displayed at a time, so that the operator can easily grasp the overall image of the subject. In particular, since two vertically long MPR images are arranged and displayed in the horizontal direction, the MPR image can be displayed without waste even if the display unit is horizontally long.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a logical structure of a tomographic inspection system according to an embodiment of the present invention.
FIG. 2 is a perspective view showing an appearance of a tomographic inspection system.
FIG. 3 is a perspective view showing an appearance of the image display device.
FIG. 4 is a block diagram illustrating a physical structure of the image display device.
FIG. 5 is a plan view showing an appearance of a control unit.
FIG. 6 is an exploded perspective view showing the relationship between the input operation device and the control unit.
FIG. 7 is an exploded perspective view showing an assembly structure of the input operation device.
FIG. 8 is a side view showing the operation of the input operation device.
FIG. 9 is a schematic diagram showing status data assigned to series data.
FIG. 10 is a schematic diagram showing status data assigned to series data.
FIG. 11 is a front view illustrating a state in which a tomographic image that is a medical image is displayed on the display unit.
FIG. 12 is a schematic diagram showing a data structure of series data.
FIG. 13 is a front view showing a state in which an MPR image, which is a medical image, is displayed on the display unit.
FIG. 14 is a flowchart showing a main routine of an image display method by the image display device.
FIG. 15 is a flowchart showing a subroutine in a voice mode.
FIG. 16 is a flowchart showing a display control subroutine corresponding to an input operation to the input operation device;
FIG. 17 is a longitudinal side view showing a first modification of the input operation device.
FIG. 18 is a longitudinal side view showing a second modification of the input operation device.
[Explanation of symbols]
100,500,600 input operation device
200 Control unit which is mode operation means, display operation means and selection operation means
211 Display unit
300 Image display device
301 CPU which is the main body of computer
303 ROM as an information storage medium
304 RAM as an information storage medium
305 HDD as information storage medium
306 FD as an information storage medium
308 CD-ROM as information storage medium
310 Microphone as voice input means
322 image storage means
323 Mode setting means
324 Voice recognition means
325 Data retrieval means
326 Image display means
327 List display means
328 Data selection means
329 Display control means

Claims (7)

Image storage means for storing a medical image data file taken from a large number of subjects together with at least a subject name and a subject ID (Identity);
Mode operation means for accepting an input operation for switching and setting the operation mode;
A mode setting means for switching and setting a plurality of operation modes including at least a voice mode in response to an input operation to the mode operation means;
Voice input means for receiving voice input in a state where the voice mode is switched and set;
Voice recognition means for recognizing voice input to the voice input means as at least one of the subject name and the subject ID;
Data search means for searching the data file from the image storage means using the recognition result of the voice recognition means as a search key ;
A list display means for displaying a list of various data containing the said subject ID and at least the subject name before Symbol data retrieval means a plurality of the data files searched,
When information for selecting one of the data files displayed in a list is input to the voice input means and recognized by the voice recognition means, the corresponding one of the data files is selected and sent to the image display means. Data selection means to be displayed;
Image display means for displaying a medical image of one selected data file;
Display operation means for receiving an input operation for controlling the display form of the medical image;
Display control means for controlling the display form of the medical image in response to an input operation to the display operation means;
With
The mode display unit is an image display device that turns off the voice input unit and the voice recognition unit when one of the plurality of data files is selected by a voice input operation . The image storage means stores the series data composed of a plurality of continuous tomographic images of the subject as at least a part of a number of the data files,
The image display means displays a large number of the tomographic images of the series data one by one,
The display operation means receives an input operation for switching the displayed tomographic image in a continuous direction;
The image display device according to claim 1, wherein the display control unit switches the displayed tomographic image in a continuous direction in response to an input operation to the display operation unit. The display operation means includes an operation member to be input, a support mechanism that supports the operation member so as to be swingable in a predetermined direction, and pressures that are different from a plurality of operation positions to one initial position A plurality of swing return means that are urged by, and a plurality of swing detection means that individually detect the swing of the operation member from the initial position to the plurality of operation positions. And
The image display device according to claim 2, wherein the display control unit switches the displayed tomographic image at a plurality of stages of switching speeds corresponding to a plurality of stages of input operations to the operation member of the display operation unit. The image storage means stores the series data composed of a plurality of continuous axial tomographic images as at least a part of the data file,
The display control means generates data of a longitudinal MPR (Multi Planar Reformat) image in a coronal direction and a sagittal direction from a plurality of continuous tomographic images,
The image display device according to any one of claims 1 to 3, wherein the image display means displays the entire vertically long MPR image in a coronal direction and a sagittal direction in a horizontal direction. An image display method for an image display device according to claim 1,
An image storage step of storing a medical image data file taken from a large number of subjects together with at least a subject name and a subject ID;
A mode operation process for accepting an input operation for switching the operation mode;
A mode switching step for switching and setting a plurality of operation modes including at least the voice mode corresponding to the input operation in this mode operation step;
A voice input step of receiving voice input in a state where the voice mode is switched and set;
A speech recognition step for recognizing the input speech in this speech input step as at least one of the subject name and the subject ID;
A data search step for searching the data file from the image storage step using the recognition result of the voice recognition step as a search key ;
A list display step of displaying a list of various data containing the said subject ID and at least the subject name before Symbol data search step plurality of the data files searched,
A data selection step of selecting and displaying one corresponding data file when information for selecting one of the listed data files is input by voice and recognized by the voice recognition step;
An image display step for displaying a medical image of the selected one data file;
A display operation step for receiving an input operation for controlling the display form of the medical image;
A display control step for controlling a display form of the medical image in response to an input operation in the display operation step;
A step of turning off voice input means and voice recognition means when one of the plurality of data files is selected;
An image display method comprising: A computer program for the image display device according to claim 1,
An image storage process for storing a data file of medical images taken from a large number of subjects together with at least a subject name and a subject ID;
A mode operation process for accepting an input operation for switching the operation mode;
A mode switching process for switching and setting a plurality of operation modes including at least a voice mode in response to an input operation in the mode operation process;
A voice input process for receiving voice input in a state where the voice mode is switched and set;
A voice recognition process for recognizing the input voice in the voice input process as at least one of the subject name and the subject ID;
A data search process for searching the data file from the image storage process using the recognition result of the voice recognition process as a search key ;
A list display process for displaying a list of various data containing the said subject ID and at least the subject name of the plurality of the data files retrieved in the previous SL data search process,
A data selection process for selecting and displaying one corresponding data file when information for selecting one of the listed data files is input by voice and recognized by the voice recognition process;
An image display process for displaying a medical image of the selected one data file;
A display operation process for receiving an input operation for controlling the display form of the medical image;
A display control process for controlling the display form of the medical image in response to an input operation in the display operation process;
When one of the plurality of data files is selected, a process of turning off the voice input means and the voice recognition means;
A computer program for causing the image display device to execute.   An information storage medium storing a computer program for the image display apparatus according to claim 1, wherein the computer program according to claim 6 is stored.

Images