JP2005253574A - Apparatus and method for medical imaging control - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve a efficiency of transfer processing for a medical imaging control apparatus controlling a medical imaging apparatus for imaging for diagnostic purposes. <P>SOLUTION: The medical imaging control apparatus is equipped with a housing means 122 for housing input examination demanding signals and information, an imaging condition setting means 121a for setting imaging conditions for the imaging by the medical imaging apparatus based on the input information, and a transfer means by which the input examination demanding signals and the information are accumulated in the housing means in a first mode, and a plurality of examination demanding signals and the information accumulated in the first mode are transferred to a mobile terminal together with the corresponding imaging conditions set by the imaging condition setting means in a second mode when the examination demanding signals and information to be transferred are input in the mobile terminal. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a medical image photographing control device that controls a medical image photographing device that performs photographing for diagnostic purposes. Furthermore, the present invention relates to a medical image capturing control method used in such a medical image capturing control apparatus.

  Conventionally, imaging methods using radiation (X-rays, α-rays, β-rays, γ-rays, electron beams, ultraviolet rays, etc.) have been used in various fields, and especially in the medical field, it is the most important for diagnosis. It has become one of the means. Since the first X-ray photography was realized, the X-ray photography method has been improved many times, and at present, a method combining a fluorescent screen and an X-ray film has become mainstream. On the other hand, in recent years, various digitized apparatuses such as X-ray CT, ultrasound, and MRI have been put into practical use, and the construction of diagnostic information processing systems and the like in hospitals is being promoted. Much research has been done to digitize X-ray images, but a radiographic method using a stimulable phosphor has been established and is attracting attention as a replacement for conventional X-ray photography.

  A stimulable phosphor (storable phosphor) is a part of its radiation energy that is stored when irradiated with radiation. After that, when it is irradiated with excitation light such as visible light, it emits light according to the stored energy. It has been known for a long time. A radiographic method using this is to capture and record a radiographic image of a subject such as a human body on a sheet coated with a photostimulable phosphor using an image taking device, and use the image reading device to capture the photostimulable fluorescence. When the body sheet is scanned with excitation light such as laser light, stimulated emission light is generated. Image data is obtained by photoelectrically reading this light. Furthermore, after appropriately processing this image data using an image processing apparatus, the image data can be output to a display such as a CRT, or printed on a film by a laser printer or the like to display a radiation image as a visible image.

  Such a radiographic method has performance comparable to that of a conventional X-ray photography method in terms of imaging sensitivity and image quality. For example, compared with the conventional X-ray photography method, the exposure area is extremely wide, and the response of the photostimulated light to the exposure amount is almost proportional over the entire exposure area. For this reason, no matter what radiation dose the subject is photographed, it is possible to capture the emission region where the image exists and normalize it into a digital signal without excess or deficiency. Further, by combining the signal obtained in this way with an appropriate image processing method, it is possible to provide a steady and high-quality image even under various shooting conditions. Furthermore, since the digitized image information is obtained directly, it is possible not only to store a large amount of data for a long period of time without causing deterioration in image quality, but also to develop into a medical diagnosis information system. Become.

  In recent years, hospital information management systems (HIS) and radiology information management systems (RIS) that manage work based on the progress of examinations, etc. have been used. Imaging by a medical imaging apparatus such as a radiographic apparatus may be controlled using a medical imaging control apparatus connected to the system via a network. Specifically, an inspection request signal issued in an ordering apparatus such as RIS is input to the medical image capturing control apparatus from the ordering apparatus via the network together with the inspection information, and the medical image capturing control apparatus receives the inspection information. Based on this, an imaging condition such as an X-ray dose is set, and an examination request signal is transferred together with the imaging condition to the medical image imaging apparatus connected to the medical image imaging control apparatus.

  On the other hand, when photographing an inpatient who is incapable of moving, a portable medical image photographing apparatus that is easy to move is brought into the patient's room to perform portable photographing. In portable imaging, a medical imaging control device transfers an inspection request signal together with imaging conditions to a mobile terminal (mobile terminal) such as a PDA (personal digital assistant) in advance. The stored examination request signal, imaging conditions, and the like are transmitted to a portable medical imaging apparatus.

  FIG. 5 is a flowchart showing a conventional transfer operation. As shown in FIG. 5, in step S101, the ordering apparatus issues an examination request signal, and outputs the examination request signal together with examination information and the like to the medical image photographing control apparatus via the network. In step S102, the medical image photographing control apparatus receives an examination request signal and examination information issued by the ordering apparatus, and sets imaging conditions. In step S103, the medical image photographing control device transfers the examination request signal, photographing conditions, and the like to the mobile terminal. In step S104, when the inspection request signal to be issued remains, the process proceeds to step S101, and steps S101 to S103 are repeated. When the inspection request signal to be issued does not remain, the transfer operation is terminated. Thus, by repeating the operations in steps S101 to S103, a series of inspection request signals can be transferred to the mobile terminal.

  However, in the conventional transfer operation, the transfer of the inspection request signal from the medical image capturing control apparatus to the mobile terminal is performed once for each inspection request signal, and each time between the medical image capturing control apparatus and the mobile terminal. Therefore, there is a problem in that the efficiency of the transfer process is poor. Here, the negotiation is to determine communication settings such as the communication speed between the medical imaging control device and the mobile terminal while exchanging information with each other. The confirmation process is a process in which the transferred examination request signal is Whether it is the same as the inspection request signal that has already been transferred, whether the inspection corresponding to the transferred inspection request signal is an inspection capable of portable imaging, and the number of inspections that can be performed using the mobile terminal is exceeded It is to check whether or not.

  On the other hand, in order to improve the efficiency of the transfer process, by directly connecting the ordering device and the mobile terminal, a plurality of examination request signals are transmitted from the ordering device to the mobile terminal without going through the medical imaging control device. It is also possible to do this. In that case, imaging is performed using the medical imaging apparatus to which the examination request signal is transmitted from the mobile terminal, and after the imaging is performed, imaging information such as imaging results is transmitted from the mobile terminal to the medical imaging control apparatus. The medical image photographing control device stores photographing information transmitted from the mobile terminal, and returns the photographing result to the ordering device. However, in this case, since the imaging conditions cannot be obtained by the medical image capturing control device, it is necessary for the imaging engineer to set the imaging conditions by operating the mobile terminal, and there is a problem that the setting operation becomes complicated. .

  As a related technique, the following Patent Document 1 discloses a mobile radiation image information imaging apparatus that eliminates the need to carry a large number of cassettes and enables ID registration each time imaging is performed. . According to Patent Document 1, ID information registration means such as a subject's name, sex, imaging date, imaging method, imaging site, and the like are integrated with the imaging apparatus without online connection to the image reading apparatus. Registration of ID information can be performed every time one image is taken, registration work can be performed quickly, and input errors can be prevented from occurring. However, since registration of ID information is performed using a keyboard integrated with the photographing apparatus, it is necessary to register manually using the keyboard even when the start of the inspection is requested by the ordering apparatus. May occur.

Further, in Patent Document 2 below, round trip X-rays that can eliminate troublesome work and errors in superimposed display due to superimposed display of subject information on an X-ray photograph created from an exposed cassette. An imaging device is disclosed. According to Patent Document 2, the mobile terminal stores X-ray imaging information and cassette conditions for each subject downloaded from the host computer in association with the subject, and is connected to the terminal body of the mobile terminal. Since the barcode information on the barcode label affixed to the film cassette is scanned by the barcode reader to read the cassette information, the cassette condition is matched with the cassette information, and the cassette information is stored in association with the subject information. Therefore, it is possible to eliminate the complexity of the work and the error of the superimposed display due to the superimposed display of the subject information on the X-ray photograph created from the exposed cassette. However, details of download for transferring X-ray imaging information and the like from the host computer to the portable terminal are not described.
JP-A-1-97945 (pages 3-4, 6 and FIG. 1) Japanese Patent Laying-Open No. 2003-210446 (pages 2, 6, 8 and FIG. 1)

  In view of the above, an object of the present invention is to improve the efficiency of transfer processing in a medical image photographing control apparatus that controls a medical image photographing apparatus that performs photographing for diagnostic purposes.

  In order to solve the above problems, a medical image photographing control device according to the present invention is a medical image photographing control device that controls a medical image photographing device that performs photographing for diagnostic purposes, and includes information about an input examination request signal and photographing. Storage means for storing the image, imaging condition setting means for setting imaging conditions in imaging performed by the medical image capturing apparatus based on the input information, and a mobile terminal used for controlling the movable medical image capturing apparatus When the inspection request signal and information to be transferred are input, the input inspection request signal and information are accumulated in the storage means in the first mode, and are accumulated in the first mode in the second mode. Transfer means for transferring a plurality of inspection request signals and information together with corresponding shooting conditions set by the shooting condition setting means to a mobile terminal;

  The medical image capturing control method according to the present invention is a medical image capturing control method for controlling a medical image capturing apparatus that performs imaging for diagnostic purposes, and is used for controlling a movable medical image capturing apparatus. Step (a) of storing the inputted examination request signal and information in the first mode when the examination request signal and information to be transferred to the terminal are inputted, and medical imaging based on the inputted information Step (b) for setting photographing conditions in photographing performed by the apparatus, and a plurality of inspection request signals and information accumulated in the first mode in the second mode, the corresponding photographing set in step (b). And (c) transferring to the mobile terminal together with the conditions.

  According to the present invention, the inspection request signal and information accumulated in the first mode can be collectively transferred to the mobile terminal in the second mode, thereby improving the efficiency of the transfer process.

Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings. The same constituent elements are denoted by the same reference numerals, and the description thereof is omitted.
FIG. 1 is a block diagram showing a configuration of a medical image photographing system including a medical image photographing control device according to an embodiment of the present invention. As shown in FIG. 1, in the radiology department, a medical image photographing apparatus 10 and a portable device that record a radiation image on a recording sheet (stimulable phosphor sheet) 1 by irradiating a subject with radiation and photographing. Medical image photographing apparatus 20, medical image photographing control apparatus 30 for controlling medical image photographing apparatus 10, and medical image reading for photoelectrically reading information such as a radiographic image recorded on recording sheet 1 to generate image data PDA (personal) which is connected to the apparatus 40 and the portable medical image capturing apparatus 20 or the medical image capturing control apparatus 30 and receives information such as imaging conditions from the medical image capturing control apparatus 30 and transmits it to the portable medical image capturing apparatus 20 A mobile terminal (mobile terminal) such as a digital assistant (personal information terminal) 50 is arranged.

  Here, the medical image capturing device 10 and the medical image capturing control device 30 are serially connected, and the medical image capturing control device 30 and the medical image reading device 40 are connected via a network. The portable medical image capturing device 20 or medical image capturing control device 30 and the PDA 50 can be connected using a USB (universal serial bus).

  In the radiology department, an archive 60 for recording image data processed in the medical image capturing control device 30, a printer 70 for printing a radiation image on a film, and the like, and performing various tasks related to radiation imaging. The RIS 80 to be managed and the reception terminal 90 are connected to the medical image capturing control device 30 via a network. The RIS 80 is connected via a network to the HIS 100 that manages the operations of the entire hospital and the reception terminal 110 of the hospital.

  A recording sheet 1 used for radiography is coated with a stimulable phosphor material, and information on an object is recorded by irradiation with radiation. In the medical image photographing apparatus 10, the subject is radiographed under predetermined photographing conditions, and the radiographic image is recorded on the recording sheet 1.

  The medical image photographing apparatus 10 moves the position of the recording sheet 1 set at a predetermined position of the medical image photographing apparatus 10 up and down to finely adjust the photographing position raising / lowering mechanism 11 that raises and lowers the photographing position of the subject. And an imaging table 12 for determining the position of the subject's foot, a radiation generating unit 13 for irradiating the subject with radiation, and an interface 14 to which a control signal is input from the medical imaging control device 30. .

  The medical imaging apparatus 20 includes an imaging table 21 that holds the recording sheet 1 on top, a radiation generation unit 22 that irradiates the subject with radiation, and fine adjustment of the position of the radiation generation unit 22. It includes an irradiation position adjusting mechanism 23 for finely adjusting an irradiation position for a person, and an interface 24 to which information such as photographing conditions transmitted from the PDA 50 is input. When the subject is an inpatient, an inpatient bed may be used as the imaging table 21.

  The medical image photographing control device 30 is a console that outputs information such as photographing conditions to the medical image photographing device 10 and the PDA 50. The medical image photographing control device 30 includes an input unit 31 used for inputting patient information and various commands, and the recording sheet 1. A bar code reader 32 that reads a bar code attached to a cassette that stores the data, a display unit 33 that displays an examination corresponding to the inputted examination request signal, a radiographic image, and the like, and a processing unit 120 are included. The processing unit 120 controls the medical image photographing apparatus 10 by outputting information such as photographing conditions to the medical image photographing apparatus 10 based on the input examination request signal, and stores the photographing conditions and the like stored therein. Are collectively output to the PDA 50. Further, the processing unit 120 performs various processes on the image data input from the medical image reading device 40, and delivers the image data to a recording device such as the archive 60 and an output device such as the printer 70.

  The medical image reading device 40 scans the surface of the recording sheet 1 set at a predetermined position by a light beam emitted from the laser light source 41 and passed through the light scanning unit 42. By this scanning, a light beam is irradiated onto the recording sheet 1, and an amount of stimulated emission light corresponding to the radiation image information accumulated and recorded is generated from the portion irradiated with the light beam. The photostimulated emission light is photoelectrically detected by a photomultiplier (photomultiplier tube) 43, output as an analog signal, amplified by an amplifier 44, and digitized by an A / D converter 45. Further, the barcode attached to the cassette storing the recording sheet 1 is read by the barcode reader 46, and the read barcode information is used as image supplementary information corresponding to patient information and examination information. The image data and the image supplementary information generated in this way are transmitted from the output unit 47 to the medical image capturing control device 30 via the network.

  The PDA 50 includes an input unit 51 used for inputting various commands and the like, a barcode reader 52 for reading a barcode attached to a cassette for storing the recording sheet 1, and an inspection corresponding to the input inspection request signal. The display part 53 which displays etc., and the process part 54 are included. The processing unit 54 stores the inputted information such as the examination request signal and the imaging conditions in association with the barcode read by the barcode reader 52 and stores the information such as the imaging conditions etc. in the medical image photographing apparatus 20. Send to.

  The archive 60 records image data and image supplementary information delivered from the medical image photographing control device 30. The printer 70 prints a medical image on a film or the like based on the image data delivered from the medical image photographing control device 30.

  The RIS 80 functions as an ordering device by outputting an examination request signal, patient information, and examination information to the medical imaging control apparatus 30 to start examination. Similarly, the HIS 100 can also function as an ordering apparatus based on an electronic medical record DB (data base) 101. In addition, an ordering apparatus that operates according to a specially developed application program may be provided separately.

  The reception terminal 110 is used to input patient information such as the name and patient ID of a patient who is a subject at the reception of a hospital. It is used for inputting examination information such as an imaging menu representing an area, an examination number, and an examination date. The patient information and the examination information may be input using the input unit 31 of the medical image capturing control device 30 or the radiology reception terminal 90. In the electronic medical record DB 101, patient information, examination information, and the like input using the reception terminal 90 or 110 are registered.

  When photographing an inpatient who is incapable of moving, a portable medical imaging device that is easy to move is brought into the patient's room to perform portable imaging. In portable imaging, the medical imaging control device transfers the inspection request signal together with imaging conditions to a mobile terminal such as a PDA in advance, and the mobile terminal stores the stored inspection request signal and imaging conditions in the portable medical device. It is sent to the image capturing device.

  In this embodiment, when transferring a plurality of examination request signals and imaging conditions input from the ordering apparatus to the medical imaging control apparatus to the mobile terminal, once for each examination request signal. Do not do. Instead, the medical image photographing control device sets the PDA transfer mode based on the signal representing the setting of the PDA transfer mode input from the ordering device, so that the input examination request signal, the imaging conditions, and the like are input to the PDA 50. Accumulated as a signal to be transferred, and by canceling the PDA transfer mode based on the signal indicating the cancellation of the PDA transfer mode input from the ordering device, the stored inspection request signal, imaging conditions, etc. are transferred to the PDA 50 at once. doing.

  FIG. 2 is a block diagram showing a detailed configuration of the medical image photographing control apparatus shown in FIG. The processing unit 120 includes a central processing unit (hereinafter referred to as a CPU) 121, a memory 122 that temporarily stores input image data, an inspection request signal, and the like, a hard disk 123 as a recording medium, and a hard disk control unit 124. The network interface 125 is included. These portions 121 to 125 are connected to each other via a bus line. Further, the processing unit 120 includes interfaces 126 to 128.

  The memory 122 temporarily stores examination request signals and the like input from the ordering device, barcode information read using the barcode reader 32, and image data and image supplementary information received from the medical image reading device. To do. The CPU 121 is connected to an input unit 31 such as a keyboard and a mouse and a display unit 33 such as a CRT display via an interface 126, and is connected to the medical image photographing apparatus 10 via an interface 127, and is connected to a network. 1 is connected to the medical image reading apparatus 40, the archive 60, the printer 70, the RIS 80, and the reception terminal 90 shown in FIG. Further, the CPU 121 can be connected to the PDA 50 via the interface 128.

  The hard disk 123 stores software (program) for causing the CPU 121 to perform an operation. In addition to the built-in hard disk 123, an external hard disk, flexible disk, MO, MT, RAM, CD-ROM, DVD-ROM, or the like can be used as the recording medium.

Next, functional blocks 121a to 121e configured by the CPU 121 and software (program) will be described.
The imaging condition setting unit 121a sets imaging conditions based on examination information and / or patient information corresponding to an examination request signal input from the ordering apparatus, and shoots in correspondence with the examination request signal, patient information, and examination information. Shooting condition information representing the condition is stored in the memory 122.

  When inputting an examination request signal for a portable medical imaging apparatus from the ordering device, the examination request signal transfer unit 121b is based on an operator's operation using the input unit 31 or patient information inputted from the ordering device. To set the PDA transfer mode. In the PDA transfer mode, the test request signal transfer unit 121b transfers a plurality of test request signals input from the ordering apparatus and patient information, test information, and imaging condition information corresponding to the test request signals to the PDA 50. It is stored in the memory 122 as a power signal.

  The inspection request signal transfer unit 121b cancels the PDA transfer mode, for example, based on an operator's operation using the input unit 31 or when a predetermined number of inspection request signals are input in the PDA transfer mode. When the PDA transfer mode is canceled and the normal mode is restored, the test request signal transfer unit 121b includes a plurality of test request signals stored in the memory 122 in the PDA transfer mode, and patient information corresponding to the test request signals, The inspection information and the imaging condition information are read from the memory 122, and a plurality of inspections are collectively transferred to the PDA 50 via the interface 128. Thereafter, the PDA 50 controls at least one portable medical imaging apparatus, whereby a plurality of examinations are performed.

  Here, the examination request signal transfer unit 121b determines whether the examination requested by the examination request signal is an examination using a portable medical imaging apparatus or an examination using a normal medical imaging apparatus. You may make it judge based on information. When the requested examination is an examination using a portable medical imaging device, the examination request signal transfer unit 121b sets the PDA transfer mode based on patient information input from the ordering apparatus.

  On the other hand, when the requested examination is an examination using a normal medical imaging apparatus, the imaging control unit 121c performs a normal medical image based on imaging condition information corresponding to the examination stored in the memory 122. The inspection is performed by controlling the photographing apparatus. Further, the imaging control unit 121c causes the display unit 33 to output patient information and examination information corresponding to the examination request signal from the output unit 121e via the interface 126. The patient information and the examination information are supplied to the display unit 33 of the medical image photographing control apparatus, and are displayed on the display unit 33 as examination information representing the examination for which the examination request has been issued.

  After the examination, the radiation information recorded on the recording sheet used for radiography is read by the medical image reading device, and image data is generated. The image processing unit 121d performs necessary image processing on the image data received from the medical image reading apparatus. The image data subjected to the necessary image processing is supplied from the output unit 121e to the display unit 33 via the interface 126, and an image is displayed on the display unit 33, and the image is confirmed by the operator. Further, the image data on which necessary image processing has been performed is stored in the memory 122 and recorded on the hard disk 123 via the hard disk control unit 124 or archive 60 via the network interface 125 in accordance with an operator instruction. Delivered to.

  In this embodiment, the imaging condition setting unit 121a, the imaging control unit 121c, the inspection request signal processing unit 121b, the image processing unit 121d, and the output unit 121e are configured by a CPU and software. You may comprise with a circuit.

  Next, the operation of the medical image capturing system including the medical image capturing control apparatus according to the present embodiment will be described with reference to FIGS. FIG. 3 and FIG. 4 are flowcharts showing the operation of the medical image photographing system in photographing using the portable medical image photographing device.

  In the operation in photographing using the portable medical image photographing device 20, first, as shown in FIG. 3, the operator connects the PDA 50 to the medical image photographing control device 30 in step S1. Next, in step S <b> 2, the operator operates the input unit 31 of the medical image capturing control device 30 to instruct the setting of the PDA transfer mode. In step S3, the inspection request signal transfer unit 121b receives a signal instructing the setting of the PDA transfer mode from the input unit 31, and sets the PDA transfer mode based on the signal.

  In step S <b> 4, the ordering apparatus issues an order, and outputs an examination request signal, patient information, and examination information to the medical imaging control apparatus 30. In step S5, the medical imaging control apparatus 30 receives the order and inputs an examination request signal, patient information, and examination information. In step S <b> 6, the memory 122 of the medical imaging control device 30 stores the input examination request signal, patient information, and examination information as signals to be transferred to the PDA 50. Note that each of the examination request signal, the patient information, and the examination information may be input by the operator using the input unit 31 of the medical image capturing control device 30.

  In step S7, the inspection request signal transfer unit 121b determines whether or not the operator has instructed cancellation of the PDA transfer mode. If release of the PDA transfer mode is not instructed, the process returns to step S4, and the input examination request signal, patient information, and examination information are stored in the memory 122. If cancellation of the PDA transfer mode is instructed, the process proceeds to step S8.

  The instruction to cancel the PDA transfer mode may be issued when the inspection request signal is not input from the ordering apparatus for a certain period, or the number of input inspection request signals is counted, and the number of inspection request signals is It may be performed when the specified number is reached. The number of inspection request signals may be designated by an operator using an ordering device. Also, a PDA transfer trigger signal is defined with the ordering device, and when the medical image capturing control device 30 receives the PDA transfer trigger signal, the PDA transfer mode is canceled and an examination request signal or the like is sent to the PDA 50. It may be transferred.

  If cancellation of the PDA transfer mode is instructed, in step S8, the inspection request signal transfer unit 121b cancels the PDA transfer mode and returns to the normal mode. Further, in step S9, the examination request signal transfer unit 121b sends the examination request signal, patient information, and examination information stored in the memory 122 in the PDA transfer mode as a signal to be transferred to the PDA 50 via the interface 128. The information is transferred to the PDA 50 together with the respective shooting condition information.

  It should be noted that the input unit 51 of the PDA 50 is used in advance to set whether or not the inspection request signal can be received, the number of inspections that can be received, the type of inspection request signal corresponding to the inspection that cannot be received, and the like. When the transfer mode is set or within the PDA transfer mode setting period, the inspection request signal transfer unit 121b receives the information from the PDA 50 and controls the transfer process to the PDA 50 based on the information. May be.

  In step S <b> 10, the operator removes the PDA 50 from the medical image capturing control device 30 and connects it to the portable medical image capturing device 20. At this time, the portable medical imaging device 20 is moved to a patient's room or the like. In step S <b> 11, the processing unit 54 outputs the transferred patient information and examination information to the display unit 53. In step S12, the display unit 53 displays the inspection information. In step S13, the operator uses the barcode reader 52 to read the barcode attached to the cassette that stores the recording sheet used for photographing.

  Referring to FIG. 4, in step S14, the processing unit 54 stores the barcode information generated by reading the barcode. In step S <b> 15, the operator confirms the inspection information displayed on the display unit 53 and inputs an inspection start command using the input unit 51. In step S <b> 16, the processing unit 54 controls the portable medical image capturing apparatus 20 to start the examination based on the patient information and examination information corresponding to the examination.

  In step S17, under the control of the processing unit 54, the portable medical imaging device 20 irradiates the subject with radiation based on the patient information and the examination information related to the examination for which the examination start command is input by the operator. Thus, a radiographic image is taken, and the radiographic image is recorded on a recording sheet. The processing unit 54 deletes the inspection request signal related to the inspection to which the inspection start command is input from the stored inspection request signal, and the bar code information stored in step S14 is input to the inspection start command. The patient information related to the examination and the examination information are stored in correspondence with each other.

  In step S <b> 18, the operator connects the PDA 50 to the medical image capturing control device 30 again. In step S19, the examination request signal transfer unit 121b inputs the patient information and examination information stored in the processing unit 54 and the barcode information corresponding to the patient information and examination information from the interface 128, and the memory 122. Remember me.

  In step S20, the medical image reading device 40 generates image data by reading the radiation image recorded on the recording sheet 1, and transmits the generated image data to the medical image photographing control device 30 together with the barcode information. .

  In step S <b> 21, the memory 122 of the medical image capturing control device 40 stores the image data and barcode information received from the medical image reading device 40. Here, the memory 122 associates the barcode information received from the medical image reading device 40 with the barcode information input from the PDA 50, thereby associating the image data with the patient information and the examination information, thereby obtaining the patient information and the examination information. Information is stored as image supplementary information.

  In step S <b> 22, the image processing unit 121 d of the medical image capturing control device 30 performs image processing on the image data stored in the memory 122. In step S23, a medical image is displayed on the display unit 33 based on the image data that has been subjected to image processing, and is confirmed by the operator.

  In step S <b> 24, the operator instructs delivery of image data or the like using the input unit 31, so that the image data and the image supplementary information are delivered to the archive 60 or the printer 70.

  In the above, the PDA transfer mode is set according to an instruction from the operator. However, the PDA transfer mode may be set based on patient information or examination information input from the ordering apparatus. That is, information indicating the patient's state indicating whether or not walking is included in the patient information, the imaging room included in the examination information, whether or not portable imaging is performed, the imaging location such as a hospital room, or the imaging technician In addition, based on whether or not the information representing the imaging region included in the examination information includes a portable imaging menu such as a portable chest appearance, whether or not the examination is performed by the PDA 50 is transferred. The part 121b determines. When the examination request signal transfer unit 121b determines that the examination is performed by the PDA 50, the examination request signal transfer unit 121b sets the PDA transfer mode, and the examination request signal and patient information related to the examination are stored in the memory 122 as signals to be transferred to the PDA 50. Accumulated. As a result, the transfer omission to the PDA 50 can be prevented, so that the business efficiency can be improved.

  In that case, it is determined whether or not to store the inputted examination request signal, patient information, etc. in the memory 122 as a signal to be transferred to the PDA 50. The number of request signals may be counted, and the PDA transfer mode may be canceled based on the number. Alternatively, the PDA transfer mode may be canceled when the inspection request signal to be transferred to the PDA 50 is not input within a predetermined period after the inspection request signal to be transferred to the PDA 50 is last input.

  According to the present embodiment, the examination request signal transfer unit 121b collectively transfers the examination request signal, patient information, and examination information stored in the memory 122 to the PDA 50 via the interface 128. It is not necessary to perform transfer processing for each examination corresponding to the above, and the number of negotiations and confirmation processing between the medical image capturing control device 30 and the PDA 50 can be reduced, the processing speed can be increased, and the work efficiency can be improved. . In the case of canceling the inspection, the inspection can be easily canceled by deleting the inspection request signal from the memory 122 before transferring the inspection request signal to the PDA 50.

  Further, the operability can be improved by releasing the PDA transfer mode based on a signal representing the release of the PDA transfer mode input from the ordering apparatus. Further, the number of inspections corresponding to the input inspection request signal is counted, and the inspection is performed based on information indicating the number of inspections output from the ordering apparatus, or when the inspection request signal is not output from the ordering apparatus for a certain period. As a result, it is possible to prevent transfer leakage.

  In the present embodiment, an example of a medical image capturing system including one medical image capturing control device and one PDA has been described. However, the medical image capturing system includes a plurality of medical image capturing control devices and a plurality of PDAs. The examination request signal transfer unit of any one of the medical imaging imaging control devices to which the examination request signal or the like is input from the ordering device is assigned to the examination request. Based on the information representing the hospital room, imaging region, etc. included in the examination information corresponding to the signal, refer to the database recorded in the hard disk, etc., and search for the medical imaging control device to which the PDA in charge is connected, An examination request signal or the like may be transferred to the medical image photographing control apparatus. This eliminates the need for the operator to manually sort and transfer examination request signals and the like to each medical image capturing control apparatus, thereby improving operability and improving work efficiency.

  The present invention can be used in a medical imaging control apparatus that controls a medical imaging apparatus that performs imaging for diagnostic purposes, connected to an ordering apparatus such as a radiology information management system via a network.

1 is a block diagram illustrating a configuration of a medical image photographing system including a medical image photographing control device according to an embodiment of the present invention. It is a block diagram which shows the detailed structure of the medical image imaging control apparatus shown in FIG. It is a flowchart which shows operation | movement of the medical image imaging system in imaging | photography using a portable medical image imaging device. It is a flowchart which shows operation | movement of the medical image imaging system in imaging | photography using a portable medical image imaging device. It is a flowchart which shows the conventional transfer operation | movement.

Explanation of symbols

1 Recording sheet (stimulable phosphor sheet)
DESCRIPTION OF SYMBOLS 10 Medical imaging device 11 Imaging position raising / lowering mechanism 12 Imaging stand 13 Radiation generation part 14 Interface 20 Portable medical imaging device 21 Imaging stand 22 Radiation generation part 23 Irradiation position adjustment mechanism 24 Interface 30 Medical imaging control apparatus 31 Input part 32 Barcode reader 33 Display unit 40 Medical image reading device 41 Laser light source 42 Optical scanning unit 43 Photomultiplier (photomultiplier tube)
44 Amplifier 45 A / D Converter 46 Barcode Reader 47 Output Unit 50 PDA
51 Input Unit 52 Barcode Reader 53 Display Unit 54 Processing Unit 60 Archive 70 Printer 80 RIS
90 Reception terminal 100 HIS
101 Electronic medical record DB
110 Reception terminal 120 Processing unit 121 Central processing unit (CPU)
121a imaging condition setting unit 121b inspection request signal transfer unit 121c imaging control unit 121d image processing unit 121e output unit 122 memory 123 hard disk 124 hard disk control unit 125 network interface 126 to 128 interface

Claims (10)

A medical image photographing control device that controls a medical image photographing device that performs photographing for diagnostic purposes,
Storage means for storing the input inspection request signal and information related to imaging;
An imaging condition setting means for setting an imaging condition in imaging performed by the medical image capturing apparatus based on the input information;
When the examination request signal and information to be transferred to the mobile terminal used for controlling the movable medical imaging apparatus are inputted, the inputted examination request signal and information are stored in the storage means in the first mode. Transfer in which the plurality of examination request signals and information accumulated in the first mode are collectively transferred to the mobile terminal together with corresponding imaging conditions set by the imaging condition setting means in the second mode. Means,
A medical image photographing control apparatus comprising:   The medical image capturing control apparatus according to claim 1, wherein the transfer unit sets the first mode based on an operation of an operator.   The medical image capturing control apparatus according to claim 1, wherein the transfer unit sets the first mode based on information related to imaging input from an ordering apparatus connected via a network.   The medical image radiographing control apparatus according to claim 2 or 3, wherein the transfer unit cancels the first mode when an examination request signal is not input for a predetermined period from an ordering apparatus connected via a network.   4. The medical imaging control apparatus according to claim 2, wherein the transfer unit cancels the first mode when the number of input examination request signals reaches a designated number. A medical imaging control method for controlling a medical imaging apparatus that performs imaging for diagnostic purposes,
When an examination request signal to be transferred to a mobile terminal used for controlling a movable medical imaging apparatus and information related to imaging are inputted, the inputted examination request signal and information are stored in the first mode. Step (a);
A step (b) of setting photographing conditions in photographing performed by the medical image photographing device based on the input information;
(C) transferring a plurality of examination request signals and information accumulated in the first mode to the mobile terminal together with the corresponding imaging conditions set in step (b) in the second mode; ,
A medical image photographing control method comprising:   The medical image capturing control method according to claim 6, wherein step (a) includes setting the first mode based on an operation of an operator.   The medical image capturing control method according to claim 6, wherein step (a) includes setting the first mode based on information related to imaging input from an ordering apparatus connected via a network.   9. The medical imaging control according to claim 7, wherein step (c) includes releasing the first mode when an examination request signal is not input for a predetermined period from an ordering apparatus connected via a network. Method.   9. The medical image radiographing control method according to claim 7 or 8, wherein step (c) includes releasing the first mode when the number of input examination request signals reaches a specified number.

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