JP2004152067A - Medical image photography system and personal digital assistant - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To quickly transfer photograph order information in photographing a medical image during a doctor's round visit and to prevent the duplication of data. <P>SOLUTION: In this medical image photography system 100, a PDA 4a and a PDA 4b transmit/receive an ID number and a password mutually via a short-range radio communication for authorizing each other according to the received ID number and password. After the authorization, the PDA 4a transmits selected photograph order information to the PDA 4b. On receipt of the photograph order information from the PDA4a, the PDA 4b transmits the photograph order information receipt notification to the PDA 4a and stores the received photograph order information in a storage part 46. On receipt of the photograph order information receipt notification, the PDA 4a deletes the photograph order information transmitted from the storage part 46. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a medical image capturing system that captures a medical image using radiation such as X-rays, and a portable information terminal.
[0002]
[Prior art]
In recent years, from the viewpoint of ease of connection, short-range wireless communication has been used when performing communication in a PDA (Personal Digital Assistant) or a PC (Personal Computer). As the short-range wireless communication, for example, there is infrared data communication whose standard is established by IrDA (Infrared Data Association). As a technique related to the infrared data communication, for example, a plurality of infrared light transmitting / receiving ports without relying on software on a computer. There is an infrared data communication device that can be switched by hardware. (For example, see Patent Document 1).
[0003]
[Patent Document 1]
Japanese Patent Application Laid-Open No. Hei 10-187564
[Problems to be solved by the invention]
By the way, in the medical field, a medical image photographing system has been developed which performs medical image photographing using radiation such as X-rays and obtains a medical image as a digital image for diagnosing a disease in a patient.
[0005]
In a medical imaging system, a control device is connected to an information management device for inputting a shooting reservation via a network, and the control device receives and manages imaging order information for a predetermined period from the information management device. ing. Then, the control device controls the medical image reading device based on the imaging order information, reads the radiation image information of the subject accumulated in the stimulable phosphor plate by X-ray imaging, and reads the read medical image. Manage images.
[0006]
Generally, when performing X-rays by rounds in a ward, an emergency room, an operating room, etc., other than a radiology imaging room, a radiologist orders an order on which imaging order information including patient information and imaging conditions is printed. The photographing is managed manually based on the paper. Specifically, during radiography by a round-trip, the radiologist carries a round-trip X-ray device and a stimulable phosphor plate, and brings a cassette and an order sheet for storing radiographic image information to the radiographing location. At the time of radiography, the radiologist checks the patient, radiographed part, and the like for which a radiographing order has been placed on an order sheet, and performs radiographing using a cassette that has not been radiographed.
[0007]
By the way, when a plurality of technicians are performing X-ray imaging by rounds, a part of the imaging scheduled by a certain technician may be changed to the imaging by another technician. At this time, the technician must transfer a part of the changed imaging order information to the technician who performs the imaging, but if the imaging order information is managed on paper, the order information can be transferred quickly. Can not. In addition, there is a possibility that the photographing order information may be duplicated and that photographing may be duplicated.
[0008]
An object of the present invention is to enable quick transfer of imaging order information at the time of medical image imaging by round-trip using a portable information terminal, and to prevent duplication of data.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the invention described in claim 1 is
A control device that holds the imaging order information in a readable state, and that can transmit the imaging order information to an external device in response to a read command, a plurality of portable information terminals that can be connected to the control device via a communication network, With
The portable information terminal acquires and stores the imaging order information in a storage unit, performs mutual authentication with another portable information terminal with respect to a partner terminal user, and performs the other portable information when mutual authentication is performed. The transmitting and receiving of the photographing order information with the terminal, when receiving the photographing order information, transmitting a reception confirmation signal to the portable information terminal of the transmitting side, when transmitting the photographing order information, the portable information of the receiving side The medical imaging system is characterized in that after receiving a reception confirmation signal from a terminal, the transmitted imaging order information stored in the storage unit is deleted or invalidated from the storage unit.
[0010]
According to the first aspect of the present invention, a medical image photographing system holds a photographing order information in a readable state, and transmits the photographing order information to an external device in response to a read command; A plurality of portable information terminals that can be connected to the device via a communication network, the portable information terminal acquires the imaging order information and stores it in the storage unit, and mutually communicates with the other portable information terminals. Authenticates the user, sends / receives imaging order information to / from other portable information terminals when mutual authentication is performed, and sends a reception confirmation signal to the transmitting portable information terminal when imaging order information is received When transmitting the photographing order information, the transmitted photographing order information stored in the storage unit is deleted or invalidated from the storage unit after receiving the reception confirmation signal from the portable information terminal on the receiving side.
[0011]
Therefore, since the imaging order information can be transferred between the portable information terminals, the imaging order information can be easily exchanged between the technicians who have the portable information terminals when the imaging technician is changed at the roundabout. become. In transmitting and receiving the photographing order information, the authentication of the operator of both portable information terminals is performed by the partner terminal, so that transmission and reception of the photographing order information by an unauthorized person can be prevented. Further, since the transmitted imaging order information is deleted from the portable information terminal on the transmitting side, it is possible to prevent duplicate imaging due to duplication of the imaging order information.
[0012]
The invention according to claim 2 is the invention according to claim 1,
An information management device for generating imaging order information based on an imaging reservation input is provided, and the control device is configured to read the imaging order information from the information management device via the communication network.
[0013]
According to the second aspect of the present invention, there is provided an information management device for generating imaging order information based on an imaging reservation input, and the control device reads out the imaging order information from the information management device via a communication network. Therefore, the input of the photographing order information can be performed by the external information management device.
[0014]
The invention according to claim 3 is the invention according to claim 1,
An information management device that generates imaging order information based on an imaging reservation input is provided, and the portable information terminal is configured to be able to read the imaging order information from the information management device via the communication network. I have.
[0015]
According to the third aspect of the present invention, there is provided an information management apparatus for generating imaging order information based on an imaging reservation input, and the portable information terminal reads out the imaging order information from the information management apparatus via a communication network. be able to. Therefore, the portable information terminal can acquire the photographing order information without going through the control device.
[0016]
The invention according to claim 4 is the invention according to any one of claims 1 to 3,
A movable X-ray imaging apparatus that performs X-ray imaging using a cassette based on the imaging order information,
The control device includes an extracting unit that extracts order information of imaging using a cassette from the imaging order information, and transmits the extracted imaging order information to a portable information terminal.
[0017]
According to the fourth aspect of the present invention, the control device extracts, from the photographing order information, photographing order information using the cassette, and transmits the extracted photographing order information to the portable information terminal. Therefore, only the imaging order information for performing imaging using the cassette is transmitted to the portable information terminal, so that the data handled by the portable information terminal can be limited to only information necessary for X-ray imaging at the roundabout. Processing in the information terminal can be performed efficiently.
[0018]
The invention according to claim 5 is
A portable information terminal that holds the imaging order information in a readable state, and is connectable via a communication network to a control device capable of transmitting the imaging order information to the outside in response to a read command,
A receiving unit that receives the imaging order information from the control device,
A storage unit for storing the received imaging order information,
A communication unit for transmitting and receiving the photographing order information with another portable information terminal,
When performing transmission or reception of the imaging order information by the communication unit, an authentication processing unit that authenticates that the user of the partner terminal is a permitted user,
When the user of the portable information terminal on both the transmission side and the reception side is authenticated by the partner terminal, a transmission / reception control unit that controls transmission and reception of the imaging order information,
When receiving the shooting order information, a reception confirmation processing unit that transmits a reception confirmation signal to the partner terminal,
After receiving the reception acknowledgment signal, a transmitted information control unit that controls to delete transmitted imaging order information stored in the storage unit from the storage unit,
It is characterized by being a portable information terminal provided with.
[0019]
According to the fifth aspect of the present invention, the portable information terminal holds the photographing order information in a readable state, and transmits the photographing order information to the outside in response to the read command via the communication device and the control device. Is configured to receive the imaging order information from the control device, store the received imaging order information, and store when the user of the portable information terminal on both the transmitting side and the receiving side is authenticated by the partner terminal. Sending and receiving the shooting order information stored in the section, when receiving the shooting order information, send a reception confirmation signal to the partner terminal, when sending the shooting order information, after receiving the reception confirmation signal, The transmitted imaging order information stored in the storage unit is deleted from the storage unit.
[0020]
Therefore, since the imaging order information can be transferred between the portable information terminals, the imaging order information can be easily exchanged between the technicians who have the portable information terminals when the imaging technician is changed at the roundabout. become. In transmitting and receiving the photographing order information, the authentication of the operator of both portable information terminals is performed by the partner terminal, so that transmission and reception of the photographing order information by an unauthorized person can be prevented. Further, since the transmitted imaging order information is deleted from the portable information terminal on the transmitting side, it is possible to prevent duplicate imaging due to duplication of the imaging order information.
[0021]
The invention according to claim 6 is the invention according to claim 5,
The transmitted information control unit is characterized in that after receiving the acknowledgment signal, the transmitted information control unit performs control so as not to perform processing on the transmitted imaging order information stored in the storage unit.
[0022]
According to the sixth aspect of the present invention, after receiving the reception confirmation signal, control is performed so as not to perform the process of converting the transmitted imaging order information stored in the storage unit. Therefore, it is possible to prevent duplicate shooting by transmitting and receiving the shooting order information.
[0023]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
First, the configuration of the medical image capturing system 100 will be described.
FIG. 1 is a diagram showing the overall configuration of the medical image capturing system 100. The medical image capturing system 100 is a system using computed radiography (CR) or Flat Panel Detector (FPD) using a semiconductor detector. As shown in FIG. 1, the medical image capturing system 100 includes a control device 1, an information management device 2, a medical image reading device 3, portable information terminals (hereinafter, referred to as PDA) 4 a, 4 b, and an X-ray device 5 for a round examination. Have been. The control device 1, the information management device 2, and the PDA (Personal Digital Assistance) 4a, 4b are connected via a network N so as to be able to transmit and receive data to and from each other. It is connected to the device 3. The PDA 4a, 4b includes a short-distance communication unit, and is configured to be able to transmit and receive data between the PDA 4a, 4b by short-distance wireless communication. FIG. 1 shows an example in which the control device 1, the information management device 2, the medical image reading device 3, the PDA 4a, 4b, and the round X-ray device 5 are connected one by one. Is not particularly limited.
[0024]
The control device 1 is connected to the medical image reading device 3 via the cable C, and is connected to the information management device 2, the PDAs 4a and 4b via the network N. The control device 1 receives the imaging order information from the information management device 2, extracts, from the received imaging order information, imaging order information for performing X-ray imaging through rounds, and transmits the information to the PDAs 4a and 4b. Further, the control device 1 controls the medical image reading device 3 according to the imaging order information to read the radiation image information accumulated in the inserted cassette A, and receives the medical image data from the medical image reading device 3. Image processing, display processing, and the like.
[0025]
The information management device 2 transmits to the control device 1 via the network N imaging order information on the input of the input medical image. The imaging order information is information for reserving imaging of a medical image in the medical image imaging system 100. For example, a patient ID, a patient ID which is an identification code uniquely assigned to specify a patient to be imaged, The name, age, hospital room, request department, request doctor name, imaging conditions, reading model, and the like can be given.
[0026]
The medical image reading device 3 is a cassette type image reading device using the cassette A. The cassette A incorporates a stimulable phosphor sheet for accumulating a part of radiation energy, and is arranged between the round X-ray apparatus 5 and the cassette A at the round-trip destination such as a hospital room for round-trip. When X-rays are emitted from the X-ray apparatus 5 toward the cassette A, radiation image information of the subject due to the X-rays is accumulated. When the cassette A used for the X-ray imaging is inserted, the medical image reading apparatus 3 irradiates the stimulable phosphor sheet with excitation light, thereby photoelectrically converting the stimulable luminescence light emitted from the sheet. After that, the data is A / D converted and transmitted to the control device 1 via the cable C as medical image data.
[0027]
The PDAs 4a and 4b receive the imaging order information for performing X-ray imaging by round-trip from the control device 1 via the network N, search the imaging order information for each patient to be imaged, and display the imaging region on the display unit. Further, by transmitting short-range wireless communication between the PDAs 4a and 4b, transmission and reception of the photographing order information are performed. At this time, the transmission source PDA 4 deletes the transmitted imaging order information. The PDA 4a, 4b may be any mobile communication terminal, such as a mobile phone, a PHS (Personal Handyphone System), and a notebook PC.
[0028]
The medical examination X-ray apparatus 5 is a movable X-ray imaging apparatus, and performs X-ray imaging by arranging a subject between the X-ray apparatus and the cassette A and irradiating the cassette A with X-rays.
[0029]
The network N is a communication network constructed using a dedicated line or an existing general public line, and various line forms such as a LAN and a WAN can be applied. The network N includes, for example, various communication networks such as a telephone network, an ISDN network, a dedicated line, a mobile communication network, a communication satellite network, and a CATV network, and an Internet service provider that connects them. However, from the viewpoint of the reliability of the information management, it is desirable that the network has security that only a specific user can access. The connection between each device and the terminal may be a wired connection or a wireless connection.
[0030]
As the short-range wireless communication, infrared communication (IrDA / IrMC), Bluetooth (R), wireless communication based on the IEEE 802.11 standard, and the like can be applied. In the present embodiment, infrared communication based on the IrDA standard is used. Description will be made assuming that a communication method is applied.
[0031]
Next, the configuration and operation of the control device 1 will be described in detail with reference to the drawings.
First, the configuration will be described.
FIG. 2 is a block diagram illustrating a functional configuration of the control device 1. As shown in FIG. 2, the control device 1 includes a control unit 11, an input unit 12, a display unit 13, an I / F 14, a communication control unit 15, a RAM 16, a storage unit 17, an image processing unit 18, and the like. It is connected by a bus 19.
[0032]
The control unit 11 is configured by a CPU (Central Processing Unit) and the like, reads a system program and various control programs stored in the storage unit 17, expands them in the RAM 16, and centrally controls the operation of each unit according to the control program. In addition, the control unit 11 executes various processes including a photographing order information transmission / reception process A (see FIG. 5), which will be described later, according to the program developed in the RAM 16, temporarily stores the processing results in the RAM 16, To be displayed.
[0033]
For example, upon receiving the imaging order information transmission request from the PDAs 4a and 4b, the control unit 11 extracts, from the imaging order information file 171, imaging order information for which the “model” is the medical image reading device 3 and has not been imaged, and the extracted imaging order information is extracted. The photographing order information is transmitted to the PDAs 4a and 4b.
[0034]
Further, the control unit 11 controls the medical image reading device 3 according to the updated imaging order information, and causes the medical image reading device 3 to read the radiation image information accumulated in the cassette A inserted into the medical image reading device 3, It receives medical image data from the reading device 3 and executes image processing, display processing, and the like.
[0035]
The input unit 12 includes a keyboard having cursor keys, numeric input keys, various function keys, and the like, and a mouse or the like as a pointing device. The input unit 12 performs a pressing signal corresponding to a key pressed on the keyboard and a mouse operation. And outputs the signal to the control unit 11 as an input signal. In another aspect, the input unit 12 outputs position information input by touching the transparent sheet panel covering the display screen of the display unit 13 with a finger or a dedicated stylus pen to the control unit 11 as an input signal. It is also possible to use what is constituted by a so-called touch panel.
[0036]
The display unit 13 includes an LCD (Liquid Crystal Display), a CRT (Cathode Ray Tube), or the like, and displays an input instruction or data from the input unit 12 according to an instruction of a display signal input from the control unit 11. To be displayed.
[0037]
The I / F 14 is an interface for the control device 1 to connect to the medical image reading device 3 via the cable C.
[0038]
The communication control unit 15 includes a modem, a LAN adapter, a router, a TA (Terminal Adapter), and the like, and performs communication control with each device connected to the network N via a dedicated line or a communication line such as an ISDN line. .
[0039]
A RAM (Random Access Memory) 16 is a system program, a control program, input or output data, and a parameter that can be executed on the control device 1 read from the storage unit 17 in various processes executed and controlled by the control unit 11. And the like to form a temporary storage area.
[0040]
The storage unit 17 is configured by a nonvolatile semiconductor memory such as an HDD (Hard Disc Drive), and stores a system program corresponding to the control device 1, various processing programs corresponding to the system program, processing results, and the like. Further, it has a recording medium (not shown) in which programs and data are stored in advance, and this recording medium is a non-volatile memory composed of a magnetic or optical recording medium or a semiconductor memory. This recording medium is fixedly or detachably mounted on the storage unit 17. Various programs are stored in the form of readable program codes, and the control unit 11 sequentially executes operations according to the program codes.
[0041]
In the present embodiment, the storage unit 17 includes an imaging order information file 171 that internally stores the imaging order information transmitted from the information management device 2, and an image DB 172 that stores the medical image read by the medical image reading device 3. have.
[0042]
FIG. 3 is a diagram showing an example of data storage in the photographing order information file 171. As shown in FIG. 3, the imaging order information file 171 includes an imaging ID area 171a, a patient ID area 171b, a patient name area 171c, a gender area 171d, an age area 171e, a hospital room area 171f, and a request department area. 171g, a shooting condition area 171h, a model area 171i, a number area 171j, and a transmitted area 171k.
[0043]
The shooting ID area 171a stores an identification code (for example, 20020101001, 20020101002, 20020101003,...) Uniquely assigned to specify shooting as a “shooting ID”. The patient ID area 171b stores a code (for example, 1000002, 1000005,...) Uniquely assigned to specify a patient to be imaged as a “patient ID”. The patient name area 171c stores data (for example, を 受 け る, △△△△,...) Representing the name of the patient to be imaged as “patient name”. The gender area 171d stores a character string (for example, male, female,...) Representing the gender of the patient to be imaged as “sex”. The age area 171e stores data (for example, 40, 50,...) Representing the age of the patient to be imaged as “age”.
[0044]
The sickroom area 171f stores data (for example, 101, 205,...) Indicating a sickroom where imaging is to be performed, as a “sickroom”. The requested department area 171g stores data (for example, surgery, internal medicine,...) Representing the department for which imaging was requested as a “requested department”. The imaging region 171h stores data (for example, skulls A → P, skulls P → A, chest P → A,...) Representing imaging conditions such as an imaging region and a direction as “imaging conditions”. The model area 171i stores, as a “model”, data indicating the model of the reading apparatus that performs reading (for example, the medical image reading apparatus 4, the medical image reading apparatus 3,...). The number area 171j stores data (eg, 3, 3, 4,...) Indicating the number of images to be captured as “number”. The transmitted area 171k stores a transmitted flag, for example, “1” when transmitting the imaging order information to the PDAs 4a and 4b.
[0045]
The image processing unit 18 performs various image processing such as frequency processing, gradation processing, rotation processing, and enlargement / reduction processing on medical image data in accordance with an instruction input from the control unit 11. In addition, the image processing unit 18 executes a compression process for compressing the image data using a predetermined encoding method, and a decompression process for decoding and expanding the compressed image data.
[0046]
Next, the internal configuration of the PDA 4a, 4b will be described.
FIG. 4 is a block diagram showing a functional configuration of the PDAs 4a and 4b. As shown in FIG. 4, the PDAs 4a and 4b are configured by a control unit 41, an input unit 42, a display unit 43, a short-range communication unit 44, a RAM 45, a storage unit 46, a communication control unit 47, and the like. It is connected.
[0047]
The control unit 41 is configured by a CPU or the like, reads out a system program and various control programs stored in the storage unit 17, expands them in the RAM 45, and centrally controls the operation of each unit according to the control program. In addition, the control unit 41 executes various processes including a photographing order information transmission / reception process A (see FIG. 5) and a photographing order information transmission / reception process B (see FIG. 6), which will be described later, according to the program developed in the RAM 45, and the processing result Is temporarily stored in the RAM 45 and displayed on the display unit 43.
[0048]
For example, the control unit 41 transmits a photographing order information transmission request to the control device 1 by the communication control unit 47, receives the photographing order information, and stores it in the storage unit 46. Further, the control unit 41 causes the display unit 43 to display the received imaging order information on the received imaging order information.
[0049]
Further, the control unit 41 accesses the other PDAs 4a and 4b by the short-range communication unit 44 to transmit the imaging order information, and deletes the transmitted imaging order information from the storage unit 46. Further, the control unit 44 receives the imaging order information transmitted from the other PDAs 4b, 4b, and stores it in the storage unit 46.
[0050]
The input unit 42 is configured by a so-called touch panel that outputs position information input by touching a transparent sheet panel covering the display screen of the display unit 43 with a finger or a dedicated stylus pen to the control unit 41 as an input signal. I have. The input unit 42 includes a power button, various function buttons, and the like, and outputs an operation signal by a button operation to the control unit 41.
[0051]
The display unit 43 is configured by an LCD or the like, and displays data such as an input instruction from the input unit 42 and shooting order information in accordance with an instruction of a display signal input from the control unit 41.
[0052]
The short-range communication unit 44 includes a light emitting diode for generating infrared light, a photodiode for receiving infrared light, a driving circuit thereof, and the like. Based on a wireless communication method conforming to the IrDA standard, the PDA 4b and the like are provided. To transmit and receive wireless signals to and from external devices.
[0053]
The RAM 45 temporarily stores system programs, control programs, input or output data, parameters, and the like that can be executed on the control device 1 read from the storage unit 46 in various processes that are controlled by the control unit 41. Form an area.
[0054]
The storage unit 46 is configured by a nonvolatile semiconductor memory such as a flash memory (Flash Memory), and stores a system program corresponding to the PDA 4, various processing programs corresponding to the system program, processing results, and the like. These various programs are stored in the form of readable program codes, and the control unit 41 sequentially executes operations according to the program codes.
[0055]
The communication control unit 47 includes a modem or a terminal adapter, and performs communication control for performing wireless communication with a communication carrier (not shown) connected to the network N.
[0056]
Next, the operation will be described.
FIG. 5 is a flowchart showing the imaging order information transmission / reception processing A executed by the control device 1 and the PDA 4a in the medical image imaging system 100. Hereinafter, the imaging order information transmission / reception processing A will be described with reference to FIG.
[0057]
The control unit 41 of the PDA 4a transmits a connection request to the control device 1 by the communication control unit 47 (Step S1). When receiving the connection request from the PDA 4a, the control unit 11 of the control device 1 transmits a request for an ID number and a password to the PDA 4a (Step S2). Here, the ID number is unique to a person who is permitted to transmit and receive data between the PDA 4a and the control device 1, such as a doctor, a radiologist, an operator who has received the instruction, etc. Is an identification code assigned to. Upon receiving this by the communication control unit 47, the control unit 41 displays an instruction for inputting an ID number and a password on the display unit 43 (step S3). When the ID number and the password are input (step S4), the communication is performed. The ID number and the password input via the control unit 47 are transmitted to the control device 1 (step S5). The control unit 11 authenticates the received ID number and password (step S6), and transmits a connection completion notification to the PDA 4a (step S7). If the ID number and the password input in step S4 are not those of the person permitted to access the control device 1, the connection is disconnected.
[0058]
Upon receiving the connection completion notification from the control device 1, the control unit 41 causes the communication control unit 47 to transmit a photographing order information transmission request to the control device 1 (step S8). When receiving the radiographing order information transmission request from the PDA 4a, the control unit 11 obtains radiographing order information from the radiographing order information file 171 that performs X-ray radiography through rounds, and does not transmit radiographing order information to another PDA such as the PDA 4b. The imaging order information in which the model area 171i of the imaging order information is “medical image reading device 3” and “1” is not stored in the transmitted area 171k is extracted (step S9), and the extracted imaging order information is extracted. A flag is set in the transmitted area 171k, and the communication control unit 15 transmits the flag to the PDA 4a (step S10).
[0059]
Upon receiving the imaging order information from the control device 1, the control unit 41 causes the storage unit 46 to store the received imaging order information (step S11). Then, the control unit 41 transmits a disconnection request to the control device 1 by the communication control unit 47 (step S12), and the control unit 11 receives this and disconnects the communication (step S13).
[0060]
By the above-described imaging order information transmission / reception processing A, the imaging order information is transmitted from the control device 1 to the PDA 4a. The radiologist or the like carries the PDA 4a in which the imaging order information is stored at the time of X-ray imaging by round visit, and displays the imaging order information on the display unit 43, so that the patient performing the X-ray imaging and the imaging order for each patient are displayed. The user confirms imaging conditions such as information and an imaging part. Further, since the photographing order information once transmitted to another PDA such as the PDA 4b is not transmitted to the PDA 4a, the duplicate photographing is not performed.
[0061]
The PDA 4b also communicates with the control device 1 in the same procedure as the PDA 4a in the above-described imaging order information transmission / reception processing A, and receives and stores the imaging order information.
[0062]
FIG. 6 is a flowchart showing a photographing order information transmission / reception process B executed by the control unit 41 of the PDA 4a and the control unit 41 of the PDA 4b, with the PDA 4a serving as the transmitting side and the PDA 4b serving as the receiving side. Hereinafter, the photographing order information transmission / reception process B will be described with reference to FIG.
[0063]
When an instruction to transmit imaging order information is input from the input unit 42 (step S21), the control unit 41 of the PDA 4a causes the display unit 43 to display a screen for inputting an ID number and a password (step S22). When the number and password are input (step S23), the input ID number and password are transmitted to the PDA 4b via the short-range wireless communication unit 44 (step S24). Here, the ID number is uniquely assigned to a person, such as a doctor, a radiologist, or an operator who has received the instruction, in order to authenticate a person who is allowed to transmit and receive data to and from the PDA 4a, 4B. It is the identification code given.
[0064]
When the instruction to receive the imaging order information is input from the input unit 42 (step S25), the control unit 41 of the PDA 4b causes the display unit 43 to display a screen for instructing the input of the ID number and the password (step S26). When the number and the password are input (step S27), the input ID number and the password are transmitted to the PDA 4a via the short-range wireless communication unit 44 (step S28).
[0065]
Upon receiving the ID number and the password transmitted from the PDA 4b by the short-range wireless communication unit 44 (Step S29), the control unit 41 of the PDA 4a performs authentication, and transmits the authentication result to the PDA 4b (Step S31).
[0066]
When the control unit 41 of the PDA 4b receives the ID number and the password transmitted from the PDA 4a by the short-range wireless communication unit 44 (Step S30), it performs authentication and transmits an authentication result to the PDA 4b (Step S32). The control unit 41 of the PDA 4a and the PDA 4b does not execute the next step unless the authentication of both the PDA 4a and the PDA 4b is confirmed.
[0067]
After performing the authentication in step S31, the control unit 41 of the PDA 4a displays a list of the imaging order information on the display unit 43 (step S33). When the imaging order information to be transmitted is selected from the imaging order information list screen (step S34), the control unit 41 transmits the imaging order information selected by the short-range wireless communication unit 44 to the PDA 4b (step S35).
[0068]
The control unit 41 of the PDA 4b receives the imaging order information transmitted from the PDA 4a (Step S37), and transmits a notification of receiving the imaging order information to the PDA 4a (Step S38). Upon receiving the photographing order information reception notification, the control unit 41 of the PDA 4a deletes the transmitted photographing order information from the storage unit 46 (Step S39). The control unit 41 of the PDA 4b stores the received imaging order information in the storage unit 46.
[0069]
In the above-described imaging order information transmission / reception processing B, the PDA 4a is set as the transmission side and the PDA 4b is set as the reception side. However, the imaging order information can be transmitted and received using the PDA 4b as the transmission side and the PDA 4a as the reception side. In step S39, the transmitted imaging order information is deleted from the storage unit 46. However, for example, a flag or the like is set in the imaging order information transmitted in step S39, and the The processing (for example, display, transmission to another device, etc.) may be controlled so as to disable the imaging order information.
[0070]
As described above, according to the medical image photographing system 100, when receiving the photographing order information transmission request from the PDA 4a, 4b, the control device 1 performs the round of the round of the photographing order information stored in the photographing order information file 171. The imaging order information for performing X-ray imaging is extracted and transmitted to the PDA 4. The PDA 4a and PDA 4b transmit and receive an ID number and a password to and from each other by short-range wireless communication, and authenticate the received ID number and password. After the authentication, the PDA 4a displays the photographing order information on the display unit 43, and when the photographing order information to be transmitted is selected, transmits the selected photographing order information to the PDA 4b. Upon receiving the imaging order information from the PDA 4a, the PDA 4b transmits an imaging order information reception notification to the PDA 4a, and stores the received imaging order information in the storage unit 46. When receiving the photographing order information reception notification, the PDA 4a deletes the photographing order information transmitted from the storage unit 46.
[0071]
Therefore, the imaging order information can be displayed and confirmed by the PDAs 4a and 4b at the round-trip, and the imaging order information can be transferred at the round-trip. Therefore, when the imaging technician is changed, the imaging order between the technicians is changed. Information can be exchanged, and convenience is improved. Also, when new information is added to the imaging order information once taken into the PDA 4a or 4b, the imaging order information is once stored in the PDA 4a or 4b such as a messenger and transmitted to the PDA 4a or 4b of the technician who is undergoing a round-trip. By doing so, the imaging order information can be added to the PDA of the technician undergoing the round. In transmitting and receiving the photographing order information, it is necessary to authenticate the user of each of the PDAs 4a and 4b, so that it is possible to prevent a person other than the concerned person from performing the operation of transmitting and receiving the photographing order information. . Furthermore, after confirming the reception of the imaging order information of the PDA 4b from the PDA 4a that has transmitted the imaging order information, the imaging order information is deleted, so that it is possible to prevent duplicate imaging due to duplication of the imaging order information.
[0072]
The description in the above embodiment is a preferred example of the present invention, and the present invention is not limited to this.
[0073]
For example, the PDA 4 is configured to receive the imaging order information from the control device 1, but may be configured to receive the imaging order information directly from the information management device 2.
[0074]
Further, in the above embodiment, the medical image system 100 has been described as a system using a CR device or an FPD, but the present invention is applicable to a CT (Computed Tomography) device, an MRI (Magnetic Resonance Imaging) device, an ultrasound diagnosis The present invention can also be applied to a medical image capturing system using a device or the like.
[0075]
The detailed configuration and detailed operation of the medical image capturing system 100 and each device constituting the medical image capturing system 100 can be appropriately changed without departing from the spirit of the present invention.
[0076]
【The invention's effect】
According to the first aspect of the present invention, the imaging order information can be transferred between the portable information terminals. Therefore, when the imaging technician is changed at the round-trip, the imaging between the technicians having the portable information terminal can be performed. Order information can be easily exchanged. In transmitting and receiving the photographing order information, the authentication of the operator of both portable information terminals is performed by the partner terminal, so that transmission and reception of the photographing order information by an unauthorized person can be prevented. Further, since the transmitted imaging order information is deleted from the portable information terminal on the transmitting side, it is possible to prevent duplicate imaging due to duplication of the imaging order information.
[0077]
According to the second aspect of the present invention, there is provided an information management device for generating imaging order information based on an imaging reservation input, and the control device reads out the imaging order information from the information management device via a communication network. Therefore, the input of the photographing order information can be performed by the external information management device.
[0078]
According to the third aspect of the present invention, there is provided an information management apparatus for generating imaging order information based on an imaging reservation input, and the portable information terminal reads out the imaging order information from the information management apparatus via a communication network. be able to. Therefore, the portable information terminal can acquire the photographing order information without going through the control device.
[0079]
According to the fourth aspect of the present invention, the control device extracts, from the photographing order information, photographing order information using the cassette, and transmits the extracted photographing order information to the portable information terminal. Therefore, only the imaging order information for performing imaging using the cassette is transmitted to the portable information terminal, so that the data handled by the portable information terminal can be limited to only information necessary for X-ray imaging at the roundabout. Processing in the information terminal can be performed efficiently.
[0080]
According to the fifth aspect of the present invention, since the imaging order information can be transferred between the portable information terminals, when the imaging technician is changed at the round-trip, the imaging between the technicians having the portable information terminal can be performed. Order information can be easily exchanged. In transmitting and receiving the photographing order information, the authentication of the operator of both portable information terminals is performed by the partner terminal, so that transmission and reception of the photographing order information by an unauthorized person can be prevented. Further, since the transmitted imaging order information is deleted from the portable information terminal on the transmitting side, it is possible to prevent duplicate imaging due to duplication of the imaging order information.
[0081]
According to the sixth aspect of the present invention, after receiving the reception confirmation signal, control is performed so as not to perform the process of converting the transmitted imaging order information stored in the storage unit. Therefore, it is possible to prevent duplicate shooting by transmitting and receiving the shooting order information.
[Brief description of the drawings]
FIG. 1 is a diagram conceptually showing the overall configuration of a medical image photographing system 100 according to the present invention.
FIG. 2 is a block diagram showing a functional configuration of a control device 1 of FIG.
FIG. 3 is a diagram showing an example of data storage in a photographing order information file 171 stored in a storage unit 17 of FIG. 2;
FIG. 4 is a block diagram showing a functional configuration of the PDA 4 of FIG. 1;
FIG. 5 is a flowchart showing a photographing order information transmitting / receiving process A executed by the control device 1 and the PDA 4a of FIG. 1;
FIG. 6 is a flowchart showing a photographing order information transmission / reception process B executed by the PDA 4a and the PDA 4b of FIG. 1;
[Explanation of symbols]
1 control device 2 information management device 3 medical image reading device 4 PDA
5 Examination X-ray apparatus 11 Control unit 12 Input unit 13 Display unit 14 I / F
15 Communication control unit 16 RAM
17 Storage Unit 171 Shooting Order Information File 172 Image DB
18 Image processing unit 19 Bus 41 Control unit 42 Input unit 43 Display unit 44 Short-range wireless communication unit 45 RAM
46 storage unit 47 communication control unit 48 bus 100 medical image capturing system A cassette C cable N network

Claims (6)

A control device that holds the imaging order information in a readable state, and that can transmit the imaging order information to the outside in response to a read command; and a plurality of portable information terminals that can be connected to the control device via a communication network; With
The portable information terminal acquires the imaging order information and stores it in a storage unit, mutually authenticates the other terminal with the other portable information terminal, and performs the other portable information when mutual authentication is performed. The transmitting and receiving of the photographing order information with the terminal, when receiving the photographing order information, transmitting a reception confirmation signal to the transmitting portable information terminal, and when transmitting the photographing order information, the receiving side portable information A medical image photographing system, wherein after transmitting a reception confirmation signal from a terminal, the transmitted photographing order information stored in the memory is deleted or invalidated from the memory. An information management device for generating photographing order information based on a photographing reservation input, wherein the control device is configured to read the photographing order information from the information management device via the communication network. 2. The medical image capturing system according to 1. An information management device that generates imaging order information based on an imaging reservation input is provided, and the portable information terminal is configured to be able to read the imaging order information from the information management device via the communication network. The medical image capturing system according to claim 1, wherein: A movable X-ray imaging apparatus that performs X-ray imaging using a cassette based on the imaging order information,
2. The control device according to claim 1, further comprising an extracting unit configured to extract, from the photographing order information, photographing order information using a cassette, and transmitting the extracted photographing order information to a portable information terminal. The medical image photographing system according to any one of claims 1 to 3. A portable information terminal that holds the imaging order information in a readable state, and is connectable via a communication network to a control device capable of transmitting the imaging order information to the outside in response to a read command,
A receiving unit that receives the imaging order information from the control device,
A storage unit for storing the received imaging order information,
A communication unit that transmits and receives the photographing order information to and from another portable information terminal,
An authentication processing unit that authenticates that the user of the partner terminal is a permitted user when transmitting or receiving the imaging order information by the communication unit,
When the user of the portable information terminal on both the transmission side and the reception side is authenticated by the partner terminal, a transmission / reception control unit that controls transmission and reception of the imaging order information,
When receiving the shooting order information, a reception confirmation processing unit that transmits a reception confirmation signal to the partner terminal,
After receiving the reception acknowledgment signal, a transmitted information control unit that controls to delete transmitted imaging order information stored in the storage unit from the storage unit,
A portable information terminal comprising: The mobile phone according to claim 5, wherein the transmitted information control unit performs control so as not to perform processing on the transmitted imaging order information stored in the storage unit after receiving the reception confirmation signal. Information terminal.

Images