JP2011110289A - Medical information device and medical information system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a medical information device for easily designating an imaging parameter, and also to provide a medical information system. <P>SOLUTION: The medical information device includes: a storage means for storing an imaging parameter in imaging a medical image, which is related to the medical image, retrieval information related to the imaging parameter, and medical image evaluation information; a list generating means for extracting the imaging parameter in response to a retrieval condition, with which at least a part of the retrieval condition and the retrieval information coincides, and generating an imaging parameter list, based on the medical image evaluation information related to the extracted imaging parameter; and a list output means for outputting the imaging parameter list. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a medical information apparatus and a medical information system that can specify parameters when photographing medical images.

  The medical information system is a system that holds and manages medical images taken by an imaging device such as a CT (Computed Tomography) scanning device or an MRI (Magnetic Resonance Imaging) device. In a medical facility that uses a medical information system, various terminals such as an imaging device, an imaging control terminal, an interpretation terminal, and a medical image holding server are connected via a network. By holding the medical image captured by the imaging device on the medical image holding server, it is possible to browse the medical image held by each terminal of the network-connected medical facility, and more efficiently diagnose using the medical image It can be carried out.

  On the other hand, in order to obtain a medical image suitable for diagnosis by photographing with a photographing device, it is necessary to correctly specify a group of parameters such as photographing parameters and image display parameters for displaying a desired part or disease on the medical image. Since parameters suitable for diagnosis differ depending on the type of diagnosis and the type of disease to be displayed, a correct parameter group must be set for each diagnosis, which is inconvenient. Therefore, a medical information system is disclosed in which medical images and imaging parameters are associated with each other and stored in a database, and the associated imaging parameters can be specified by specifying the medical images (for example, see Patent Document 1). reference).

JP 2003-52660 A

  When specifying imaging parameters for an imaging device using a medical information system as described above, the user of the imaging device selects a medical image having the desired imaging parameters, and uses this selection to specify the imaging parameters. I do. However, when the number of medical images stored in the database increases, the user must select a desired one from a large number of medical images, which increases the operation burden on the user. In addition, there may be a situation in which a medical image in which a desired diagnosis cannot be performed due to an erroneous specification of imaging parameters is registered in the database. In this case, the user must recognize which medical image is associated with the wrong imaging parameter one by one and avoid selection of the medical image, which impairs the convenience for the user.

  Accordingly, an object of the present invention is to provide a medical information device and a medical information system that can more easily specify imaging parameters.

In order to solve the above-described problem, the medical information device according to the present invention stores the imaging parameters at the time of imaging of the medical image associated with the medical image, the search information and the medical image evaluation information associated with the imaging parameter. List generation that extracts imaging parameters that match at least a part of the search conditions and the search information according to the means and the search conditions, and generates an imaging parameter list based on the medical image evaluation information associated with the extracted imaging parameters And a list output means for outputting a photographing parameter list.

In order to solve the above problems, the medical information system according to the present invention stores imaging parameters at the time of imaging of the medical image associated with the medical image, search information and medical image evaluation information associated with the imaging parameter. Storage means for specifying, search condition specifying means for specifying the search condition, and imaging parameters in which at least a part of the search conditions and the search information match are extracted according to the search conditions, and a medical image associated with the extracted imaging parameters List generating means for generating an imaging parameter list based on the evaluation information, selection means for selecting an imaging parameter based on the imaging parameter list, imaging a patient based on the imaging parameters selected by the selection means, and medical image And a photographing means for generating the image.

  According to the present invention, it is possible to provide a medical information device and a medical information system that can more easily specify imaging parameters.

The figure which shows the network structure of the medical information system which concerns on embodiment of this invention. The sequence diagram which shows the flow of the imaging | photography process which concerns on embodiment of this invention. The figure which shows the structure of the evaluation information database which concerns on embodiment of this invention. The figure which shows the example of a screen display in the imaging | photography control terminal at the time of outputting the PAS search instruction | indication signal which concerns on embodiment of this invention. The figure which shows the example of a screen display in the imaging | photography control terminal at the time of selecting the PAS list | wrist which concerns on embodiment of this invention. The figure which shows the example of a screen display in the imaging | photography control terminal at the time of performing the detailed display of PAS which concerns on embodiment of this invention. The figure which shows the example of a screen display in the imaging | photography control terminal at the time of performing PAS edit which concerns on embodiment of this invention. The figure which shows the example of a screen display in the imaging | photography control terminal at the time of performing the warning display which concerns on embodiment of this invention. The figure which shows the example of a screen display in the interpretation terminal at the time of performing the evaluation input with respect to the picked-up image which concerns on embodiment of this invention. The flowchart which shows the flow of the PAS list output process which concerns on embodiment of this invention.

  Embodiments of the present invention will be described below with reference to the drawings.

(Network configuration of medical information system)
FIG. 1 is a block diagram showing an internal configuration of a medical information system 10 according to the present invention. As shown in FIG. 1, a medical information system 10 according to the present invention includes a diagnostic terminal 1, a RIS (Radiology Information System) / HIS (Hospital Information System) server 2, an imaging device 3, an imaging system. The information processing apparatus includes a control terminal 4, a PACS (Picture Archiving and Communication System) server 5, and a medical information device such as an image interpretation terminal 6. Each medical information device constituting the medical information system 10 is configured to be able to transmit / receive information to / from each other using a known communication technique. Note that the configurations of the medical information device and the medical information system 10 in the present invention are not limited to this, and there may be a plurality of medical information devices and imaging devices, or each of the medical information devices and imaging devices. Any one of them may be omitted, and another medical information device and imaging terminal may take the role of the omitted medical information device and imaging terminal.

  The diagnostic terminal 1 is an information terminal used when, for example, a patient and a doctor make an inquiry. The diagnostic terminal 1 reads patient information from a patient database 22 in the RIS / HIS server 2 described later based on an operation of a doctor who operates the diagnostic terminal 1, and a patient from the image database 51 in the PACS server 5. Are read out and displayed on a display provided in the diagnostic terminal 1. Here, the patient information includes, for example, a patient ID to which a unique value is assigned for each patient, a patient's name, sex, address, contact information, disease name, or information added by a doctor. In addition, the medical image is an image that is captured by the imaging device 3 described later and stored in the image database 51. The doctor makes an inquiry with the patient while displaying patient information and medical images on the diagnostic terminal 1.

Further, the diagnostic terminal 1 outputs the order information to the order information database 21 in the RIS / HIS server 2 based on the operation of the doctor who operates the diagnostic terminal 1. Here, the order information includes, for example, a part of a patient to be imaged, an imaging time, an imaging location, a type of imaging apparatus such as a CT apparatus or an MRI apparatus, presence / absence of a contrast medium used for imaging, or information added by a doctor. . The doctor outputs order information from the diagnostic terminal 1, thereby sharing the order information with other information terminals connected in the medical information system 10. Thereby, the laboratory technician who uses the imaging control terminal 4 described later performs imaging of the patient based on the shared order information.

  Further, the diagnostic terminal 1 outputs the finding information to the image database 51 in the PACS server 5 based on the operation of the doctor who operates the diagnostic terminal 1. Here, the finding information is information stored in the image database 51 in association with the medical image displayed by the diagnostic terminal 1. The finding information output from the diagnostic terminal 1 includes information such as whether or not a disease has been found in the medical image, the state of the disease, the position of the disease, or future treatment for the disease.

Further, the diagnostic terminal 1 outputs evaluation information to the evaluation information database 53 in the PACS server 5 based on an operation of a doctor who operates the diagnostic terminal 1. Here, the evaluation information is information stored in the evaluation information database 53 in association with the imaging parameters of the medical image displayed by the diagnostic terminal 1. In the evaluation information output from the diagnostic terminal 1, it is determined whether or not a disease is found from the medical image, whether or not the doctor determines that the medical image is good, and the doctor determines that the medical image needs to be re-photographed. Or a comment added by a doctor.

  The RIS / HIS server 2 is a database server that stores the above-described order information and patient information. The RIS / HIS server 2 includes an order information database 21 that stores order information and a patient information database 22 that stores patient information. The RIS / HIS server 2 reads the order information or patient information from the order information database 21 or the patient database 22 in response to an information request output from another information terminal connected to the medical information system 10, and outputs an information request. Output to the information terminal.

  The imaging device 3 is a device for taking a medical image used for diagnosis of a patient, such as a CT scan device, an MRI device, an X-ray image diagnostic device, an ultrasonic image diagnostic device, or a nuclear medicine diagnostic device. The imaging device 3 performs imaging of a patient based on an imaging instruction signal output from an imaging control terminal 4 described later, and outputs a medical image to the PACS server 5. The shooting instruction signal output from the shooting control terminal 4 includes a set of shooting parameters for driving the imaging device 3 (hereinafter simply referred to as PAS: Programmable Analytical Scan). For example, in the case of an MRI apparatus, the imaging parameters include an imaging type, imaging time, repetition time (TR), number of slices (No. Slice), slice thickness (Slice Thick), number of excitations (NAQ), and matrix in phase encoding direction. Parameters such as size (PE Matrix) are included. The imaging device 3 is not limited to the devices listed here, and is configured according to various medical image photographing devices such as a CT scanning device, an ultrasonic diagnostic device, an X-ray diagnostic imaging device, and a nuclear medicine diagnostic device. It doesn't matter. In addition, the shooting parameters are not limited to those listed here, and may be variously configured according to the type of the shooting apparatus and the shooting method.

  The imaging control terminal 4 is an information terminal for an examination engineer to drive the imaging device 3 to image a patient. The imaging control terminal 4 reads the order information from the order information database 21 of the RIS / HIS server 2 and displays it on the display of the imaging control terminal 4. The laboratory technician recognizes what kind of imaging should be performed on the patient by visually recognizing the displayed order information.

  In addition, the imaging control terminal 4 outputs a PAS search instruction signal to the PACS server 5 described later based on the operation of the laboratory technician who operates the imaging control terminal 4. This PAS search instruction signal is a signal for narrowing down and displaying the PAS satisfying the specified search condition among the evaluation information associated with the PAS from the PAS stored in the PAS database 52 in the PACS server 5. is there. When the imaging control terminal 4 outputs the PAS search instruction signal, the imaging control terminal 4 receives and displays the PAS list output from the PACS server 5. The laboratory technician selects a desired PAS based on the displayed PAS list. This PAS selection process will be described in detail later.

  Further, the imaging control terminal 4 outputs an imaging instruction signal to the imaging device 3 based on the operation of an inspection engineer who operates the imaging control terminal 4. This imaging instruction signal includes the PAS selected by the laboratory technician, and is a signal for causing the imaging control terminal 4 to perform imaging with the designated PAS.

  In addition, the imaging control terminal 4 outputs evaluation information associated with the PAS used for imaging to the PACS server 5 as the imaging apparatus 3 outputs the medical image to the PACS server 5. The evaluation information output by the imaging control terminal 4 includes, for example, the name of the PAS used for imaging, the name of the laboratory technician, the name of the disease to be diagnosed, the imaging date, and the imaging time. Note that the output of the evaluation information associated with the PAS to the PACS server 5 may be performed by the imaging device 3 instead of the imaging control terminal 4.

  The PACS server 5 is a database server that stores the above-described medical image, PAS, and evaluation information. The PACS server 5 includes an image database 51 that stores medical images, a PAS database 52 that stores PAS, and an evaluation information database 53 that stores evaluation information. The PACS server 5 manages medical images, imaging dates, imaging times, PAS, evaluation information, order information stored in the RIS / HIS server 2 and patient information in association with each other. That is, for a specific PAS, a medical image and evaluation information captured using the PAS are read out, and further, processing for specifying which order information and patient information are captured when the PAS is performed is performed. . The operation for associating and managing medical images, PAS, evaluation information, order information, and patient information may be performed by the RIS / HIS server 2 instead of the PACS server 5. The PACS server 5 reads medical images, PAS, and evaluation information from the image database 51, the PAS database 52, and the evaluation information database 53 in response to information requests output from other information terminals connected to the medical information system 10. The information request is output to the information terminal.

  The PACS server 5 receives the PAS search instruction signal output from the imaging control terminal 4 and generates a PAS list based on the PAS and the evaluation information. When the PACS server 5 generates the PAS list, it outputs it to the imaging control terminal 4. The PAS list generation process will be described in detail later.

  The PACS server 5 stores evaluation information output from the diagnostic terminal 1, the imaging control terminal 4, and the interpretation terminal 6 described later, and updates the evaluation information database 53.

  The interpretation terminal 6 is an information terminal used when, for example, an interpretation doctor performs interpretation using a medical image. The interpretation terminal 6 reads the order information from the order information database 21 of the RIS / HIS server 2 and displays it on the display of the interpretation terminal 6. The interpretation doctor recognizes which medical image should be interpreted by visually recognizing the displayed order information.

Further, the image interpretation terminal 6 reads a medical image of the patient from the image database 51 in the PACS server 5 based on the operation of the image interpretation doctor who operates the image interpretation terminal 6 and displays it on the display provided in the image interpretation terminal 6. The interpretation doctor interprets the image based on the displayed medical image and order information.

  The image interpretation terminal 6 outputs the finding information to the image database 51 in the PACS server 5 based on the operation of the image interpretation doctor who operates the image interpretation terminal 6. Here, the finding information is information stored in the image database 51 in association with the medical image displayed by the image interpretation terminal 6. The finding information output by the interpretation terminal 6 includes information such as whether or not a disease has been found in a medical image, the state of the disease, the position of the disease, or future treatment for the disease.

The interpretation terminal 6 outputs the evaluation information to the evaluation information database 53 in the PACS server 5 based on the operation of the interpretation doctor who operates the interpretation terminal 6. In the evaluation information output by the interpretation terminal 6, whether or not a disease is found from the medical image, whether or not the interpretation doctor determines that the medical image is good, and the interpretation doctor determines that the medical image needs to be re-photographed. Or a comment added by an interpreting doctor.

(Composition of evaluation information)
FIG. 3 is a diagram showing a configuration example of evaluation information stored in the evaluation information database 52 in the PACS server 5. The evaluation information is information used when the PACS server 5 performs a PAS list generation process described later. When the imaging control terminal 4 outputs an imaging instruction signal to the imaging device 3 to image a patient, at least a part of this evaluation information is output from the imaging control terminal 4 to the PACS server 5. Note that the timing at which the evaluation information is output to the PACS server 5 is not limited to this, and the evaluation information may be output to the PACS server 5 after the photographing process is completed. The information terminal may output the evaluation information to the PACS server 5 in accordance with the photographing process of the photographing apparatus 3.

  The evaluation information is stored in the evaluation information database 53 so as to be associated with the PAS every time the photographing apparatus 3 performs photographing. Specifically, the evaluation information is an identification number of the evaluation information (denoted as “ID” in FIG. 3), the name of the PAS used for imaging, the name of the laboratory engineer who output the imaging instruction signal, and an attempt to diagnose by imaging. The symptom name, the medical image evaluation input by the diagnostic terminal 1 or the interpretation terminal 6, the comment added to the medical image as the medical image evaluation, the date and time when the imaging was performed, and the medical image obtained by the imaging Some are included. These pieces of information are used as search information when the PACS server 5 searches for a PAS based on a PAS search instruction.

  As medical image evaluation information, information on whether or not a doctor or an interpreting doctor has found a disease from a medical image, whether or not a medical image is determined to be good, or whether or not it is determined to be bad is recorded. This medical image evaluation information is output to the PACS server 5 by the diagnostic terminal 1 or the interpretation terminal 6 based on the operation of the doctor on the diagnostic terminal 1 or the operation of the interpretation doctor on the interpretation terminal 6. In the evaluation information database 53, it is necessary to re-photograph the medical image when the disease is found from the medical image, and when the medical image is judged good. “X” is recorded when the determination is made, and “−” is recorded when the medical image evaluation is not input.

  Note that the configuration of the evaluation information is not limited to those listed here, but various names such as the name of the doctor who instructed the order information for imaging and the name of the interpreting doctor who output the information of the medical image evaluation, the order information, and the patient information. This information may be included. Further, some of the information listed here may be omitted.

(Flow of shooting process using PAS)
FIG. 2 is a sequence diagram showing a flow of processing for selecting and imaging PAS to be applied to the imaging apparatus 3 using the medical information system 10. 4, FIG. 5, FIG. 6, and FIG. 7 are screen display examples that are displayed on the display of the photographing control terminal 4 in accordance with the flow of photographing processing. FIG. 8 shows an example of a screen displayed on the display of the diagnostic terminal 1 or the interpretation terminal 6 in accordance with the flow of the photographing process. Hereinafter, photographing processing will be described with reference to a screen display example.

  First, a doctor operating the diagnostic terminal 1 outputs order information to the RIS / HIS server 2 based on an inquiry with a patient or the like (step 101). This order information includes information such as which type of imaging device 3 the patient is to be imaged and which part is imaged.

  Upon receiving the order information output from the diagnostic terminal 1, the RIS / HIS server 2 transfers this order information to the imaging control terminal 4 (step 102).

  When receiving the order information output from the RIS / HIS server 2, the imaging control terminal 4 displays the order information on a display or the like, and waits for an operation of the imaging control terminal 4 by an inspection engineer. When the inspection engineer recognizes the order information displayed on the display, the inspection engineer outputs a PAS search instruction signal to the imaging apparatus 3 designated by the order information (step 103). FIG. 4 shows an example of a screen displayed on the display of the imaging control terminal 4 when outputting the PAS search instruction signal. The imaging control terminal 4 generates a PAS search instruction signal based on the search condition input by the laboratory technician in the search word input box 300. It should be noted that the various operations described as being performed by the laboratory technician may be automatically performed by the imaging control terminal 4.

  When receiving the PAS search instruction signal output from the imaging control terminal 4, the PACS server 5 reads the PAS from the PAS database 52 and further reads the evaluation information associated with the PAS from the evaluation information database 53. Then, it is determined whether there is evaluation information having a search condition designated by the PAS search instruction signal. More specifically, for example, when the PAS search instruction signal specifies PAS “used by laboratory technician A” as a search condition, the PACS server 5 uses the evaluation information read from the evaluation information database 53 as search information. In the search information, the evaluation information that matches the condition “used by laboratory technician A” is extracted. Then, the PACS server 5 reads out from the PAS database 52 and determines which PAS is associated with the extracted evaluation information. It is determined whether there is a PAS in the PAS database 52 that matches the search condition specified by the PAS search instruction signal (step 104). When the PACS server 5 determines that there is no PAS that matches the search condition (No in step 104), the PACS server 5 displays a warning indicating that there is no PAS that matches the search condition on the display of the imaging control terminal 4 (Step 105). On the other hand, if the PACS server 5 determines that there is a PAS that matches the search condition (Yes in step 104), the evaluation information of the matching PAS is read. Then, the PACS server 5 generates a PAS list in which the PAS is rearranged based on the evaluation information associated with the PAS. The PAS list generation process using the evaluation information will be described in detail later.

  When the PACS server 5 generates the PAS list, the PACS server 5 outputs the PAS list to the imaging control terminal 105 (step 106). Upon receiving the PAS list output from the PACS server 5, the imaging control terminal 4 displays this on the display and waits for the PAS to be selected from the PAS list by the laboratory technician. FIG. 5 shows an example in which a PAS list is displayed on the display of the imaging control terminal 4. PASs that match the search conditions entered in the search word input box 300 are displayed as a list in the PAS list display box 301. The PAS list displayed in the PAS list display box 301 displays, for example, the name of the PAS, a part of the medical image associated with the PAS, and the evaluation rank of the PAS generated based on the evaluation information. The evaluation order of PAS is performed based on, for example, medical image evaluation information. For example, a PAS with a small number of “x” is arranged at the top and a PAS with a large number of “x” is arranged at the bottom. For PASs having the same number of “x”, among the PASs having the same number of “x”, a PAS with a large number of “上位” is placed at the top and a PAS with a small number of “◎” is placed at the bottom. For PASs having the same number of “×” and “◎”, PASs with many “◯” are displayed at the top and PASs with few “◯” are displayed at the bottom. By this rearrangement, the PACS server 5 displays the PAS when the medical image determined to be bad by the doctor or the interpretation doctor is displayed at the lower level. On the other hand, the PAS when a medical image determined to be good is captured is displayed at the top. In addition, the PAS when a disease is found from the medical image is displayed at the top. As a result, the laboratory technician can preferentially select the PAS when it is determined to be good by the doctor or the interpretation doctor or when the disease is found from the medical image. In addition, it is possible to avoid a situation where a doctor or an interpreting doctor selects a PAS when it is determined that a medical image needs to be re-photographed. Note that the generation of the rank of the PAS list is not limited to the method described here. For example, after placing a PAS with a large number of “ま ず” at the top, the PAS may be rearranged based on the number of “O” and “x”, and the number of times of shooting using the PAS may be performed. The PAS may be rearranged by combining other evaluation information.

  When the inspection engineer operates the imaging control terminal 4 to select one of the PASs in the PAS list display box 301, the imaging control terminal 4 displays the imaging parameters of the selected PAS in the imaging parameter display box 302. For example, when the PAS specifies the imaging parameters of the MRI apparatus, the imaging parameter display box 302 displays the imaging sequence, imaging type, imaging time, and the like as a scan sequence. Further, the imaging control terminal 4 displays an evaluation information display box 303 together with the imaging parameter display box 302, and displays evaluation information of the selected PAS. For example, the evaluation information display box 303 displays the total of medical image evaluations input by a doctor or an interpreting doctor, the cumulative number of times the PAS has been used, and the like. By displaying the evaluation information display box 303, the laboratory technician can visually recognize what kind of evaluation has been performed on the selected PAS. Further, the photographing control terminal 4 displays a PAS detail display button 304, a PAS edit button 305, and a PAS apply button 306 along with the photographing parameter display box 302.

  When the inspection engineer operates the imaging control terminal 4 and selects the PAS detail display button 304, the imaging control terminal 4 accesses the PACS server 5 and the RIS / HIS server 2 and performs imaging using the selected PAS. Order information, patient information, etc. When the imaging control terminal 4 reads out the order information and the patient information, these information are displayed side by side. FIG. 6 shows an example in which PAS details are displayed on the display of the imaging control terminal 4. In the PAS detail display box 307, the imaging control terminal 4 displays PAS evaluation information, order information when imaging is performed using PAS, patient information, and the like. It should be noted that if there is information corresponding to the search condition input in the search word input box 300 among the information displayed in the PAS detail display box 307, the information corresponding to the search condition may be highlighted. good. Thus, the laboratory technician can easily recognize which information corresponds to the input search condition.

  When the inspection engineer operates the imaging control terminal 4 and selects the PAS edit button 305, the imaging control terminal 4 accesses the PACS server 5, reads out the imaging parameters constituting the selected PAS, and displays a screen for editing them. To do. FIG. 7 shows an example of displaying a screen for editing the PAS on the display of the imaging control terminal 4. The shooting control terminal 4 displays in the PAS edit box 308 shooting parameters that constitute the PAS, operation buttons for changing the shooting parameters, and the like. The buttons for changing the shooting parameters are not limited to those shown here, and the shooting parameters may be set using various methods such as directly specifying the shooting parameters using a keyboard or the like. The inspection engineer operates the imaging control terminal 4 to change the imaging parameter of the selected PAS. Thereby, when it is desired to change a part of the PAS parameters selected by the laboratory technician, the imaging parameters can be changed using the information displayed in the PAS edit box 308. Note that when the inspection engineer operates the imaging control terminal 4 to change the imaging parameters, the imaging parameters used for subsequent imaging differ from the PAS imaging parameters registered in advance. At this time, the PACS server 5 registers the shooting parameter whose value has been changed in the PAS database 52 as a new PAS.

  When the inspection engineer operates the imaging control terminal 4 and selects the PAS application button 306, the imaging control terminal 4 notifies the PACS server 5 of the selected PAS (step 107). When the PACS server 5 receives the PAS output from the imaging control terminal 4, the PACS server 5 reads the evaluation information associated with the PAS, and determines whether “x” is input to the medical image evaluation information (step 108). . When the PACS server 5 determines that “x” is input to the medical image evaluation information (Yes in step 108), the imaging control terminal 4 indicates that “x” is input to the medical image evaluation information. Output a warning signal. The warning signal output by the PACS server 5 may be performed when the number of “x” is greater than or equal to a predetermined number, and the PAS selected by the number of “x” is used. This may be performed when a predetermined ratio or more is input with respect to the number of times.

  When the imaging control terminal 4 receives the warning signal output from the PACS server 5, the imaging control terminal 4 displays a warning on the display. FIG. 8 shows an example in which a warning is displayed on the display of the imaging control terminal 4. In the warning display box 309, it is displayed that “x” is input to the evaluation information associated with the selected PAS. As a result, the laboratory technician can easily recognize that the selected PAS is determined to be re-photographed, and can take measures such as selecting another PAS as necessary. it can. In the warning display box 309, the number of times “x” is input may be displayed, or the PAS is reselected or the selected PAS is applied regardless of the number of times “x” is input. A selection button for selecting whether to continue can be displayed.

  If the PACS server 5 does not output a warning signal (No in step 108), the imaging control terminal 4 outputs the selected PAS to the imaging device 3 (step 110). When receiving the PAS output from the imaging control terminal 4, the imaging device 3 performs imaging based on the received PAS. When the imaging device 3 generates a medical image by imaging, the generated medical image is output to the PACS server 5 (step 111). Note that the PAS selected by the imaging control terminal 4 to the PACS server 5 and the evaluation information associated with the selected PAS may be output to the PACS server 5 in accordance with the imaging by the imaging device 3. Alternatively, the imaging device 3 may output the selected PAS and the evaluation information associated with the selected PAS to the PACS server 5. The output PAS and evaluation information are stored in the evaluation information database 52.

  When the PACS server 5 receives the medical image output from the imaging device 3, it outputs it to the interpretation terminal 6. When the interpretation terminal 6 receives the medical image output from the PACS server 5, it displays it on the display of the interpretation terminal 6. The interpretation doctor visually recognizes the medical image displayed on the interpretation terminal 6 and operates the interpretation terminal 6 to input finding information and evaluation information. FIG. 9 shows an example in which a medical image is displayed on the display of the image interpretation terminal 10. A medical image output from the PACS server 5 is displayed in the medical image display box 400. The interpretation doctor interprets an image using the medical image displayed in the medical image display box 400. When the interpretation doctor performs interpretation, the interpretation doctor 6 operates the interpretation terminal 6 to input the finding for the medical image in the finding input box 401. When the interpretation doctor performs interpretation, the interpretation terminal 6 operates the interpretation terminal 6 to input a medical image evaluation in the medical image evaluation box 402 and inputs a comment for the medical image in the medical image comment input box 403. When the interpretation doctor operates the interpretation terminal 6 and selects the transmission button 404, the interpretation terminal 6 uses the finding information input in the finding input box 401, the medical image evaluation input in the medical image evaluation box 402, and the medical image comment input box. A comment for the medical image input in 403 is output to the PACS server 5 (step 113). When the PACS server 5 receives the findings information, the medical image evaluation, and the comments on the medical image output from the image interpretation terminal 6, the PACS server 5 stores the findings information in association with the medical image in the image database 51, and the medical image evaluation and comments on the medical image. Are stored in the evaluation information database 53 in association with the PAS at the time of imaging and the medical image obtained by imaging.

  When the PACS server 5 receives the finding information output from the image interpretation terminal 6, it outputs the received finding information to the diagnostic terminal 1 and a medical image associated with the finding information (step 114). When the diagnostic terminal 1 receives the finding information and the medical image, the diagnostic terminal 1 displays them on the display of the diagnostic terminal 1. The doctor visually recognizes the medical image and the finding information displayed on the diagnostic terminal 1 and diagnoses the patient. In addition, the doctor operates the diagnostic terminal 1 to input finding information and evaluation information for the medical image. The input of the finding information and the evaluation information can be performed by the method described above with reference to FIG. 9, for example. Based on the operation of the doctor, the diagnostic terminal 1 outputs the findings information, the medical image evaluation, and the comment on the medical image to the PACS server 5 (step 115). When the PACS server 5 receives the findings information, the medical image evaluation, and the comments about the medical image output from the diagnostic terminal 6, the PACS server 5 stores the findings information in association with the medical image in the image database 51, and the medical image evaluation and the medical image The comment is stored in the evaluation information database 53 in association with the PAS at the time of imaging and the medical image obtained by imaging.

Through the above processing, the laboratory technician narrows down the PAS to be displayed by specifying the search condition, and further displays the PAS in a list. Then, the inspection engineer specifies the imaging parameters of the imaging device 3 by selecting the PAS displayed in the PAS list. The PACS server 5 extracts matching PASs based on the search condition, rearranges the extracted PASs based on the evaluation information, and lists them. The evaluation information is output from the imaging control terminal 4 to the PACS server 5 when the imaging control terminal 4 outputs the imaging instruction signal. The evaluation information is output from the diagnostic terminal 1 and the interpretation terminal 6 to the PACS server 5 when the evaluation information is input to the diagnostic terminal 1 and the interpretation terminal 6 displaying the medical image. Therefore, the inspection engineer can extract and select the PAS based on the evaluation information output from the imaging device 3, the diagnostic terminal 1, and the image interpretation terminal 6. Further, by selecting from the listed PASs, it is possible to preferentially select a PAS suitable for taking a medical image.

(PAS list generation process)
FIG. 10 is a flowchart describing the flow of processing when the PACS server 5 generates a PAS list. The PAS list generation process will be described below with reference to FIG.

  First, when the PACS server 5 starts processing (step 200), the PACS server 5 accepts a PAS search instruction output from the imaging control terminal 4 (step 201). When the PACS server 5 receives the PAS search instruction output from the imaging control terminal 4, the PACS server 5 reads the PAS from the PAS database 52, further reads the evaluation information associated with the PAS from the evaluation information database 53, and the PAS search instruction. It is determined whether there is a PAS in the PAS database 52 that matches the search condition specified by (step 202). When the PACS server 5 determines that there is no PAS that matches the search condition (No in step 202), the PACS server 5 transmits a warning signal indicating that there is no PAS that matches the search condition to the imaging control terminal 4. (Step 203). When the PACS server 5 transmits a warning signal to the imaging control terminal 4, the PACS server 5 outputs an inquiry signal to the imaging control terminal 4 inquiring whether or not the inspection engineer sets the imaging parameters one by one without using the PAS. Then, it waits for a response from the imaging control terminal 4 (step 204). When the PACS server 5 receives from the shooting control terminal 4 a notification signal indicating that the shooting parameters are not set one by one, the PACS server 5 receives the PAS search instruction output from the shooting control terminal 4 again (step 201). When the PACS server 5 receives a notification signal indicating that the shooting parameters are to be set one by one from the shooting control terminal 4, the PACS server 5 waits for shooting parameters output from the shooting control terminal 4 (step 205). When the PACS server 5 receives the shooting parameter output from the shooting control terminal 4, it registers the received shooting parameter in the PAS database 52 as a new PAS. The PACS server 5 outputs the PAS to the imaging control terminal 4 (step 213) and ends the process (step 214). The photographing control terminal 4 outputs the newly registered PAS to the photographing device 3 and performs photographing by the photographing device 3.

  On the other hand, when the PACS server 5 determines that there is a PAS that matches the search condition (Yes in step 202), the PACS server 5 reads a PAS that matches the search condition from the PAS database 52 (step 206). Then, the PACS server 5 reads the evaluation information associated with the read PAS, and generates a PAS list based on the evaluation information (step 207). Specifically, the generation of the PAS list can be performed based on the number of “◎”, “◯”, and “×” included in the above-described medical image evaluation information. When the PACS list is generated, the PACS server 5 outputs the generated PAS list to the imaging control terminal 4 (step 208), and accepts a PAS selection signal output by the imaging control terminal 4 (step 209). When the PACS server 5 receives the PAS selection signal output from the imaging control terminal 4, the PACS server 5 reads the evaluation information associated with the PAS indicated by the selection signal, and “x” is included in the medical image evaluation information. (Step 210).

  When the PACS server 5 determines that “x” is not included in the medical image evaluation information of the selected PAS (No in Step 210), the PACS server 5 outputs the PAS to the imaging control terminal 4 (Step 213). Then, the process ends (step 214). The photographing control terminal 4 outputs the newly registered PAS to the photographing device 3 and performs photographing by the photographing device 3.

On the other hand, when the PACS server 5 determines that “x” is included in the medical image evaluation information of the selected PAS (Yes in step 210), the PACS server 5 needs to re-photograph the selected PAS. A warning signal indicating PAS is output to the imaging control terminal 4, and the warning signal is displayed on the imaging control terminal 4 (step 211). When the PACS server 5 displays a warning signal on the photographing control terminal 4, the PACS server 5 receives a warning response signal output from the photographing control terminal 4. When the PACS server 5 determines that the warning response signal output by the imaging control terminal 4 indicates that the PAS to which the warning signal is transmitted is applied (No in step 212), the PACS server 5 performs the imaging control. PAS is output to the terminal 4 (step 213), and the process is terminated (step 214). The photographing control terminal 4 outputs the newly registered PAS to the photographing device 3 and performs photographing by the photographing device 3. When the PACS server 5 determines that the warning response signal output by the photographing control terminal 4 indicates that the PAS is selected again (Yes in step 212), the PACS server 5 again uses the photographing control terminal 4. An output PAS selection signal is received (step 209).

(Effect of this embodiment)
Through the above processing, the setting of the shooting parameters of the shooting device 3 by the shooting control terminal 4 is performed using the PAS stored in the PAS database in the PACS server 5. Therefore, an examination engineer who operates the imaging control terminal 4 can collectively set imaging parameters by selecting a PAS when generating a medical image using the imaging apparatus 3. Since the inspection engineer does not need to set the imaging parameters one by one, the operation load of the imaging parameter setting by the inspection engineer can be reduced.

  Also, through the above processing, the PAS selection by the imaging control terminal 4 is performed by selecting one from the PAS list generated by the PACS server 5. The generation of the PAS list is performed based on the PAS that matches the search condition specified by the laboratory technician. Therefore, when an examination engineer who operates the imaging control terminal 4 selects one of a large number of PASs, by specifying a search condition based on order information, patient information, or evaluation information associated with the PAS. Only PAS satisfying a desired search condition can be extracted and displayed in a list. Since the inspection engineer can display only the PAS satisfying the desired search condition, the operation load when selecting the PAS by the inspection engineer can be reduced.

  Further, through the above processing, the generation of the PAS list by the PACS server 5 is rearranged based on “x” included in the medical image evaluation information. “X” included in the medical image evaluation information indicates that the medical image captured by the imaging apparatus 3 using the same PAS has been pointed out that the doctor or the interpretation doctor who has viewed the medical image needs to be re-photographed. Information. That is, it can be said that a PAS including “x” in the medical image evaluation information is a PAS that can generate a medical image unsuitable for diagnosis. Therefore, when an examination engineer operating the imaging control terminal 4 selects one of many PASs, it is possible to avoid selecting a PAS that can generate a medical image that is not suitable for diagnosis. The operation load at the time of selection can be reduced.

  In addition, when the inspection engineer selects a PAS including “x” in the medical image evaluation information, the PACS server 5 performs imaging control of a warning indicating that the PAS including “x” is selected. It is displayed on the terminal 4. Therefore, when the inspection engineer who operates the imaging control terminal 4 selects one of the many PASs, if a PAS that can generate a medical image unsuitable for diagnosis is selected, this is given to the inspection engineer. Since notification can be made, it is possible to prevent a situation where a PAS that can generate a medical image unsuitable for diagnosis is selected.

  Further, through the above processing, the generation of the PAS list by the PACS server 5 is rearranged based on “◎” included in the medical image evaluation information. “◎” included in the medical image evaluation information is information indicating that a medical image captured by the imaging apparatus 3 using the same PAS is pointed out as being highly evaluated by a doctor or an interpreting doctor who has viewed the medical image. It is. Therefore, when selecting one from among a large number of PASs, an examination engineer who operates the imaging control terminal 4 preferentially selects a PAS that can generate a medical image pointed out to be highly evaluated by a doctor or an interpreting physician. Therefore, it is possible to reduce an operation load when selecting a PAS by an inspection engineer.

  Further, through the above processing, the generation of the PAS list by the PACS server 5 is rearranged based on “◯” included in the medical image evaluation information. “◯” included in the medical image evaluation information is information indicating that a disease has been found by a doctor or an interpreting doctor who visually recognizes the medical image from medical images captured by the imaging apparatus 3 using the same PAS. . That is, it can be said that a PAS including “◯” in the medical image evaluation information is a PAS that can generate a medical image suitable for diagnosis. Therefore, the laboratory technician who operates the imaging control terminal 4 can preferentially select a PAS that can generate a medical image suitable for diagnosis when selecting one from a large number of existing PASs. The operation load at the time of PAS selection by can be reduced.

  Further, through the above processing, the imaging control terminal 4 can change PAS imaging parameters after selecting PAS. Further, when the PAS shooting parameters are changed, the PACS server 5 registers the PAS with the changed shooting parameters in the PAS database 52 as a new PAS. Thereby, the inspection engineer can freely change the imaging parameter even when the selected PAS is different from the imaging parameter capable of performing desired imaging. Further, by registering the PAS with the changed imaging parameter as a new PAS in the PAS database, the PAS with the changed imaging parameter can be appropriately selected when performing another imaging.

The configuration of the present invention is not limited to what has been described here, and various inventions can be formed by appropriate combinations of a plurality of components disclosed in the above embodiments. For example, the medical information terminal for managing the PAS is not limited to the PACS server 5, and other medical information terminals such as the RIS / HIS server 2 and the imaging control terminal 4 may be configured to manage the PAS. . Or you may delete a some component from all the components shown by embodiment. Or you may combine the component covering a different Example suitably.

DESCRIPTION OF SYMBOLS 1 Diagnosis terminal 2 RIS / HIS server 3 Imaging device 4 Imaging control terminal 5 PACS server 6 Interpretation terminal 10 Medical information system 21 Order information database 22 Patient database 51 Image database 52 Imaging parameter database 53 Evaluation information database

Claims (7)

Storage means for storing imaging parameters at the time of imaging of the medical image associated with the medical image, search information and medical image evaluation information associated with the imaging parameter,
According to the search condition, a list generation unit that extracts imaging parameters that match at least part of the search conditions and the search information, and generates an imaging parameter list based on the medical image evaluation information associated with the extracted imaging parameters;
A medical information apparatus comprising: a list output unit that outputs an imaging parameter list. 2. The medical parameter list according to claim 1, wherein the list generation unit generates the imaging parameter list based on the disease discovery information indicating whether or not a disease has been found from the medical image included in the medical image evaluation information. Information device. 3. The medical information according to claim 1, wherein the list generation unit generates the imaging parameter list based on inappropriate information included in the medical image evaluation information indicating that the medical image is not suitable for diagnosis. apparatus. The medical information device further includes output means for outputting imaging parameters selected based on the imaging parameter list,
The medical information according to claim 3, wherein the output means outputs a warning indicating that the medical image evaluation information associated with the selected imaging parameter includes inappropriate information when the medical image evaluation information includes the inappropriate information. apparatus. 5. The medical information apparatus according to claim 1, wherein the list generation unit generates an imaging parameter list by rearranging the extracted imaging parameters based on medical image evaluation information. 6. The medical information apparatus according to claim 1, further comprising an output unit that outputs an imaging parameter selected based on an imaging parameter list. Storage means for storing imaging parameters at the time of imaging of the medical image associated with the medical image, search information and medical image evaluation information associated with the imaging parameter,
A search condition specifying means for specifying a search condition;
According to the search condition, a list generation unit that extracts imaging parameters that match at least part of the search conditions and the search information, and generates an imaging parameter list based on the medical image evaluation information associated with the extracted imaging parameters;
A selection means for selecting a shooting parameter based on the shooting parameter list;
A medical information system comprising: an imaging unit that images a patient based on an imaging parameter selected by the selection unit and generates a medical image.

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