JP2006055432A - Medical image diagnostic system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an improved medical image diagnostic system which facilitates condition setup operations for a PET examination and an X-ray CT examination and eliminates troubles of carrying out a condition setup operation between the examinations when carrying out the examinations sequentially. <P>SOLUTION: The medical image diagnostic system has a PET apparatus 1, an X-ray CT apparatus 2, and a communication section 3 for carrying out bidirectional data communication between the apparatuses. Either condition setup section 15 or 25 can read examination condition templates stored in a condition storing section 16 or 26 of the other apparatus via the communication section 3. With such a configuration, condition setup operation of one examination can be carried out by the other apparatus before performing a PET examination and an X-ray CT examination sequentially. For example, when the PET apparatus 1 reads out a PET examination template and carries out a condition setup operation for a PET examination, the PET apparatus can also import an X-ray CT examination template from the X-ray CT apparatus 2, display it on an import display section 14, and determine and carry out a setup operation by operating the condition setup section 15. The template information thus determined is sent to the X-ray CT apparatus 2, and an X-ray CT examination is carried out after a PET examination on the basis of the information. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a medical image diagnostic system suitable for early detection of cancer and the like, and more particularly to a medical image diagnostic system in which a PET (positron emission tomography) apparatus and an X-ray CT apparatus are combined.

  In the PET apparatus, a distribution image (tomographic image) of the positron-emitting nuclide in a specific cross section of the subject (patient) is obtained by calculation. A drug having the property of gathering in a cancer lesion is labeled with a positron-emitting nuclide, and then this drug is administered into the human body. Since gamma rays are emitted in the opposite direction of 180 ° when the positron disappears, this is detected around 360 ° of the human body and the simultaneous incidence of the two gamma rays is detected. Since the nuclide is located on the line connecting the incident positions, data of the line connecting the incident positions is obtained as position data. By collecting such position data for a certain period of time and processing it, the nuclide distribution image is reconstructed. Since this distribution image (tomographic image) represents the size and shape of the cancer lesion itself, direct diagnosis is possible. However, since this PET image only represents the accumulation / distribution state of the nuclide, it is not necessarily clear where it exists in the human body tissue.

  On the other hand, in the X-ray CT apparatus, X-ray projection data (absorption distribution data) from each direction in a cross section perpendicular to the body axis is obtained by rotating the X-ray tube and the X-ray detector around the body axis of the subject. And the projection data is backprojected to reconstruct an X-ray absorption distribution image (X-ray CT image) in the cross section. This X-ray CT image represents the tissue shape inside the human body in the cross section.

  Therefore, in order to make a reliable diagnosis, a PET examination and an X-ray CT examination are conventionally performed on the same patient using a PET apparatus and an X-ray CT apparatus, and the obtained PET image and X-ray CT image are obtained. To make a diagnosis.

  However, conventionally, the conditions for the PET examination and the conditions for the X-ray CT examination are individually set before each examination. Therefore, when a PET examination and an X-ray CT examination are continuously performed on a single patient, after the first PET examination or the X-ray CT examination is completed, the conditions of the X-ray CT examination or the PET examination to be performed next are set. It must be set, the work is complicated, the efficiency is low, and the throughput is reduced.

  In order to avoid this, it is conceivable that the conditions for both inspections are set at the same time before the start of both inspections, and this is stored as one inspection condition template. However, even in this case, if there are a large number of test condition setting templates held, the change operation becomes difficult.

The following Patent Document 1 describes a system that uses a PET apparatus, an X-ray CT apparatus, and an examination table common to the PET apparatus, but this system obtains data obtained by the X-ray CT apparatus based on the PET data. It is intended to be used for absorption correction, and is not intended to obtain a CT image for diagnosis from an X-ray CT apparatus, and does not mention any problems with setting conditions for both examinations.
Japanese Patent Laid-Open No. 7-20245

  An object of the present invention is to facilitate the condition setting work of both inspections when performing PET inspection and X-ray CT inspection sequentially, and to eliminate the complexity of performing the condition setting work between both inspections. Another object of the present invention is to provide a medical image diagnostic system improved.

  In addition, when planning for performing PET inspection, X-ray CT inspection, or both inspections using planning images such as PET images or CR images taken in advance, it is easy to set conditions for either or both of them. Another object of the present invention is to provide a medical image diagnostic system improved so that it can be performed.

  To achieve the above object, a medical image diagnostic system according to the present invention includes a PET data collection unit, a PET image reconstruction unit that reconstructs a PET image from the collected data, a display that displays the reconstructed PET image and a setting screen. An X-ray CT, a PET unit including a scanning unit, a recording unit for recording an image, a PET condition setting unit for inputting and inputting a PET examination condition, a PET examination condition holding unit for holding a PET examination condition, and a control unit for controlling them Data collection unit, X-ray CT image reconstruction unit that reconstructs an X-ray CT image from collected data, a display unit that displays the reconstructed X-ray CT image and a setting screen, a recording unit that records an image, and an X-ray CT X-ray CT including an X-ray CT condition setting unit for inputting setting of inspection conditions, an X-ray CT inspection condition holding unit for holding X-ray CT inspection conditions, and a control unit for controlling them And a communication unit that bidirectionally communicates data between the PET apparatus and the X-ray CT apparatus. Each condition setting unit of both apparatuses refers to and selects a condition setting template mutually through the communication unit. It is characterized by being configured to be possible.

  Each of the above condition setting units displays a planning image, and when performing an inspection planning including setting of one or both of the PET inspection conditions and the X-ray CT inspection conditions, the condition setting templates are mutually connected through the communication unit. It may be characterized in that reference and selection are possible.

  The medical image diagnostic system includes a PET data collection unit, a PET image reconstruction unit that reconstructs a PET image from the collected data, a PET condition setting unit that inputs and inputs a PET examination condition, and a PET that holds the PET examination condition An inspection condition holding unit, a PET control unit that controls these PET operations, an X-ray CT data acquisition unit, an X-ray CT image reconstruction unit that reconstructs an X-ray CT image from the collected data, and an X-ray CT An X-ray CT condition setting unit for setting and inputting inspection conditions, an X-ray CT inspection condition holding unit for holding X-ray CT inspection conditions, an X-ray CT control unit for controlling these X-ray CT operations, and the PET A communication unit that performs bidirectional communication between the control unit and the X-ray CT control unit, a display unit that displays the reconstructed PET image and the X-ray CT image, and a recording unit that records these images Prepared, P T condition setting unit and the X-ray CT condition setting unit may be configured to allow the reference and selection condition setting template to each other via the communication unit.

  Each of the above condition setting units displays the planning image, and performs the inspection planning including setting of one or both of the PET inspection condition and the X-ray CT inspection condition, and the PET control unit and the X-ray CT control unit. The condition setting template may be referred to and selected from each other via a communication unit that performs two-way communication with each other.

  The PET data collection unit is a so-called PET gantry, and the X-ray CT data collection unit is a so-called X-ray CT gantry. The PET image and the X-ray CT image can be reconstructed from the data collected by these by each image reconstruction unit, and these images are displayed on the display unit and recorded on the recording unit. When such PET inspection and X-ray CT inspection are sequentially performed, it is necessary to perform respective condition setting operations prior to both inspections. At that time, in the case where data is bidirectionally communicated between the PET apparatus and the X-ray CT apparatus via the communication unit, the condition setting units of both apparatuses are mutually connected through the communication unit. Since the condition setting template can be referred to and selected, when the PET condition is set in the PET apparatus, the X-ray CT condition setting template is read from the X-ray CT examination condition holding unit and the X-ray CT condition is set at the same time. In other words, when an X-ray CT inspection is subsequently performed after the PET inspection, the X-ray CT inspection can be performed according to the set X-ray CT conditions. Conversely, when performing a PET examination subsequent to an X-ray CT examination, similarly, the X-ray CT condition setting is performed before the X-ray CT examination is started, and at the same time, a PET examination condition setting template is read out from the PET examination condition holding unit. Thus, the PET condition is set, and the PET inspection that is subsequently performed after the X-ray CT inspection can be performed according to the set PET condition.

  Further, when planning for one or both of these inspections, it is necessary to display a planning image taken in advance and determine the position and conditions for taking the image. As a planning image, a PET image may be used, or a CR image (an X-ray transmission image from one direction) configured from data obtained from an X-ray CT data acquisition unit may be used. At that time, when the data is bidirectionally communicated between the PET apparatus and the X-ray CT apparatus via the communication unit, the condition setting template can be referred to and selected from each other through the communication unit. Therefore, one or both of the PET inspection condition and the X-ray CT inspection condition can be easily set, and the inspection planning operation including these settings is facilitated.

  When performing the respective condition setting operations prior to both the PET inspection and the X-ray CT inspection, the PET apparatus and the X-ray CT apparatus are configured integrally, and the PET control unit and the X-ray CT It is configured such that a condition setting template can be referred to and selected between the PET condition setting unit and the X-ray CT condition setting unit via a communication unit that performs two-way communication with the CT control unit. In this case, when setting the PET condition in the PET condition setting unit, the X-ray CT condition setting template can be read from the X-ray CT examination condition holding unit at the same time to set the X-ray CT condition. When setting the X-ray CT condition in the line CT condition setting unit, it is possible to read the PET condition setting template from the PET examination condition holding unit and set the PET condition. It can be sequentially easily perform a PET scan and X-ray CT examination in order.

  When planning for one or both of these examinations, the PET apparatus and the X-ray CT apparatus are configured as a single unit, and bidirectional communication is performed between the PET controller and the X-ray CT controller. When the PET condition setting unit and the X-ray CT condition setting unit can refer to and select the condition setting template through the communication unit, the PET inspection condition and the X-ray CT inspection One or both of the conditions can be easily set, and the inspection planning work including these settings is facilitated.

  In each of the above configurations, a combination template obtained by combining both inspection condition setting templates is held in both inspection condition holding units, and the other inspection condition setting is performed in one condition setting unit by reading the combination template. You may do it.

  After setting the other inspection condition in one condition setting section, if the other condition setting template is changed, it is possible to notify the one condition setting section so that the correction or modification corresponding to the change can be made. Easy to reset.

  Next, a medical image diagnostic system embodying the present invention will be described with reference to the drawings.

  As shown in FIG. 1, the medical diagnostic imaging system according to the first embodiment of the present invention includes a PET apparatus 1, an X-ray CT apparatus 2, and a communication unit 3 that performs bidirectional data communication therebetween. In other words, it can be said to be a system in which an independent PET apparatus 1 and an X-ray CT apparatus 2 are combined via a communication unit 3.

  The PET apparatus 1 includes a PET gantry 11 and an examination table 12. After the subject (patient) is administered with the positron-releasing drug, the subject (patient) is placed on the bed top of the examination table 12 and moved, and is examined by the PET gantry 11. The PET gantry 11 includes a radiation detector and a coincidence circuit that detect simultaneous incidence of gamma rays emitted in the opposite directions of 180 °. The collected coincidence data is subjected to image reconstruction processing by the PET image reconstruction unit 17 to obtain a PET image. This PET image is displayed on the display unit 14. The PET condition setting unit 15 displays an examination (imaging) condition setting screen on the display unit 14, and the conditions for the PET examination are set by operating a keyboard or a mouse while viewing this screen. The set PET condition is held in the PET condition holding unit 16. The recording unit 18 includes a hard disk device or the like, and records a reconstructed PET image, collected data, and the like. The PET condition holding unit 16 can be configured by using a part of the recording unit 18, but may be configured by using another hard disk device or a memory. The control unit 13 controls these units and controls each operation such as data collection, image reconstruction, condition setting, and the like.

  The X-ray CT apparatus 2 has an X-ray CT gantry 21. The examination table 12 for placing the subject (patient) on the top plate and inserting it into the tunnel part of the X-ray CT gantry 21 is shared with the PET apparatus 1. The X-ray CT gantry 21 includes an X-ray generator (an X-ray tube and an X-ray high voltage device), an X-ray detector, a rotation mechanism for rotating them, and the like. With the line detectors facing each other, they rotate around the tunnel portion, that is, around the subject inserted in the tunnel portion, and scan by the X-ray beam is performed. Data collected from the X-ray detector output is sent to the X-ray CT image reconstruction unit 27 and subjected to image reconstruction processing to obtain an X-ray CT image. This X-ray CT image is displayed on the display unit 24. The X-ray CT condition setting unit 25 displays an inspection (imaging) condition setting screen on the display unit 24, and the conditions of the X-ray CT inspection are set by operating a keyboard or a mouse while viewing the screen. Is set. The set X-ray CT condition is held in the X-ray CT condition holding unit 26. The recording unit 28 includes a hard disk device and the like, and records a reconstructed X-ray CT image, collected data, and the like. The X-ray CT condition holding unit 26 can be configured by using a part of the recording unit 28, but may be configured by using another hard disk device or memory. The control unit 23 controls each of these units and controls each operation such as data collection, image reconstruction, and condition setting.

  The communication unit 3 includes a network and the like, and includes a network adapter mounted on each of the PET apparatus 1 and the X-ray CT apparatus 2 and software such as a communication protocol. Here, bidirectional communication of inspection condition setting data in each apparatus is performed.

  The examination conditions in the PET apparatus 1 are, for example, data collection time, data collection range, drug dosage, administration time, etc. The examination conditions in the X-ray CT apparatus 2 are, for example, tube voltage, tube current, examination table of the X-ray tube. In addition to those related to the operation of the device such as the top plate moving speed, the rotational speed of the X-ray tube and the X-ray detector, there are those related to the image reconstruction processing such as the field of view range of the image and the filter. These inspection conditions are basically set by the operator in each of the PET apparatus 1 and the X-ray CT apparatus 2 before the inspection. Actually, typical or frequently used inspection conditions are held as templates in the PET condition holding unit 16 and the X-ray CT condition holding unit 26, respectively, which are read and used. This template may be provided as a standard when installed in a hospital or the like, or may be created independently as the user uses it.

  Here, it is assumed that ten types of templates are held in the PET condition holding unit 16 and the X-ray CT condition holding unit 26 as shown in FIG. 2 as templates for PET inspection and X-ray CT inspection, respectively. Numbers # 1 to # 10 are assigned as the PET inspection templates, and # 51 to # 60 are assigned as the X-ray CT inspection templates, and the numbers are managed. Note that the number of templates is not limited to 10 each, and instead of managing by number, it may be managed by assigning an appropriate name, or by combining the number and name. You may make it manage.

  A case where a PET examination is first performed on the same patient and an X-ray CT examination is subsequently performed will be described with reference to the flowchart of FIG. In this case, conditions for PET inspection are set prior to PET inspection. At this time, the operator selects any of the templates # 1 to # 10. Here, if the template # 1 is selected, the PET inspection condition stored as the template # 1 is the PET condition holding unit. 16 and displayed on the screen of the display unit 14. And each condition is confirmed, it changes as needed, and the value after a change is made into a setting value.

  When this is completed, X-ray CT inspection conditions are also set. For this X-ray CT examination condition setting, for example, a display as shown in FIG. 3 appears as one of the setting items displayed on the PET examination condition setting screen to prompt the user to specify a template for the X-ray CT examination condition. ing. The X-ray CT examination condition template is held in advance in the X-ray CT condition holding unit 26 of the X-ray CT apparatus 2 as described above, and is read out via the communication unit 3 by designating a number on the PET apparatus 1 side. And taken into the PET apparatus 1 side. If the operator selects # 51 here, each item of the X-ray CT inspection condition held as the template of # 51 is displayed on the screen of the display unit 14 of the PET apparatus 1, and this is confirmed. Then, after changing each item as necessary, the setting of the X-ray CT examination conditions is completed.

  After the specified X-ray CT examination condition template information is taken into the PET apparatus 1 side, if the designated template is deleted or changed on the X-ray CT apparatus 2 side, that is immediately The line CT apparatus 2 notifies the PET apparatus 1. Accordingly, for example, a warning message such as “the specified template does not exist” or “the content of the specified template has been changed” is displayed on the display unit 14 of the PET apparatus 1. This message allows the operator to reset the X-ray CT examination conditions as necessary.

  Thus, the setup is completed by setting and confirming all of the PET inspection conditions and the X-ray CT inspection conditions on the PET apparatus 1 side (in this example, it is assumed that the PET inspection and the X-ray CT inspection are sequentially performed). Therefore, when all of the conditions are set, the setup will be completed. However, if only one inspection is performed, it is not necessary to enter the conditions for both inspections. At this time, when the “scan” button prepared on the menu screen displayed by the display unit 14 is clicked, the PET examination (PET data collection) is started. When the data collection is completed, the image reconstruction process starts, and the reconstructed PET image is displayed on the display unit 14 and recorded in the recording unit 18. In this way, the PET examination is completed. At that time, the X-ray CT examination condition (template) information set in the PET apparatus 1 is notified to the X-ray CT apparatus 2 side (see FIG. 4).

  Subsequently, the operation of the X-ray CT apparatus 2 starts. First, the # 51 template information designated by the PET apparatus 1 is taken into the X-ray CT apparatus 2, and each setting item of the template designated by this # 51 is X-ray. The data is read from the X-ray CT condition holding unit 26 of the CT apparatus 2 and displayed on the display unit 24. Confirm each setting item and confirm the condition. At this time, the operator can change this condition as necessary on the X-ray CT apparatus 2 side. However, since a condition that seems to be appropriate is usually set immediately before that (before the PET examination), There should be no change or minimal change. When the setup is completed in this way, the X-ray CT examination (X-ray CT data collection) is started by clicking the “scan” button prepared on the menu screen displayed by the display unit 24. When data acquisition is completed, image reconstruction processing starts in the X-ray CT image reconstruction unit 27, and the reconstructed X-ray CT image is displayed on the display unit 24 and recorded in the recording unit 28. Thus, the X-ray CT examination is completed, and the PET examination and the subsequent X-ray CT examination are also finished (see FIG. 4).

  In this way, when a PET examination is first performed on the same patient and an X-ray CT examination is subsequently performed, not only the PET examination conditions but also the X-ray CT examination conditions are set before the PET examination. Therefore, it is not necessary to set many condition parameters for the X-ray CT inspection before the X-ray CT inspection is started after the PET inspection is completed, and both inspections can be executed smoothly.

  In the above description, the PET inspection is performed first and the X-ray CT inspection is performed later, but it is needless to say that the reverse order is the same. Further, in the above, when performing PET inspection and X-ray CT inspection sequentially, the condition template for both inspections is specified by one apparatus before the first inspection, and the information is sent to the other apparatus. A combination template obtained by combining a PET inspection template and an X-ray CT inspection template may be designated. In that case, the combination template is held in the PET condition holding unit 16 of the PET apparatus 1 and the X-ray CT condition holding unit 26 of the X-ray CT apparatus 2. By specifying and reading out the held template, the PET condition and the X-ray CT condition are set. If there is a change, or if it has been read by one device and then changed by another device, it is notified in the same manner as described above, and resetting is prompted by the occurrence of a warning message or the like.

  Further, in the medical image diagnostic system shown in FIG. 1, not only the respective conditions are set before the PET examination and the X-ray CT examination sequentially performed on the same patient as described above, but also the already acquired data or It is also possible to perform imaging planning for each examination using an image. Planning determines in advance which part, in which range, what slice pitch, how many PET images and X-ray CT images are to be taken, and how each condition is to be taken. The PET image or CR image that has been collected and reconstructed is displayed, and the position and the like are determined based on the PET image or CR image. Here, the CR image means that the rotation angle of the X-ray tube of the X-ray CT gantry and the X-ray detector is fixed, the X-ray scan is performed in the body axis direction of the patient, and the collected data is arranged in the scan direction and reproduced It is the comprised X-ray transmission image seen from the X-ray irradiation direction. When such planning is performed, these planning images are displayed on one of the display units 14 and 24, and the imaging position and each condition thereof are set. In this case, as described above, Since each condition of the X-ray CT examination can be mutually referred and selected via the bidirectional communication unit 3, either the PET condition setting unit 15 or the X-ray CT condition setting unit 25 can set both examination conditions. It can be set, and the whole planning work can be easily performed.

  FIG. 5 shows a second embodiment of the present invention. In this example, the PET apparatus and the X-ray CT apparatus are integrated, that is, the display unit 51 and the recording unit 52 are shared in addition to the examination table 12. The PET gantry 11 as hardware is the same as that shown in FIG. 1 and includes a radiation detector that detects simultaneous incidence of gamma rays emitted in the opposite direction of 180 ° and a coincidence counting circuit. Controlled by. The PET control unit 41 controls the examination table 12 in synchronization with the operation of the PET gantry 11, and includes a PET condition setting unit 15, a PET condition holding unit 16, and a PET image reconstruction unit 17 similar to those shown in FIG. Also controls.

  The X-ray CT gantry 21 is the same as that shown in FIG. 1, and includes an X-ray generator (X-ray tube and X-ray high voltage device), an X-ray detector, a rotating mechanism for rotating these, and the like. Has been. The operation of the X-ray CT gantry 21 is controlled by the X-ray CT control unit 42. The X-ray CT control unit 42 controls the examination table 12 in synchronization with the operation of the X-ray CT gantry 21, and the same X-ray CT condition setting unit 25, X-ray CT condition holding unit 26, X The line CT image reconstruction unit 27 and the like are also controlled.

  The PET condition setting unit 15 and the X-ray CT condition setting unit 25 display a setting input screen for each condition and input the setting as described in FIG. 1, but these setting input screens are common. It is displayed on the display unit 51. The display unit 51 is also used for displaying the reconstructed PET image and the X-ray CT image. The recording unit 52 is composed of a hard disk device or the like, and records these PET images and X-ray CT images and also records the collected PET data and X-ray CT data.

  The PET condition holding unit 16 and the X-ray CT condition holding unit 26 may be configured in the recording unit 52, or may be configured by another hard disk device or a memory. Each of the PET image reconstruction unit 17 and the X-ray CT image reconstruction unit 27 can also be configured as dedicated hardware, but can also be configured by software using the arithmetic processing capability of one CPU. The PET control unit 41 and the X-ray CT control unit 42 can also be configured as respective control processes using one CPU. In this case, the PET control unit 41 and the X-ray CT are assumed to perform communication between these processes. A local communication unit 43 that performs bidirectional communication between the control units 42 is configured.

  Also in the case of FIG. 5, since the PET control unit 41 and the X-ray CT control unit 42 perform two-way communication via the local communication unit 43, when setting the PET examination conditions in the PET condition setting unit 15, The X-ray CT condition setting unit 25 can read out the X-ray CT condition setting template and set the conditions for the X-ray CT examination. Conversely, the X-ray CT condition setting unit 25 can perform the X-ray CT examination. When the above conditions are set, the PET condition setting template held in the PET condition holding unit 16 can be read to set the conditions for the PET examination. Therefore, when performing a PET examination and an X-ray CT examination sequentially on the same patient, the setting operation of each condition can be set before both these examinations are started, and two sequential examinations can be performed smoothly. This can be executed as in the case of FIG.

  In addition, when performing planning after displaying a planning image such as a PET image or a CR image, which has been collected and reconstructed in advance, on the display unit 51, each condition of the PET examination and the X-ray CT examination depends on the local conditions. Since it is possible to refer to and select each other via the communication unit 43, it is possible to set both inspection conditions in one of the PET condition setting unit 15 or the X-ray CT condition setting unit 25, and the entire planning work can be performed. It becomes easy.

  In the first embodiment, the PET apparatus and the X-ray CT apparatus are configured separately and independently, and in the second embodiment, these are integrated. Even when they are integrated, the PET gantry 11 and the X-ray CT gantry 21 as hardware cannot be made common or integrated. That is, the case where the gantry is configured separately is a case where the other parts except the gantry 11, 21 and the examination table 12 are configured as separate PCs (computers), respectively, and are integrated. Is a case where the other parts excluding both the gantry 11, 21 and the examination table 12 are constituted by one PC (computer). When configured with separate PCs, the bidirectional communication unit 3 between them is typically a network communication means (including a protocol such as TCP / IP) between computers. In the case of a single PC, the local communication unit 43 is formed as interprocess communication in a closed system in the local computer. However, it is needless to say that various forms can be taken between the case of completely separate and independent integration and the case of complete integration. The communication units 3 and 43 are not limited to the above.

  According to the medical image diagnostic system of the present invention, when a PET examination and an X-ray CT examination are sequentially performed on the same subject, both examination conditions are set before the examination is started. Time and labor are not lost for setting conditions, and both inspections can be executed smoothly. In addition, when planning for performing PET inspection, X-ray CT inspection, or both inspections using planning images such as PET images or CR images taken in advance, it is easy to set conditions for either or both of them. It can be carried out.

1 is a block diagram of a medical image diagnostic system according to an embodiment of the present invention. The figure which shows the condition template of PET test | inspection and X-ray CT test | inspection. The figure which shows the template designation | designated screen for X-ray CT inspection. The flowchart which shows the flow of operation | movement. The block diagram of the medical image diagnostic system concerning the other Example of this invention.

Explanation of symbols

1 PET apparatus 11 PET gantry 12 Common examination table 13 (PET apparatus) control unit 14 (PET apparatus) display unit 15 PET condition setting unit 16 PET condition holding unit 17 PET image reconstruction unit 18 (PET apparatus) recording Unit 2 X-ray CT apparatus 21 X-ray CT gantry 23 Control unit 24 (X-ray CT apparatus) Display unit 25 (X-ray CT apparatus) Display unit 25 X-ray CT condition setting unit 26 X-ray CT condition holding unit 27 X-ray CT image Reconstruction unit 28 (X-ray CT apparatus) recording unit 3 bidirectional communication unit 41 PET control unit 42 X-ray CT control unit 43 local communication unit 51 common display unit 52 common recording unit

Claims (4)

  PET data collection unit, PET image reconstruction unit that reconstructs a PET image from collected data, a display unit that displays the reconstructed PET image and a setting screen, a recording unit that records an image, and a PET inspection condition setting input A PET apparatus including a PET condition setting unit, a PET inspection condition holding unit for holding PET inspection conditions, and a control unit for controlling these, an X-ray CT data collecting unit, and X for reconstructing an X-ray CT image from the collected data X-ray CT image reconstruction unit, display unit for displaying the reconstructed X-ray CT image and setting screen, recording unit for recording the image, X-ray CT condition setting unit for inputting setting of X-ray CT examination conditions, X-ray CT Bi-directional data is passed between the X-ray CT apparatus including the X-ray CT inspection condition holding unit for holding the inspection conditions and the control unit for controlling these, and the PET apparatus and the X-ray CT apparatus. The medical image diagnostic system consists of a communication unit, the condition setting unit for both apparatus, characterized in that is configured to be able to see and choose mutually condition setting template via the communication unit to.   Each of the above condition setting units displays a planning image, and when performing an inspection planning including setting of one or both of the PET inspection conditions and the X-ray CT inspection conditions, the condition setting templates are mutually connected through the communication unit. The medical image diagnosis system according to claim 1, wherein reference and selection are possible.   A PET data collection unit, a PET image reconstruction unit that reconstructs a PET image from the collected data, a PET condition setting unit that inputs and inputs a PET examination condition, a PET examination condition holding unit that holds a PET examination condition, A PET control unit that controls these PET operations, an X-ray CT data acquisition unit, an X-ray CT image reconstruction unit that reconstructs an X-ray CT image from the acquired data, and an X-ray CT examination condition setting input An X-ray CT condition setting unit to perform, an X-ray CT examination condition holding unit for holding an X-ray CT examination condition, an X-ray CT control unit for controlling these X-ray CT operations, the PET control unit and the X-ray CT A communication unit that performs two-way communication with the control unit, a display unit that displays the reconstructed PET image and the X-ray CT image, and a recording unit that records these images; Department and X-ray T condition setting unit, the medical image diagnostic system, characterized in that reference and selection of another condition setting template via the communication unit is configured to be.   Each of the above condition setting units displays the planning image, and performs the inspection planning including setting of one or both of the PET inspection condition and the X-ray CT inspection condition, and the PET control unit and the X-ray CT control unit. The medical image diagnostic system according to claim 3, wherein the condition setting template can be referred to and selected from each other via a communication unit that performs bidirectional communication with each other.

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