JPH06209929A - Image diagnosing device - Google Patents

Abstract

PURPOSE:To realize an image diagnosing device which can manage and progress scan, continuously confirming the location image, with the min. delay for the scan progress. CONSTITUTION:An image diagnosing device which collects the raw data through the successive scan and reconstitutes the data and displays the image is equipped with a raw data memory 4 for storing the raw data obtained through the scan, image reconstitution means 5 which generates the image data by reconstituting the raw data obtained through the scan to an image and generated the image data, and scan state monitoring means 3c and 3d which judge if the newest raw data which is not yet reconstituted exists or not and manage each flag which shows the progress state of the scan. Further, image reconstitution control means 3a and 3c which perform control so that the newest raw data is reconstituted to an image by an image reconstitution means 5, when the newest raw data which is not yet reconstituted to an image exists, according to each flag managed by the scan state monitoring means 3c and 3d are provided.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a CT scanner device and an MR.
The present invention relates to improvement of image reconstruction and display in an image diagnostic apparatus such as an I apparatus.

[0002]

2. Description of the Related Art In this type of image diagnostic apparatus, when a scan for obtaining a plurality of images is performed, the scanned data (Raw data) is reconstructed in order according to the scanning order. The image was being generated.

However, in recent years, the scanning speed has been increased and IS
D (Inter Scan Delay: Interval between scans)
Is becoming faster. For this reason, the speed of image reconstruction cannot catch up with the speeding up of scanning.

FIG. 5 is a time chart showing the timing of scanning and image reconstruction. FIG. 5A shows scans (SCAN1 to SCAN5) and ISD,
(B) shows image reconstruction (RECON1 to RECON4). As shown in this figure, the image reconstruction is delayed even after the scan is completed.

On the other hand, the inspector determines whether the scan is completed or further continued by confirming the last scanned image. Therefore, the patient cannot be opened until the last scanned image RECON5 of SCAN5 is confirmed.

Usually, a series of scans of 10 to 30 sheets are often performed continuously, and 1 to 1 scans are performed.
It takes 3 seconds and 10 to 15 seconds for image reconstruction. Therefore, there is a problem that the time for waiting for image reconstruction after scanning is extremely long.

Therefore, a function of preferentially reconstructing the image data of the last scan has been desired. This kind of function is realized by some CT scanner devices. The implementation method is as follows. After the final scan is completed, the final data is preferentially image-reconstructed according to an instruction from the inspector. For example, when the SCAN 10 ends as shown in FIG. 6A, the inspector gives a priority instruction (FIG. 6B), and the R
After ECON4, image reconstruction (RECON10) of the final scan (SCAN10) is preferentially executed. Before or immediately after scanning, the order of image reconstruction is determined in advance, and the image reconstruction is performed according to the order. For example, it is possible to calculate the scan time and the image reconstruction time before the start of scanning, and to configure an arbitrary image reconstruction after the image reconstruction when the final scan is completed. it can.

For example, as shown in FIG. 7, the progress of the scan and the expected progress of the image reconstruction are displayed on the display device with reference to the data held in advance. In this example, a bar graph format is displayed. Then, the operator can refer to this display and freely change the order of image reconstruction. Here, the 5th image reconstruction (RECON
To prioritize the 7th sheet (RECON7) without performing 5), move the cursor to the display position of 5 and
Enter. Then, RECON5 and RECON6 are sequentially shifted backward. By thus operating from the operator console, the order of image reconstruction can be determined in advance before the start of scanning.

Note that the n-th image reconstruction start time TR (n)
However, if it is earlier than the scan end time TS (n) of the n-th sheet, the start of image reconstruction is delayed until the scan of the n-th sheet is completed, so that the total total image reconstruction time is extended.
In such a case, a warning is displayed on the operator console to notify the operator of the situation. That is, the order can be changed within the range where the condition of TR (n)> TS (n) is satisfied. After the end of the final scan, the image reconstruction already started at the end of the scan is completed, and then the final data is automatically preferentially reconstructed. For example, as shown in FIG. 8A, the SCAN 10 is terminated and the RE being performed at this time
At the time when CON4 ends, as shown in FIG. 8B, the image reconstruction (RECON) of the final scan (SCAN10) is performed.
10) is preferentially executed.

[0010]

[Problems to be Solved by the Invention]
Even with this method, the inspector's hand is troublesome, and the operability is not good.

Further, the above method is performed automatically,
Prior to the final scan, preferential image reconstruction is performed without the need for the inspector. However, even if it is better to interrupt the scan in the middle of the scan, there is a large time lag between the image and the scan, which is the basis for that judgment.
Even if the operator interrupts the scanning based on the image display, the scanning has already advanced greatly. For this reason, there is a problem that the subject is exposed to extra radiation.

The present invention has been made in view of the above points, and an object of the present invention is to scan a scan state with a small delay even when there is a speed difference between the scan and the image reconstruction. And to realize an image diagnostic apparatus capable of image reconstruction.

[0013]

According to the present invention for solving the above-mentioned problems, raw data is collected while sequentially scanning,
In an image diagnostic device that reconstructs and displays this image,
The Raw Data memory that stores the Raw Data obtained by the scan, the image reconstruction means that reconstructs the image of the Raw Data obtained by the scan to generate image data, and the latest image reconstruction that has not been performed yet. The latest image data that has not been reconstructed according to the scan status monitoring unit that manages a flag that indicates the progress status of the scan by distinguishing whether or not there is Raw Data and the flag that is managed by the scan status monitoring unit. When there is raw data, the image reconstruction means is provided with image reconstruction control means for controlling the image reconstruction means to reconstruct the latest raw data.

[0014]

When the scan is in progress, the raw data for the latest scan, which has already been completed, is selected by the image reconstruction control means and reconstructed by the image reconstructing device. Therefore, it is possible to check as an image with a minimum delay.

[0015]

Embodiments of the present invention will now be described in detail with reference to the drawings. FIG. 1 is a configuration diagram showing a schematic configuration of an image diagnostic apparatus according to an embodiment of the present invention. The scanner 1 is controlled by the scan controller 2 for scanning. Control unit 3
Is an image reconstruction control device 3 for controlling image reconstruction.
a, a register 3b having queue data indicating the order of unprocessed raw data, a priority reconstruction control device 3c for controlling preferential image reconstruction, and a new raw data is obtained after one scan. The flag 3d is set when the priority reconstruction is activated and is reset when the latest Raw Data is loaded for image reconstruction. The raw data obtained from the scanner 1 is sent to the raw data memory 4 via the scan control device 2 and temporarily stored therein, and then the image reconstruction device 5 performs image reconstruction.
The image data obtained by the image reconstruction is stored in the image data memory 6 and then displayed on a display device (not shown).

FIG. 2 shows the apparatus of this embodiment as described above.
The operation will be described with reference to the time chart of FIG. In the normal state, the scanner 1
The image reconstruction device 5 performs image reconstruction in the order of scan. When the inspector gives an instruction for preferential reconstruction, the following operation is performed.

The priority reconfiguration control device 3c becomes operable based on an instruction from the outside. Scan controller 2
Gives a scan command to the scanner 1 to instruct the start of scanning. As a result, the scanner 1 executes a predetermined scan. The scanner 1 sends a scan end signal each time scanning of one slice is completed,
Send to. With these, the scan controller 2
A scan pulse indicating the scan start / end shown in (a) is generated and supplied to the image reconstruction control device 3a and the priority reconstruction control device 3c.

Then, the scan 1 starts and the Raw
When Data starts to be stored in the Raw Data memory 4, the image reconstruction control device 3a reads the Raw Data and sends it to the image reconstruction device 5. Therefore, shortly after the scan 1 starts, the image reconstruction device 5 starts the image reconstruction.

On the other hand, the priority reconstruction controller 3c sets "1" to the flag 3d at the timing when the scan 1 ends (step in FIG. 3). At this time, image reconstruction for scan 1 is continuing. Then, a flag process of setting "1" to the repetition flag is performed at the timing of ending each subsequent scan (FIG. 3).

At the timing when the image reconstruction for the scan 1 is completed and the next raw data is image-reconstructed, the raw data to be preferentially reconstructed is determined according to the sequence shown in the flowchart of FIG. That is, the priority reconfiguration control device 3c determines the flag when RECON1 is completed in FIG. 2C (step in FIG. 4). Since the flag is "1" here, the priority reconstruction control device 3c instructs the image reconstruction of the latest Raw Data, and the image reconstruction control device 3a loads the latest Raw Data from the Raw Data memory 4 (see FIG. 4 steps). Here, since SCAN3 has been terminated, Raw Data for SCAN3 is the latest Ra.
w Data. Then, the priority reconfiguration control device 3c receives the answer to the latest Raw Data load and sets the flag to "0".
The image reconstruction control device 3a is reset to the SCAN3 while
The Raw Data is supplied to the image reconstructing device 5 so as to perform the image reconstruction by using the Raw Data. Therefore, SCA
After the image reconstruction for N1 is completed, the raw data for the latest SCAN3 is reconstructed with the raw data that has already been scanned.

Similarly, the R for this SCAN3
After ECON3 ends, the raw data for the latest scan 6 is reconstructed with the raw data that has already been scanned. After that, the image data of the latest Raw Data is reconstructed while the flag is "1". In the example of FIG. 2, the flag is not reset to “0” at the start time (load time) of RECON 9 and then set to “1”. Therefore, when RECON9 ends,
The image reconstruction control device 3a displays the Raw Data (in this case, SCAN2) indicated by the oldest queue stored in the register 3b.
RawData) is loaded (step in Fig. 4),
The image reconstructing device 5 is made to reconstruct an image. After that, the oldest Raw Data is sequentially reconstructed according to the queue of the register 3b.

By doing so, after the image reconstruction for SCAN 1 is completed, the latest raw data already scanned can be reconstructed. Therefore, even if the processing time between scanning and image reconstruction is significantly different, the data is stored in the Raw Data memory 4 at the time when the image reconstruction of each scan is completed without shortening the time required for image reconstruction. Is the latest
Raw data can be reconstructed into an image and stored in the image data memory 6 to be confirmed as an image.

Further, in such an embodiment, even if a few more scans are additionally performed after the series of scans is finished, the latest Raw Data is used to start the image reconstruction during the additional scans. To be selected.

Therefore, it becomes possible to manage and proceed with the scan while constantly confirming the image of the location with a minimum delay with respect to the progress of the scan. As a result, the inspector can check the image with a minimum delay without performing a troublesome operation during the execution of the scan and the image reconstruction, and can quickly perform the interruption of the scan or the addition of the scan. become.

Although the above embodiment has been described using the case of normal scanning, it can be applied to the case of continuous scanning such as helical scanning, and the image can be confirmed in substantially real time. The effect that can be obtained is extremely useful. Helical scan (continuous scan)
In the case of, if a set of data that can be reconstructed image is obtained (once in one rotation), a flag is set, or if image reconstruction is continuous data in continuous acquisition data, , Any position is possible. Utilizing this, the flag is set at any time (multiple times per rotation) during the data collection period, and priority image reconstruction traces the latest Raw Data and selects a group of data required for reconstruction,
The latest slice that can be reconstructed may be reconstructed. Further, in the case of MRI, it is effective when data collection such as high-speed imaging is performed in a shorter time than image reconstruction, and every time a group of data that can reconstruct one image is collected. The flag should be set.

[0026]

As described in detail above, according to the present invention, even when the processing time of scanning and image reconstruction are significantly different, the time required for image reconstruction can be reduced without shortening the time required for each. It is possible to reconstruct the latest Raw Data at the time when the image reconstruction of the scan is completed and check it as an image, and constantly confirm the image of that location with the minimum delay with respect to the progress of the scan. However, it is possible to realize an image diagnostic apparatus capable of managing and advancing scanning.

[Brief description of drawings]

FIG. 1 is a block diagram of an apparatus according to an embodiment of the present invention.

FIG. 2 is a time chart showing the operation timing of one embodiment of the present invention.

FIG. 3 is a flowchart showing the operation timing of one embodiment of the present invention.

FIG. 4 is a flowchart showing the operation timing of one embodiment of the present invention.

FIG. 5 is a time chart showing the operation timing of the conventional device.

FIG. 6 is a time chart showing the operation timing of the conventional device.

FIG. 7 is an explanatory diagram showing a case where the order of image reconstruction in a conventional apparatus is changed.

FIG. 8 is a time chart showing the operation timing of the conventional device.

[Explanation of symbols]

 1 Scanner 2 Scan Control Device 3 Control Unit 3a Image Reconstruction Control Device 3b Register 3c Priority Reconstruction Control Device 3d Flag 4 Raw Data Memory 5 Image Reconstruction Device 6 Image Data Memory

Claims (1)

[Claims] 1. An image diagnostic apparatus for collecting raw data while performing sequential scanning, reconstructing and displaying the image, and a raw data memory (4) for storing raw data obtained by the scanning and a raw data memory (4) for the scanning. Image reconstruction means (5) that reconstructs the obtained Raw Data to generate image data, and whether or not there is the latest Raw Data for which image reconstruction has not yet been performed, and the scan progresses. According to the scan status monitoring means (3c, 3d) that manages a flag indicating the status and the flag managed by the scan status monitoring means (3c, 3d), the latest Raw Da that has not been reconstructed.
If ta is available, the latest for image reconstruction means (5)
An image diagnostic apparatus comprising image reconstruction control means (3a, 3c) for controlling raw data for image reconstruction.