JPH04135546A - Ultrasonic diagnostic device - Google Patents

Abstract

PURPOSE:To shorten the time for an ultrasonic diagnosis and to reduce the work burden of an operator by storing ultrasonic image data and operation image data in advance in a storage means, executing the read-out control of both these image data, and also, displaying those image data. CONSTITUTION:The device is provided with an image data generating circuit 1 being a storage means, a digital scan converter(DSC) 2, an ultrasonic data base 5 being a display means, a TV monitor 4, an operating console 5 being a control means, and a controller 6. In such a state, ultrasonic image data and operation image data stored in advance in the storage means are read out by the control means, and displayed on the display means, therefore, representative ultrasonic image data become an assistance of a diagnosis, and the operation image data for showing an operating method for an ultrasonic probe become a guide of a beginner. In such a way, a diagnostic time for obtaining an appropriate ultrasonic image is shortened, and the operation burden of an operator is reduced.

Description

[Detailed description of the invention] [Object of the invention] (Industrial application field) The present invention transmits and receives ultrasound waves from an ultrasound probe to a subject, and stores the ultrasound image data obtained thereby in a memory. The ultrasound image data stored and read out from the memory is
The present invention relates to an ultrasonic diagnostic device that displays on a V monitor or the like.

(Prior Art) Ultrasonic diagnostic methods that transmit ultrasonic pulses into a living body and obtain biological information from reflected waves from various tissues within the living body are free from irradiation problems like X-rays, and do not use contrast agents. It has the advantage of being able to diagnose soft tissue without the need for In recent ultrasonic diagnostic apparatuses, ultrasonic probes use array-type (also referred to as array-type) piezoelectric vibrators. Each transducer of this ultrasonic probe element is driven by a drive signal to generate ultrasonic waves, and the ultrasonic waves are transmitted into the living body. By giving a predetermined delay time to the received signal obtained from within the living body to the same transducer, the ultrasonic beam is focused at a predetermined distance (position) and a tomographic image with excellent resolution is obtained. There is.

When an operator diagnoses a living body using the ultrasonic diagnostic device, the operator first applies an ultrasound probe to a specific diagnostic site on the surface of the living body, such as the heart, and obtains an ultrasound image corresponding to the heart. I am getting .

In this case, the operator places the ultrasound probe on a region presumed to be the heart and operates the ultrasound probe around this region, but if the operator does not know in advance the ultrasound image corresponding to the heart, each region Among the ultrasound images obtained in
It becomes unclear which ultrasound image corresponds to the heart.

For this reason, operators acquire ultrasound images many times, accumulate experience, and obtain appropriate ultrasound images based on their own experience.

Furthermore, beginners do not know how to operate an ultrasound probe, such as the body position of a subject (for example, a patient), the position of the ultrasound probe, or the angle at which it should be applied to a diagnostic site. Therefore, beginners obtain ultrasound images by asking experts in ultrasound diagnosis to teach them the ultrasound diagnosis method, or by referring to literature.

(Problems to be Solved by the Invention) As described above, ultrasound diagnosis largely depends on the experience of the individual, and in order to obtain an appropriate ultrasound image,
This requires a sufficient amount of time and effort, which increases the diagnostic time and places a burden on the operator.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an ultrasonic diagnostic apparatus that can reduce the time required for ultrasonic diagnosis and reduce the workload of the operator.

[Structure of the Invention] (Means for Solving the Problems) In order to solve the above problems and achieve the objects, the present invention takes the following measures. The present invention provides representative ultrasound image data for ultrasound diagnosis corresponding to each diagnostic site of a subject, and operation image data representing a method of operating an ultrasound probe corresponding to this representative ultrasound image data. a storage means for pre-storing representative ultrasound image data and operation image data corresponding to the diagnostic region; The present invention is characterized by comprising display means for displaying the representative ultrasound image data and operation image data.

(Effects) By taking such measures, the following effects are achieved. Representative ultrasonic image data for ultrasonic diagnosis corresponding to each diagnostic region of the subject stored in advance in the storage means and an operation method of the ultrasonic probe corresponding to this representative ultrasonic image data. The displayed operation image data is read out by the control means, and these representative ultrasound image data and operation image data are displayed on the display means, so that the representative ultrasound image data can assist in diagnosis.
The operation image data showing how to operate the ultrasound probe serves as a guide for beginners, and the operator can easily operate the ultrasound probe according to the displayed image data. As a result, the diagnostic time required to obtain an appropriate ultrasound image can be shortened, and the operational burden on the operator can be reduced.

(Embodiment) Fig. 1 is a block diagram showing a schematic configuration of an embodiment of an ultrasound diagnostic apparatus according to the present invention, and Fig. 2 shows an ultrasound image of the liver displayed on a TV monitor and the ultrasound image corresponding thereto. FIG. 3 is a diagram showing an ultrasound image of the heart displayed on a TV monitor and a corresponding method of operating the ultrasound probe.

In FIG. 1, the ultrasound diagnostic apparatus includes an image data generation circuit 1. DSC (Digital Scan Converter)2. Ultrasound database 3. TV
Monitor 4. Operation console 5. It is equipped with a controller 6.

The image data generation circuit 1 includes an ultrasound probe 10, a transmitting/receiving circuit 11. The ultrasonic image data generation circuit 13 includes a signal processing circuit 12 and an ultrasonic image data generation circuit 13 for generating ultrasonic image data.

The ultrasonic probe 10 generates ultrasonic waves by driving pulses, and transmits the generated ultrasonic waves into a living body (not shown).

The transmitting/receiving circuit 11 gives a predetermined delay time determined from the transmission direction and convergence point of the transmitted ultrasonic waves to the repetitive pulses that determine the interval between the ultrasonic pulses, and uses the delayed repetitive pulses to generate the driving pulse. is formed and this driving pulse is supplied to the ultrasonic probe 10.

The ultrasound beam reflected from inside the living body is received by the ultrasound probe 10 and further sent to the transmission/reception circuit 11.

The transmitting/receiving circuit 11 amplifies the echo signal to an appropriate level, gives an appropriate delay time to the amplified echo signal, and aligns the phases of the echo signals from each vibrator.
The echo signals from each of the vibrators are added and one echo signal is supplied to the signal processing circuit 12.

Then, the signal processing circuit 12 detects the envelope of the echo signal, obtains tomographic image (B-mode image) data, and supplies this B-mode image data to the DSC 2.

The DSC 2 has a frame memory, writes the B-mode image data and operation image data in the frame memory, further converts the B-mode image data and operation image data from ultrasound scan to TV scan, and converts the B-mode image data and operation image data from ultrasound scan to TV scan.
The operation image data is supplied to an ultrasound database 3 and a TV monitor 4 as storage means.

The ultrasound database 3 includes a plurality of nonvolatile memories in which image data can be written and read, and includes representative ultrasound image data (hereinafter referred to as specimen images) for ultrasound diagnosis corresponding to each diagnosis site of the subject. data) and operation image data representing the operation method of the ultrasound probe corresponding to this specimen image data are stored in advance, and the specimen image data and operation image data are transferred to the DSC2 as necessary.
It is to be read out. The non-volatile memory is
For example, FAMOS (Floating Gate Avalanche Injection MOS). The memory is RAM (random) that can be backed up by the power supply.
(Axem Takashi Memory) may be used.

The ultrasound database 3 is configured as shown in FIG. 1, for example.

The cardiac memory 3-1 stores sample image data of the heart and stores operation images that represent operating methods (for example, patient's body position, position of the ultrasound probe) for obtaining ultrasound images of the heart in a state close to the actual state. It stores data.

The abdominal memory 3-2 stores abdominal specimen image data and stores operational images that represent operating methods (for example, the patient's body position, the position of the ultrasound probe) for obtaining the abdominal specimen image data in a state close to the actual state. It stores data.

The liver memory 3-3 stores liver specimen image data and stores operation images that represent the operating method (for example, patient's body position, ultrasound probe position) in a near-actual state to obtain the liver specimen image data. It stores data.

The obstetrics and gynecology memory 3-n stores image data necessary for obstetrics and gynecology diagnosis. Note that the storage means may be a plurality of floppy disks corresponding to the plurality of specimen image data.

The operation console 5 includes a switch, and each time the switch is pressed, it gives a command to the controller 6 to select the plurality of memories 3-1 to 3-n. Note that the operation console 5 includes, for example, the plurality of memories 3-1.
A plurality of switches corresponding to 3-n may be provided.

The controller 6 is a CPU (central processing unit),
In accordance with commands from the operation console 5, the ultrasound database 3 controls writing and reading of specimen image data and operation image data corresponding to the diagnosis site.
This is done for the corresponding memory.

The TV monitor 4 displays the ultrasound diagnostic image, the specimen image data read out from the ultrasound database 3 under the control of the controller 6, and the operation image data.

Next, the operation of the embodiment configured as described above will be explained. First, it is assumed that sample image data is already stored in the memory.

When a beginner performs a liver diagnosis, when a beginner operates the operation console 5, the controller 6 selects the liver specimen image data from the memory of the ultrasound database 3, for example, from the liver memory 3-3. The operation image data representing the operation method of the ultrasound probe 10 is read out to the DSC 2, and the liver specimen image data B3 and operation image data S as shown in FIG. 2 are displayed on the TV monitor 4 as ultrasound diagnostic images. displayed at the same time.

Since the specimen image data is displayed on the same screen as the ultrasound diagnostic image in this way, beginners can view the liver specimen image data B to assist beginners in their ultrasound diagnosis, and also use the operation images. By looking at the data S, the operator 21 can obtain information such as the position of the ultrasound probe 10 on the liver 22 of the subject 20, how to apply the ultrasound probe 10, or the body position of the subject 20. It will guide you in obtaining appropriate ultrasound images. As a result, a beginner can easily operate the ultrasonic probe 10, make a proper diagnosis and shorten the diagnosis time, and reduce the burden on the operator.

Next, the beginner presses the switch on the operation console 5 multiple times and uses the controller 6 to retrieve cardiac specimen image data and the corresponding ultrasound probe 10 from the memory of the ultrasound database 3, for example, the cardiac memory 3-1. Operation image data representing the operation method is read out to the DSC2,
Heart specimen image data B1 and operation image data SI as shown in FIG. 3 are displayed on the TV monitor 4 simultaneously with the ultrasound diagnostic image.

Even when performing such cardiac diagnosis, beginners can assist the ultrasound diagnosis by viewing the heart specimen image data B1, and can assist the operator 2 by viewing the operation image data S1.
1, the position of the ultrasound probe 10 on the heart 24 of the subject 20, how to apply the ultrasound probe 10, or the subject 200.
Information such as body position can be obtained, and the same effect as the liver diagnosis described above can be achieved.

Furthermore, the memory is divided into respective diagnostic parts.

By making them independent, the user can use the memory he or she needs.

Furthermore, filing can be made easier by adding specimen image data to a floppy disk or by replacing specimen image data.

Note that the present invention is not limited to the embodiments described above. In the embodiments described above, B-mode image data has been described as ultrasound image data, but it may also be M-mode image data or Doppler mode image data, for example. Further, the diagnostic site is not limited to the diagnostic site of the above-described embodiment, and may be any other diagnostic site. Furthermore, image data can be rewritten in each of the memories described above. Furthermore, the storage means is not limited to the above-mentioned memories, but may be other types of memory as long as they are writable and readable. It goes without saying that various other modifications can be made without departing from the gist of the present invention.

[Effects of the Invention] According to the present invention, representative ultrasound image data for ultrasound diagnosis corresponding to each diagnostic region of a subject stored in advance in the storage means and this representative ultrasound image Operation image data representing the operation method of the ultrasound probe corresponding to the data is read out by the control means, and these representative ultrasound image data and operation image data are displayed on the display means. The ultrasound image data can assist in diagnosis, and the operating method of the ultrasound probe can serve as a guide for beginners, allowing the operator to easily operate the ultrasound probe according to the displayed image data. As a result, it is possible to provide an ultrasound diagnostic apparatus that can shorten the diagnostic time required to obtain appropriate ultrasound images and reduce the operational burden on the operator.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a schematic configuration of an embodiment of an ultrasound diagnostic apparatus according to the present invention, and FIG. 2 shows an ultrasound image of the liver displayed on a TV monitor and a corresponding ultrasound probe operating method. The figure shown in FIG. 3 is a diagram showing an ultrasound image of the heart displayed on a TV monitor and a corresponding ultrasound probe operation method. 1... Image data generation circuit, 2... DSC, 3...
Ultrasound database, 3-1... Cardiac memory, 3-
2... Memory for abdomen, 3-3... Memory for liver, 3
-n...Memory for obstetrics, 4...TV monitor, 5.
...Operation console, 6...Controller, 10...
・111 Sonic probe, 11... Transmission/reception circuit, 12
... Signal processing circuit, 13... Ultrasonic image data generation circuit, B1... Heart specimen image data, B, ... Liver specimen image data, S, ... Operation image for heart. Data, B3... Operation image data for the liver.

Claims (1)

[Claims] Typical ultrasound image data for ultrasound diagnosis corresponding to each diagnosis site of the subject and operation image data representing the operation method of the ultrasound probe corresponding to this typical ultrasound image data are stored in advance. a storage means for controlling the storage means to read out representative ultrasound image data and operation image data corresponding to the diagnostic region; An ultrasonic diagnostic apparatus comprising: a display means for displaying ultrasonic image data and operation image data.