JP6663180B2 - Ultrasonic device - Google Patents

Description

  The present invention relates to an ultrasound apparatus that creates ultrasound image data based on echo signals obtained by transmitting and receiving ultrasound from an ultrasound probe.

  Among ultrasonic apparatuses that transmit and receive an ultrasonic wave to and from an object and display an ultrasonic image created based on an echo signal of the ultrasonic wave, for example, in a medical ultrasonic diagnostic apparatus, a user (user) receives one In some examinations, data of a plurality of ultrasonic images may be stored. For example, in one inspection, the user performs an inspection in the B mode and saves data of the B mode (mode) image, and then performs an inspection in the color Doppler mode and saves the color Doppler image. In some cases, ultrasonic images at a plurality of sites are stored.

  In order to obtain data of a plurality of ultrasonic images, a user sets an ultrasonic transmission / reception condition in an ultrasonic diagnostic apparatus, or obtains an ultrasonic image after obtaining the ultrasonic image data. Various settings are made, for example, by setting a body mark and a probe mark indicating the position of the ultrasonic probe in an ultrasonic image (for example, see Patent Document 1).

JP 2007-236823 A

  By the way, the same test as the test performed in the past may be performed again for the follow-up observation of the subject which has been tested in the past. When performing such an examination for follow-up observation, the user needs to make various settings in the ultrasonic diagnostic apparatus in the same manner as in the past examination, which is complicated.

  According to one aspect of the present invention, there is provided a transmission / reception control unit configured to perform transmission / reception of ultrasonic waves from an ultrasonic probe according to predetermined transmission / reception conditions, and an ultrasonic echo signal acquired by the ultrasonic probe. A data generating unit that performs signal processing on predetermined processing conditions to generate ultrasonic image data, a first input device for a user to perform an input for storing the ultrasonic image data, and a first input device. A storage device capable of storing a plurality of ultrasound image data by a plurality of inputs in the input device, the transmission and reception conditions and the processing conditions used to obtain each of the plurality of ultrasound image data A storage device capable of storing, the transmission and reception control unit sequentially reads the transmission and reception conditions from the storage device, An ultrasonic apparatus for sequentially transmitting and receiving ultrasonic waves under the transmitted and received conditions, wherein the data creation unit sequentially reads the processing conditions from the storage device, and sequentially performs signal processing under the read processing conditions. It is.

  According to the invention of the above aspect, after a user performs an input for storing data of a plurality of ultrasonic images with a first input device in a past examination, the transmission / reception control unit sets the plurality of ultra-sound images. The transmission / reception conditions used for obtaining each of the sound image data are read from the storage device to transmit and receive the ultrasonic wave, and the data creation unit is configured to obtain each of the plurality of ultrasonic image data. Is read from the storage device to perform signal processing. Therefore, when performing the same test as the past test, the user does not need to make various settings in the ultrasonic apparatus again.

FIG. 1 is a block diagram illustrating a schematic configuration of an ultrasonic diagnostic apparatus according to an embodiment of the present invention. 6 is a flowchart in a case where data of an ultrasonic image is stored in the ultrasonic diagnostic apparatus of the embodiment. FIG. 7 is a diagram illustrating a display unit in a state where an additional image is added to an ultrasonic image. 5 is a flowchart in the case where the same test as a test performed in the past is performed again in the ultrasonic diagnostic apparatus of the embodiment. FIG. 9 is a diagram illustrating a display unit on which a list of tests performed in the past is displayed. FIG. 4 is a diagram illustrating a display unit on which an ultrasonic image stored in a storage device is displayed. FIG. 4 is a diagram illustrating a display unit on which an ultrasonic image obtained using the same transmission and reception conditions and processing conditions used to obtain an ultrasonic image stored in a storage device is displayed.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. The ultrasonic diagnostic apparatus 1 shown in FIG. 1 includes an ultrasonic probe 2, a transmission / reception beamformer 3, an echo data processing unit 4, a display processing unit 5, a display unit 6, an operation device 7, a control unit 8, and a storage device 9. The ultrasonic diagnostic apparatus 1 has a configuration as a computer. An ultrasonic diagnostic apparatus is an example of an embodiment of an ultrasonic apparatus according to the present invention.

  The ultrasonic probe 2 includes a plurality of ultrasonic transducers arranged in an array, transmits ultrasonic waves to a subject by these ultrasonic transducers, and receives echo signals thereof. I do.

  The transmission / reception beamformer 3 supplies an electric signal for transmitting an ultrasonic wave from the ultrasonic probe 2 under a predetermined transmission condition to the ultrasonic probe 2 based on a control signal from the control unit 8. In addition, the transmission / reception beamformer 3 performs signal processing such as A / D conversion and phasing addition processing on the echo signal received by the ultrasonic probe 2 based on a control signal from the control unit 8 under predetermined reception conditions. , And outputs the echo data after the signal processing to the echo data processing unit 4. Transmission / reception conditions such as the display depth (depth) of the ultrasonic image, transmission frequency, transmission focus and reception focus are set by control signals from the control unit 8 to the transmission / reception beamformer 3. The transmission conditions and the reception conditions are referred to as transmission / reception conditions. The transmission / reception beamformer 3 and the control unit 8 are an example of an embodiment of the transmission / reception control unit in the present invention.

  The echo data processing unit 4 performs signal processing on the echo data output from the transmission / reception beamformer 3 under predetermined processing conditions. For example, the echo data processing unit 4 performs B-mode processing including logarithmic compression processing and envelope detection processing to generate B-mode data. However, the echo data processing unit 4 may perform other processing such as Doppler processing such as color Doppler processing on the echo data output from the transmission / reception beamformer 3.

  In the processing by the echo data processing unit 4, predetermined processing conditions such as a gain and a dynamic range are set. These processing conditions are set by control signals from the control unit 8 to the echo data processing unit 4. The predetermined processing conditions include types of shooting modes such as B mode and Doppler mode. The echo data processing unit 4 and the control unit 8 are an example of an embodiment of the data creation unit in the present invention.

  The display processing unit 5 causes the display unit 6 to display an ultrasonic image. The display processing unit 5 scan-converts the data obtained by the echo data processing unit 4 with a scan converter to create ultrasonic image data, and displays an ultrasonic image based on the ultrasonic image data on the display unit 6. To be displayed. The ultrasonic image is a B-mode image, a color Doppler image, or the like.

  The display processing unit 5 may scan and convert the data obtained in real time in the echo data processing unit 4 to create ultrasonic image data, and display the real-time ultrasonic image UI. The display processing unit 5 scan-converts data (raw data, which will be described later), which is data obtained in the echo data processing unit 4 and is stored in the storage device 9, to create ultrasonic image data. Then, an ultrasonic image UI may be displayed.

  The display processing unit 5 may display an ultrasonic image UI based on the ultrasonic image data stored in the storage device 9.

  Further, as described later, the display processing unit 5 converts an additional image AI (see FIG. 3) such as a body mark, a probe mark, a comment, and a measurement pattern set by the user using the operation device 7 into an ultrasonic image UI. Add and display.

  Further, the display processing unit 5 causes the display unit 6 to display a thumbnail image SI (see FIG. 6) corresponding to the ultrasound image data stored in the storage device 9.

  The display processing unit 5 is configured to control the ultrasonic image UI, the additional image AI, and the thumbnail image based on the ultrasonic image data, the additional image AI data, and the thumbnail image SI data read from the storage device 9 by the control unit 8. The SI is displayed. The display processing unit 5 and the control unit 8 are an example of an embodiment of the display control unit according to the present invention.

  Data before being converted into ultrasonic image data by the display processing unit 5 is referred to as raw data. The ultrasound image data and the raw data are referred to as ultrasound image data. The data of the ultrasound image UI to which the additional image AI is added includes the data of the additional image AI.

  The display unit 6 is an LCD (Liquid Crystal Display), an organic EL (Electro-Luminescence) display, or the like. The operation device 7 is a device for the operator to input instructions and information, and includes a button, a keyboard, a pointing device (not shown), and the like. In the operation device 7, the user performs various inputs as described later. The operation device 7 is an example of an embodiment of the first input device, the second input device, the third input device, and the fourth input device in the present invention.

  The control unit 8 is a processor such as a CPU (Central Processing Unit). The control unit 8 reads a program stored in the storage device 9 and controls each unit of the ultrasonic diagnostic apparatus 1. For example, the control unit 8 reads a program stored in the storage device 9, and causes the functions of the transmission / reception beamformer 3, the echo data processing unit 4, and the display processing unit 5 to be executed by the read program.

  The control unit 8 may execute all of the functions of the transmission / reception beamformer 3, all of the functions of the echo data processing unit 4, and all of the functions of the display processing unit 5 by a program, Only some functions may be executed by a program. When the control unit 8 executes only some functions, the remaining functions may be executed by hardware such as a circuit.

  The functions of the transmission / reception beamformer 3, the echo data processing unit 4, and the display processing unit 5 may be realized by hardware such as a circuit.

  The storage device 9 is a semiconductor memory (Memory) such as an HDD (Hard Disk Drive), a RAM (Random Access Memory) and / or a ROM (Read Only Memory). The ultrasonic diagnostic apparatus 1 may include all of the HDD, the RAM, and the ROM as the storage device 9. Further, the storage device 9 may be a portable storage medium such as a CD (Compact Disk) and a DVD (Digital Versatile Disk).

  The program executed by the control unit 8 is stored in a non-transitory storage medium such as an HDD or a ROM. Further, the program may be stored in a portable and non-transitory storage medium such as a CD or a DVD.

  The storage device 9 stores ultrasound image data including raw data and ultrasound image data. Further, the transmission / reception conditions and processing conditions used for obtaining the data of the ultrasonic image are also stored. The storage of the processing conditions includes storage of a shooting mode and the like as described later. The storage device 9 also stores data of an additional image AI added to the ultrasonic image UI stored in the storage device 9. The storage device 9 is an example of an embodiment of the storage device in the present invention.

  Next, the operation of the ultrasonic diagnostic apparatus 1 of the present example will be described. First, a flow when a user displays a real-time ultrasonic image of the subject P and stores data of the ultrasonic image in the storage device 9 will be described with reference to FIG.

  First, in step S1, transmission / reception conditions and a shooting mode are set. The transmission / reception conditions are set by being input by the user on the operation device 7. Similarly, the photographing mode is set by being input by the user on the operation device 7. The shooting mode is a B mode, a color Doppler mode, or the like. In addition, the user contacts the ultrasonic probe 2 with a predetermined examination site in the subject P.

  Next, in step S2, transmission and reception of ultrasonic waves are performed under the transmission and reception conditions input in the operation device 7 in step S1. The echo data processing unit 4 performs signal processing on the echo data obtained by transmission and reception of the ultrasonic wave under predetermined processing conditions according to the imaging mode input in step S1. Then, an ultrasonic image based on the data obtained in the echo data processing unit 4 is displayed on the display unit 6.

  Next, in step S3, the user performs an input on the operation device 7 to store the data of the ultrasonic image displayed on the display unit 6 in the storage device 9. Thereby, the raw data or the ultrasonic image data of the ultrasonic image displayed on the display unit 6 is stored in the storage device 9. Further, in response to an input for storing data of an ultrasonic image, processing conditions such as a transmission / reception condition and an imaging mode used for obtaining the ultrasonic image are stored in the storage device 9. The transmission / reception conditions and the processing conditions are stored in association with the data of the ultrasound image obtained using the transmission / reception conditions and the processing conditions. The input in step S3 is an example of an embodiment of the input in the first input device of the present invention.

  In step S3, the user adds the additional image AI to the ultrasound image UI stored in the storage device 9, as shown in FIG. Here, the additional image AI is a body mark BM and a probe mark PM indicating the position of the inspection part and the ultrasonic probe in the subject P from which the ultrasonic image UI stored in the storage device 9 has been obtained. The body mark BM and the probe mark PM are added to the ultrasound image UI by the user's input on the operation device 7, and the data is stored in the storage device 9.

  Incidentally, when the ultrasonic image data is stored, the data of the additional image AI is stored as a part of the ultrasonic image data. When raw data is stored, information for specifying the additional image AI is stored as the data of the additional image AI.

  Next, in step S4, the user determines whether to end the inspection. If the inspection is not completed ("NO" in step S4), the process returns to step S1. In step S <b> 1, when changing the shooting mode, the user inputs a new shooting mode using the operation device 7. In addition, when changing the transmission / reception conditions, the user inputs new transmission / reception conditions on the operation device 7. Further, when changing the inspection site, the user brings the ultrasonic probe 2 into contact with a new inspection site. It is assumed that the change of the inspection site includes a case where the direction of the ultrasonic probe 2 is changed. Then, the ultrasound image UI is displayed again in step S2, the data of the ultrasound image UI is newly stored in step S3, and the transmission / reception conditions and the imaging mode used for obtaining the ultrasound image UI are as follows: It is stored in the storage device 9. Further, an additional image AI is added and stored.

  On the other hand, when it is not necessary to store the new ultrasonic image UI, the examination is ended (“YES” in step S4). After the processing of steps S1 to S4 is repeated a plurality of times, the examination is completed, and the data of the plurality of ultrasonic images UI are stored in the storage device 9 as one set. The data of one set of ultrasonic images UI is data of the ultrasonic image UI in one examination (Exam). The data of a set of ultrasound images UI is stored in the storage device 9 in a state where the order in which the data of the plurality of ultrasound images UI are obtained can be specified. In addition, the data of the set of ultrasound images UI is stored in the storage device 9 together with the date when the data of the ultrasound images UI was stored in the storage device 9.

  Next, a flow when the user performs the same test as the test performed in the past on the subject P again for follow-up observation will be described with reference to FIG. First, in step S11, the user performs an input on the operation device 7 to start the follow-up observation mode on the subject P. Next, in step S12, based on the input in step S11, the display processing unit 5 causes the display unit 6 to display a list L of tests performed on the subject P in the past, as shown in FIG. The list L is a list in which information on the date of the inspection is displayed for each inspection. In FIG. 5, examinations E1 to E4 are displayed in the list L.

  Incidentally, in each of the examinations E1 to E4, data of a plurality of ultrasonic images UI are stored.

  Next, in step S13, the user selects a desired test from the tests E1 to E4 in the list L. The user performs an input for selecting a desired inspection using the operation device 7. The user selects an examination to be performed for follow-up observation as a desired examination. The input by which the user selects a desired examination is one example of an embodiment of the input by the user at the second input device, that is, the input for selecting the data of a set of ultrasound images UI.

  Next, in step S14, the control unit 8 reads from the storage device 9 the data of the ultrasound image UI and the data of the additional image AI stored in the storage device 9 first in the examination selected in step S13. First, the ultrasound image UI stored in the storage device 9 is referred to as an ultrasound image UI1. The display processing unit 5 causes the display unit 6 to display the ultrasound image UI1 and the additional image AI based on the read data, as shown in FIG. Further, the control unit 8 reads from the storage device 9 the transmission / reception conditions and the processing conditions used for obtaining the ultrasound image UI1.

  Further, the control unit 8 reads out the data of all the ultrasound images UI stored in the storage device 9 in the examination selected in step S13. Then, the display processing unit 5 causes the display unit 6 to display each thumbnail image SI of the ultrasonic image UI based on the data of all the read ultrasonic images UI. Further, the display processing unit 5 displays a frame F surrounding the thumbnail image SI1 of the ultrasonic image UI1. The frame F is an image for specifying the thumbnail image SI1 of the ultrasonic image U11 displayed on the display unit.

  Next, in step S15, transmission and reception of ultrasonic waves are performed according to the transmission and reception conditions read from the storage device 9 in step S14. Further, signal processing is performed by the echo data processing unit 4 according to the processing conditions read from the storage device 9 in step S14, and based on the obtained data, an ultrasonic image UIr is displayed as shown in FIG. You. The display processing unit 5 displays the ultrasonic image UIr in parallel with the ultrasonic image UI1.

  Next, in step S16, the user determines whether to store the ultrasonic image UIr displayed in step S15 in the storage device 9. If the user determines that the ultrasound image UIr is to be stored (“YES” in step S16), the process proceeds to step S17. In step S17, the user performs an input on the operation device 7 to store the ultrasound image UIr, and the ultrasound image UIr is stored in the storage device 9. When the ultrasonic image UIr is stored in the storage device 9, the process proceeds to step S19.

  On the other hand, when the user determines that the ultrasound image UIr is not stored (“NO” in step S16), the process proceeds to step S18. In step S18, the user performs an input on the operation device 7 to indicate that the ultrasonic image UIr is not stored. When an input indicating that the ultrasonic image UIr is not stored is performed, the process proceeds to step S19.

  In step S19, in the examination selected in step S13, it is determined whether there is data of the ultrasound image UI stored in the storage device 9 next to the data of the ultrasound image UI read in step S14. The determination is made by the control unit 8. As described above, the data of the set of ultrasound images UI is stored in the storage device 9 in a state where the order in which the data of the plurality of ultrasound images UI are obtained can be specified. Therefore, the control unit 8 makes the above-described determination based on the order in which the data of each of the plurality of ultrasonic images UI is acquired.

  If it is determined in step S19 that the data of the next ultrasonic image UI exists ("YES" in step S19), the process returns to step S14. In step S14, the control unit 8 reads the data of the next ultrasonic image UI and the data of the additional image AI from the storage device 9. The data of the next ultrasound image UI is specified based on the order in which each of the data of the plurality of ultrasound images UI was acquired. The display processing unit 5 displays the ultrasonic image UI and the additional image AI based on the data of the read ultrasonic image UI and the data of the additional image AI on the display unit 6 instead of the ultrasonic image UI that has been displayed so far. Display. Further, the display processing unit 5 displays a frame F surrounding the thumbnail image SI of the newly displayed ultrasonic image UI instead of the frame F surrounding the thumbnail image SI of the ultrasonic image UI that has been displayed until then. .

  In step S <b> 14, the control unit 8 reads out from the storage device 9 the transmission / reception conditions and the processing conditions used for obtaining the data of the next ultrasonic image UI. Then, in step S15, transmission / reception of ultrasonic waves is performed based on transmission / reception conditions used for obtaining data of the next ultrasonic image UI. Further, signal processing is performed using the processing conditions used to obtain the data of the next ultrasonic image UI, and the ultrasonic image UI is displayed. Thereafter, the processes of steps S16 to S19 are performed in the same manner as described above.

  On the other hand, when it is determined in step S19 that the data of the next ultrasonic image UI does not exist (“NO” in step S19), the process ends.

  According to the present embodiment described above, when an input for storing data of the ultrasound image UI in the storage device 9 or an input for not storing the data is performed on the operation device 7, the next ultrasound image UI exists. If there is, the condition is switched to the transmission / reception condition and the processing condition used for obtaining the data of the next ultrasonic image UI. In other words, in the desired inspection selected in step S13, the data is used to obtain each of the ultrasound images UI in the order in which the data of the plurality of ultrasound images UI are obtained in the processing of steps S1 to S4. The transmitted / received conditions and the processing conditions are sequentially read in step S14. Therefore, the user does not need to set the transmission / reception conditions and the imaging mode for displaying the next ultrasonic image UI. Further, it is possible to perform an examination using the transmission / reception conditions and the imaging mode set for the subject P in the past examination as they are.

  Incidentally, the input for storing the data of the ultrasound image UI in the storage device 9 and the input indicating that the data are not stored in the storage device 9 are input in the third input device, that is, one of the data of the plurality of ultrasound images UI in the present invention. 7 is an example of an embodiment of an input in which a transmission / reception condition and a processing condition corresponding to the above are switched to a transmission / reception condition and a processing condition corresponding to data of another ultrasonic image UI among the data of the plurality of ultrasonic images UI.

  In addition, in the operation device 7, when an input for storing data of the ultrasound image UI in the storage device 9 or an input for not storing the data is performed, if the next ultrasound image UI exists, the next Is switched to the display of the ultrasonic image UI. Thereby, the user can check the ultrasonic image UI in the past examination. When the ultrasonic image UI is switched, the frame F is also displayed on the thumbnail image SI of the newly displayed ultrasonic image UI. This allows the user to easily understand how many more ultrasonic images UI must be displayed.

  Incidentally, the input for storing the data of the ultrasonic image UI in the storage device 9 or the input indicating that the data is not stored in the storage device 9 is, in the present invention, an input in the fourth input device, that is, a set of ultra-high-frequency signals selected by the second input device. The display of the ultrasound image based on the data of one of the ultrasound images of the data of the ultrasound image, the data of the other ultrasound image of the data of the set of ultrasound images selected by the second input device 9 is an example of an embodiment of input for switching to display of an ultrasonic image based on the input.

  As described above, the present invention has been described with reference to the above-described embodiments. However, it is needless to say that the present invention can be variously modified without departing from the gist thereof. For example, in the above-described embodiment, the transmission / reception conditions and the processing conditions used to obtain each of the ultrasonic images UI are in the order in which the data of the plurality of ultrasonic images UI are acquired in the processing of steps S1 to S4. The data is sequentially read in step S14. However, the reading order may be changed by the user. In this case, for example, the user uses the operation device 7 to change the order in which the transmission / reception conditions and the processing conditions are read. The operation device 7 in this case is an example of an embodiment of the fifth input device in the present invention.

  When the user sets the measurement marker in the ultrasonic image displayed in step S2 and measures the length or diameter, the user uses the operation device 7 to determine the type of the measurement pattern in step S3. May be input. In this case, after the real-time ultrasonic image UIr is displayed in step S15, when the user performs an input to freeze the real-time ultrasonic image UIr in the operation device 7, the control unit 8 stores in step S3. The measurement mode according to the measured pattern may be started.

REFERENCE SIGNS LIST 1 ultrasonic diagnostic apparatus 2 ultrasonic probe 3 transmission / reception beamformer 4 echo data processing unit 5 display processing unit 6 display unit 7 operation unit 8 control unit 9 storage unit

Claims (10)

A transmission / reception control unit that performs transmission / reception of ultrasonic waves from the ultrasonic probe according to predetermined transmission / reception conditions,
A data creation unit that creates signal of an ultrasound image by performing signal processing according to predetermined processing conditions on an echo signal of an ultrasound acquired by the ultrasound probe,
A first input device for performing an input, in which a user stores the data of the ultrasonic image as data of a first ultrasonic image,
By a plurality of inputs in the first input device, a plurality of data of the first ultrasound image is stored in a state where the order in which the data of the plurality of first ultrasound images was obtained is specified, A plurality of inputs in the first input device, a storage device in which the transmission and reception conditions and the processing conditions used to obtain each of the plurality of data of the first ultrasound image , Each of the plurality of inputs in the first input device stores data of the plurality of first ultrasound images, and furthermore, the transmission / reception corresponding to each of the data of the plurality of first ultrasound images. A storage device in which conditions and the processing conditions are stored ;
With
The transmission and reception control unit, according to the order in which the data of the plurality of first ultrasound images was obtained, the transmission and reception conditions used to obtain each of the data of the plurality of first ultrasound images, Sequentially read from the storage device, and sequentially transmit and receive ultrasonic waves under the read and received transmission and reception conditions,
The data creating unit, according to the order in which the data of the plurality of first ultrasound images was obtained, the processing conditions used to obtain each of the data of the plurality of first ultrasound images the An ultrasonic apparatus comprising: sequentially reading data from a storage device; and sequentially performing signal processing under the read processing conditions to generate a plurality of second ultrasonic image data as the ultrasonic image data. The ultrasonic device according to claim 1, further comprising a second input device,
In the storage device, data of the plurality of first ultrasound images can be stored as one set of the data of the plurality of first ultrasound images,
The second input device, among the data of the plurality of sets of first ultrasound images stored in the storage device, the user performs an input to select data of a set of first ultrasound images. Yes,
The transmission / reception control unit sequentially reads the transmission / reception conditions used to obtain each of the plurality of first ultrasound image data in the set selected by the second input device from the storage device in the order. , Sequentially transmit and receive ultrasonic waves under the read transmission and reception conditions,
The data creation unit sequentially reads the processing conditions used for obtaining each of the plurality of first ultrasound image data in the set selected by the second input device from the storage device in the order. The ultrasonic apparatus according to claim 1, wherein signal processing is sequentially performed under the read processing conditions.   The transmission / reception condition and the processing condition used for obtaining one of the data of the plurality of first ultrasonic images are the same as the other first of the data of the plurality of first ultrasonic images. 3. The ultrasonic apparatus according to claim 1, further comprising a third input device that allows a user to perform an input for switching to the transmission / reception condition and the processing condition used to obtain the data of the ultrasonic image. 4.   When the data of the set of first ultrasound images is selected in the second input device, the data of the set of first ultrasound images is sequentially read from the storage device in the order, and the The ultrasonic apparatus according to claim 2, further comprising a display control unit configured to display one ultrasonic image on a display unit.   Displaying the first ultrasound image based on the data of the first ultrasound image of one of the data of the set of first ultrasound images selected by the second input device; A fourth input by which the user performs an input to switch to a display of a first ultrasound image based on data of another first ultrasound image of the data of the set of first ultrasound images selected by the device; The ultrasonic device according to claim 4, further comprising a device.   The ultrasound apparatus according to claim 4, wherein the data of the first ultrasound image includes data of an additional image added to the first ultrasound image. The data of the first ultrasound image includes data of an additional image added to the first ultrasound image,
In the storage device, data of the additional image can be stored,
The display control unit reads an additional image based on the data of the additional image stored in the storage device from the storage device and adds and displays the additional image to the first ultrasonic image to be displayed on the display unit. The ultrasonic device according to claim 6, wherein:   The ultrasound apparatus according to any one of claims 1 to 7, wherein the data of the ultrasound image is raw data or ultrasound image data.   The display control unit causes the display unit to display each thumbnail image of the plurality of first ultrasonic images stored in the storage device, and displays the first ultrasonic wave displayed on the display unit. The ultrasonic apparatus according to claim 4, wherein an image for specifying a thumbnail image of the image is displayed on the display unit.   A fifth input device for performing an input by which a user changes the order of the transmission / reception conditions read from the storage device by the transmission / reception control unit and the order of the processing conditions read from the storage device by the data creation unit. The ultrasonic device according to any one of claims 1 to 9, wherein