CN102846338A - Target information output method, ultrasonic imaging device, ultrasonic imaging work station and ultrasonic imaging system - Google Patents

Abstract

An embodiment of the invention discloses a method for outputting scanned target information in an ultrasonic imaging system. The method includes creating an imaging report template of a scanned target in an ultrasonic workstation; transmitting ultrasonic waves to the scanned target and receiving ultrasonic echo by an ultrasonic imaging device so as to acquire an ultrasonic image of the scanned target; acquiring the information of the scanned target according to the ultrasonic image; displaying the information of the scanned target on the ultrasonic imaging device; and filling the information of the scanned target into a corresponding position in the imaging report template. When in scanning of the scanned target, the acquired information of the scanned target is transmitted to the imaging report template in real time from the ultrasonic imaging device, a process of inputting the information of the scanned target into an imaging report manually is omitted, imaging report output efficiency is improved, and errors caused by manually inputting related information are avoided.

Description

Method for outputting target information, ultrasonic imaging device, workstation and system thereof

Technical Field

The invention relates to the field of medical ultrasonic imaging, in particular to a method for outputting information of a scanned target, an ultrasonic imaging device, an ultrasonic workstation and an ultrasonic imaging system.

Background

With the development of ultrasound technology, ultrasound devices are used in more and more departments. A medical ultrasound imaging system transmits ultrasound signals having specific frequency characteristics to human tissue to be examined. Ultrasonic waves propagate in tissue and are reflected or backscattered (backscatter) to form echo signals. These echo signals carry information about structures such as human tissues and organs. The ultrasonic imaging system receives the echo signals, obtains ultrasonic images reflecting structures of tissues or organs in the human body and the like in various modes through A/D conversion, beam synthesis and corresponding signal processing and image processing processes, and displays the ultrasonic images on a display.

From these obtained ultrasound images, various information about the internal tissues or organs of the human body, such as the circumference, diameter, length, thickness, volume of the tissue, velocity of blood flow, close-up images of the tissue, and the ultrasound images themselves, can be obtained, which can be output in an imaging report as a result of scanning by the ultrasound imaging system.

When the existing ultrasonic imaging system outputs an ultrasonic diagnosis report, the ultrasonic diagnosis report is usually output in an external ultrasonic image-text report workstation, the measurement result cannot be directly transmitted to the ultrasonic workstation, the measurement data needs to be manually read or dictated, and then the measurement data is manually input into the ultrasonic diagnosis report. Therefore, the efficiency of outputting the ultrasonic diagnosis report is low, and errors are easily made due to the hand-taken or spoken measurement data, thereby causing medical accidents or medical risks.

Disclosure of Invention

The embodiment of the invention provides a method for outputting information of a scanned target, an ultrasonic imaging device, an ultrasonic workstation and an ultrasonic imaging system, wherein the method is very convenient and efficient for outputting an imaging report and is not easy to make mistakes.

The technical scheme disclosed by the embodiment of the invention comprises the following steps:

there is provided a method of outputting information of an object under examination in an ultrasound imaging system including an ultrasound workstation and an ultrasound imaging apparatus, comprising: creating an imaging report template of a scanned object in the ultrasound workstation; transmitting ultrasonic waves to a scanned target by using the ultrasonic imaging device and receiving ultrasonic echoes to obtain an ultrasonic image of the scanned target; acquiring information of a scanned target obtained according to the ultrasonic image; displaying information of the scanned target on the ultrasonic imaging device; and filling the information of the scanned target into a corresponding position in the imaging report template.

The embodiment of the invention also provides a method for outputting information of a scanned target in an ultrasonic imaging device, which is characterized by comprising the following steps: transmitting ultrasonic waves to a scanned target and receiving ultrasonic echoes to obtain an ultrasonic image of the scanned target; acquiring information of a scanned target obtained according to the ultrasonic image; displaying the information of the scanned target; and sending the information of the scanned target to the corresponding position of an imaging report template of the ultrasonic workstation.

The embodiment of the invention also provides a method for outputting information of a scanned target in the ultrasonic workstation, which is characterized by comprising the following steps: creating an imaging report template of a scanned target; receiving information of a scanned target sent by an ultrasonic imaging device; and filling the information of the scanned target into a corresponding position in the imaging report template.

The embodiment of the invention also provides a method for outputting information of a scanned target in an ultrasonic imaging device, which is characterized by comprising the following steps: creating an imaging report template of a scanned target; transmitting ultrasonic waves to a scanned target and receiving ultrasonic echoes to obtain an ultrasonic image of the scanned target; acquiring information of a scanned target obtained according to the ultrasonic image; displaying the information of the scanned target; and filling the information of the scanned target into a corresponding position in the imaging report template.

The embodiment of the invention also provides an ultrasonic imaging system, which comprises an ultrasonic workstation and an ultrasonic imaging device, and is characterized in that: the ultrasonic imaging apparatus includes: the ultrasonic scanning system comprises a probe, a signal processing module and an image processing module, wherein the probe transmits ultrasonic waves to a scanned target and receives ultrasonic echoes, and an ultrasonic image of the scanned target is obtained through processing of the signal processing module and the image processing module; the scanning target information acquisition module acquires information of a scanning target obtained according to the ultrasonic image; a display that displays information of the ultrasound image and the scanned object; the scanning target information sending module sends the information of the scanning target to the ultrasonic workstation; the ultrasonic workstation comprises: an imaging report template module that creates and/or stores an imaging report template of a scanned object; and the scanned target information receiving module receives the information of the scanned target and fills the information of the scanned target into the corresponding position of the imaging report template.

The embodiment of the invention also provides an ultrasonic imaging device, which is characterized in that: the scanning system comprises a probe, a signal processing module, an image processing module, a scanned target information acquisition module, a scanned target information sending module and a display; the probe transmits ultrasonic waves to the scanned target and receives ultrasonic echoes, and the ultrasonic waves are processed by the signal processing module and the image processing module to obtain an ultrasonic image of the scanned target; the scanning target information acquisition module acquires information of a scanning target acquired according to the ultrasonic image; the display displays the ultrasonic image and the information of the scanning target; and the scanned target information sending module sends the information of the scanned target to a corresponding position of an imaging report template of an ultrasonic workstation.

The embodiment of the invention also provides an ultrasonic workstation, which is characterized in that: the system comprises an imaging report template module and a scanned object information receiving module; the imaging report template module creates and/or stores an imaging report template of a scanned object; and the scanned target information receiving module receives the information of the scanned target sent by the ultrasonic imaging device and fills the information of the scanned target into a corresponding position in the imaging report template.

The embodiment of the invention also provides an ultrasonic imaging device, which is characterized in that: the method comprises the following steps: the ultrasonic scanning system comprises a probe, a signal processing module and an image processing module, wherein the probe transmits ultrasonic waves to a scanned target and receives ultrasonic echoes, and an ultrasonic image of the scanned target is obtained through processing of the signal processing module and the image processing module; the scanning target information acquisition module acquires information of a scanning target obtained according to the ultrasonic image; a display that displays information of the ultrasound image and the scanned object; an imaging report template module that creates and/or stores an imaging report template of a scanned object; and the scanned target information sending module fills the information of the scanned target into a corresponding position in the imaging report template.

In the embodiment of the invention, when the ultrasonic imaging system is used for scanning the scanned target, the obtained information of the scanned target is transmitted to the imaging report template from the ultrasonic imaging device in real time and is filled in the corresponding position, the imaging report template is directly output, namely the current scanned imaging report, and the information of the scanned target is not required to be manually input into the imaging report. Therefore, the efficiency of outputting the imaging report is improved, the imaging report is very convenient to output, and errors caused by manually inputting relevant information are avoided.

Drawings

FIG. 1 is a block diagram schematic of an ultrasound imaging system of one embodiment of the present invention;

fig. 2 is a block diagram of an ultrasound imaging apparatus according to another embodiment of the present invention.

Detailed Description

FIG. 1 is a block diagram of an ultrasound imaging system in accordance with one embodiment of the present invention. As shown in FIG. 1, in one embodiment of the present invention, an ultrasound imaging system includes an ultrasound imaging device and an ultrasound workstation. The ultrasonic imaging device is used for scanning an object to be detected (such as a human body, which is subsequently and collectively called as a scanned object) by using ultrasonic waves and obtaining an ultrasonic image of the scanned object and related information of the scanned object. The ultrasonic workstation is used for processing the images and information obtained by the ultrasonic imaging device and outputting an imaging report of a scanned target.

As shown in fig. 1, in an embodiment of the present invention, an ultrasound imaging apparatus includes a probe 1, a transmitting circuit 2, a transmitting/receiving selection switch 3, a receiving circuit 4, an analog/digital (a/D) conversion module 5, a beam synthesis module 6, a signal processing module 7, an image processing module 8, a display 9, a human-computer interface module 10, a scanned object information acquiring module 11, and a scanned object information transmitting module 12.

The transmitting circuit 2 excites the electric signal with specific frequency signal to the probe 1 through the transmitting/receiving selection switch 3, the probe 1 converts the electric signal into ultrasonic signal and transmits the ultrasonic signal to the scanning target, and the returned ultrasonic signal with the tissue information of the scanning target is converted into the electric signal again through the probe 1. The receiving circuit 4 receives these electrical signals. Meanwhile, due to the attenuation characteristic of the ultrasonic wave in the tissue, the echo signal is gradually attenuated along with the depth (corresponding to the propagation return time), so that the receiving circuit 4 also completes the gain compensation along with the change of the depth, so that the compensated RF (radio frequency) signal has equivalent signal amplitude in the effective measuring range. The compensated RF signal is converted from an analog signal to a digital signal by the a/D conversion module 5, and the beam forming module 6 focuses multi-channel data to realize multi-channel beam forming. The synthesized echo signal is processed by the image processing module 8 after being detected (or called as demodulation) by the signal processing module 7. According to different imaging modes, the image processing module 8 performs different processing on the signals to obtain image data of different modes, and then performs processing such as logarithmic compression, dynamic range adjustment, coordinate conversion and the like to form ultrasonic images of different modes, such as a B image, a C image, a D image and the like. The ultrasound images of the scanned objects obtained are sent to the display 9 for display. In the aforementioned imaging process, various parameters in the imaging process can be set or adjusted through the human-machine interface 10, and various editing operations and the like can be performed on the obtained image.

The ultrasound image of the scanned object obtained by the image processing module 8 carries various information related to the scanned object. Through these ultrasound images, the scanned object information acquisition module 11 can acquire information related to the scanned object. For example, measurements may be made in the ultrasound images to obtain various parameters of the scanned object, such as the diameter, volume, circumference, volume, length, thickness, or blood flow velocity of the scanned object, among others. The information of the scanning target obtained by the scanning target information obtaining module 11 can be displayed on the display 9 simultaneously with the ultrasound image.

In an embodiment of the present invention, the scanned object information acquiring module 11 may include a measuring sub-module, where the measuring sub-module receives an instruction for measuring a parameter of a scanned object, and measures values of the parameter of the scanned object in an ultrasound image according to the instruction, where the values of the parameter are acquired information of the scanned object. The instruction for measuring the parameters of the scanned object may be input from the user through the human-machine interface 10, or may be an instruction for automatically generating measurement parameters by the ultrasound imaging apparatus according to the current imaging mode.

As shown in FIG. 1, in one embodiment of the present invention, the ultrasound workstation includes an imaging report template module 22, an imaging report output module 23, a display module 24, and a human interface module 25.

In the ultrasonic imaging, after scanning and imaging a scanned object and obtaining related information of the scanned object, the obtained information of the scanned object needs to be output as a report (collectively referred to as an imaging report herein) for a doctor or a patient to view.

In ultrasound imaging, there are various scanning modes, such as B-mode, M-mode, C-mode, PW-mode, CW-mode, and so on. The subjects scanned by ultrasound imaging are also diverse, such as abdominal scans, carotid scans, cardiac scans, renal scans, and the like. The scanning results (i.e. the information of the scanned objects) required or obtained for scanning different scanned objects in different scanning modes are different. Therefore, the content of the imaging report is different for different modes of scanning of different scanned objects. In the embodiment of the present invention, the imaging report template module 22 respectively establishes respective imaging report templates according to different factors such as scanning modes and scanning objects of the ultrasound examination, so as to obtain an imaging report template library. These imaging report templates may be automatically created and stored by the imaging report template module 22, may be created by the user through the human interface 25 together with the imaging report template module 22 and stored by the imaging report template module 22, or may be input into the imaging report template module 22 after creation is completed outside the ultrasound imaging system and stored by the imaging report template module 22. These situations are collectively referred to herein as "creating" an imaging report template. After the template library is created, the user may edit the template library or templates therein via the human-machine interface 25.

The imaging report templates include a plurality of fields, each of which corresponds to information of a respective scanning target, such as a volume field, a perimeter field, a diameter field, a blood flow velocity field, and the like; fields for patient information such as a patient name field, a patient gender field, a date the patient was scanned, etc.; fields of reference information may also be included, such as comments made by the physician to the ultrasound image, prompts for annotations or some preliminary determination of the ultrasound image, and the ultrasound image itself, among others. Herein, these fields are referred to as "corresponding positions" of the imaging report template, which are referred to as corresponding to the information of the respective scanned objects. For example, the volume field is the corresponding position of the measured volume of the scan target, the blood flow velocity field is the corresponding position of the measured blood flow velocity of the scan target, the name field of the patient is the corresponding position of the patient name, the image field of the scan target is the corresponding position of the ultrasound image of the scan target, and so on.

These imaging report templates may be displayed on the display module 24 and may be output as imaging reports by the imaging report output module.

In this embodiment, the ultrasound imaging apparatus further includes a scanned target information sending module 12, and the ultrasound workstation further includes a scanned target information receiving module 21.

In the ultrasonic imaging device, after a scanned target information acquisition unit acquires relevant information of scanned targets, a scanned target information sending module 12 sends the relevant information of the scanned targets to a scanned target information receiving module 21 of an ultrasonic workstation in real time. The ultrasound imaging device or the ultrasound workstation can determine an imaging report template corresponding to the current scanning according to the current scanning parameters (imaging mode, scanning target, probe type, imaging parameters and the like) of the ultrasound imaging device. After receiving the related information of the scanned object, the scanned object information receiving module 21 sends the information to the imaging report template module, and fills the information into the fields corresponding to the information in the current scanning mode and the imaging report template under the current scanned object respectively in real time. For some common information under different scanning modes and different scanning objects, such as the name, the sex or any other common information of the patient, the information can be filled in all the imaging report templates containing the fields corresponding to the information in real time. Of course, the information of the scanned target may also be sent to the scanned target information receiving module 21 and filled in the imaging report template instead of being sent to the scanned target information receiving module 21 in real time, but after acquiring part or all of the information, the information is sent to the scanned target information receiving module 21 and filled in the imaging report template according to the trigger signal or the received instruction signal.

Therefore, after the ultrasonic imaging device obtains the information of the scanned target, the information is sent to the imaging report template library of the ultrasonic workstation and automatically filled in the corresponding position of each imaging report template, the information is not required to be input into the imaging report in a manual hand-writing or dictating mode, the output efficiency of the imaging report is improved, and errors in the output report caused by manual hand-writing or dictating are avoided.

The communication between the scanned object information sending module 12 and the scanned object information receiving module 21 may use a common data communication method between different systems or devices, and will not be described herein again.

As described above, in this embodiment, the information of the scanned object may include, in addition to the aforementioned values of the parameters of the scanned object, patient information, reference information of the ultrasound image, and other information. The patient information may include the patient's name, gender, age, weight, etc. information relating to the currently scanned patient. The reference information of the ultrasound image may be ultrasound-visible information, annotation or prompt information, preliminary interpretation information of the ultrasound image, the ultrasound image itself, and the like, which are input by a user according to the obtained ultrasound image when scanning. The ultrasound-seen information refers to a phenomenon observed by observing an ultrasound image scanned by an ultrasound imaging apparatus. For example, if the liver is seen to have a bolus, the ultrasound information is: an "ultrasound scan sees a low echo bolus at 3x4x5 cm". The ultrasonic prompt information refers to the prompt information which is seen according to the ultrasonic. For example, for the above example, the ultrasound cues are: "liver cancer is highly suspicious", etc.

In the ultrasound imaging process, the user inputs the patient information or the reference information corresponding to the current ultrasound image, and herein, the patient information, the aforementioned measurement result, the reference information, and other information related to the scanned object according to actual needs are collectively referred to as "information of the scanned object obtained according to the ultrasound image".

After the scanned target information acquisition module 11 obtains the patient information or the reference information, the scanned target information sending module 12 sends the patient information or the reference information to the scanned target information receiving module 21 of the ultrasound workstation. After receiving the patient information or the reference information, the scanning target information receiving module 21 sends the patient information or the reference information to the imaging report template module, and fills the fields corresponding to the patient information or the reference information in the imaging report template. At the same time, the patient information or the reference information may be displayed on the display 9 of the ultrasound imaging apparatus.

For example, scanning imaging is currently performed on the heart in the C mode, during the imaging process, a user measures a blood flow velocity value and displays the blood flow velocity value on the display 9 of the ultrasound imaging apparatus, and meanwhile, the scanning target information sending module 12 sends the blood flow velocity value to the scanning target information receiving module 21 of the ultrasound workstation. After receiving the blood flow velocity value, the scanning target information receiving module 21 sends the blood flow velocity value to the imaging report template module 22, and fills the blood flow velocity value into a position corresponding to a "blood flow velocity" column in the imaging report template of the C-mode cardiac scanning.

After the measurement results are transmitted to the ultrasound workstation, the measurement results may be temporarily stored in the scanned object information receiving module 21 and displayed on the display module 24 for automatic screening and confirmation by a user or an imaging system. The scanning target information receiving module 21 receives selection signals that select, among the measurement results, a measurement result that needs to be output. According to the selection signals, the scanning target information receiving module 21 sends the selected measurement results to be output to the imaging report template module and fills the corresponding positions of the measurement results to be output in the imaging report template, and other measurement results which are not selected are not output.

Similarly, the aforementioned patient information and the reference information of the ultrasound image and other information may be stored in the scanning target information receiving module 21 and displayed on the display module 24 after being transmitted to the ultrasound workstation, so as to be automatically screened and confirmed by the user or the imaging system. The scanning target information receiving module 21 receives selection signals for selecting information to be outputted among the patient information, the reference information of the ultrasound image, and other information. According to the selection signals, the scanning target information receiving module 21 sends the selected information to be output to the imaging report template module and fills the corresponding position of the selected information to be output in the imaging report template, and other information is not output.

Herein, the measurement result of the parameter of the scan target selected by the selection signal, the patient information, the reference information of the ultrasound image, and other information are collectively referred to as "information to be output" selected.

And after the ultrasonic scanning is finished and when an imaging report needs to be output, directly calling an imaging report template corresponding to the current scanning from the imaging report template library. In this imaging report template, as described above, patient information, measurement information, reference information, etc. have been transferred from the ultrasound imaging device to the imaging report template and filled in at the time of scanning with the ultrasound imaging system. Therefore, the imaging report template is directly output, namely the imaging report of the current scanning. Therefore, the imaging report is very convenient to output, the efficiency of outputting the imaging report is improved, and errors caused by manually inputting relevant information are avoided. Of course, before outputting the imaging report template, the user may edit the imaging report template, such as adding or deleting patient information, measurement results, or reference information, etc., to obtain the final imaging report.

As can be seen from the foregoing, the method for outputting information of a scanned target by an ultrasound imaging system of the present embodiment includes:

creating an imaging report template of a scanned object in the ultrasound workstation;

transmitting ultrasonic waves to a scanned target by using the ultrasonic imaging device and receiving ultrasonic echoes to obtain an ultrasonic image of the scanned target;

acquiring information of a scanned target obtained according to the ultrasonic image;

displaying information of the scanned target on the ultrasonic imaging device;

and filling the information of the scanned target into a corresponding position in the imaging report template.

In another embodiment of the present invention, the imaging report template module and the imaging report output module may also be included in the ultrasound imaging apparatus.

As shown in fig. 2, in the present embodiment, the ultrasound imaging apparatus includes a probe 1, a transmitting circuit 2, a transmitting/receiving selection switch 3, a receiving circuit 4, an analog/digital (a/D) conversion module 5, a beam synthesis module 6, a signal processing module 7, an image processing module 8, a display 9, a human-machine interface module 10, a scanning target information acquisition module 11, a scanning target information sending module 12, an imaging report template module 16, and an imaging report output module 18.

In this embodiment, the structure and the working manner of the probe 1, the transmitting circuit 2, the transmitting/receiving selection switch 3, the receiving circuit 4, the analog/digital (a/D) conversion module 5, the beam forming module 6, the signal processing module 7, the image processing module 8, the display 9, and the scanned target information obtaining module 11 may be the same as those of the foregoing embodiment, and are not described herein again. The human interface module 10 is connected to the imaging report template module for user manipulation of the imaging report template.

The imaging report template module 16 respectively establishes respective imaging report templates according to different factors such as scanning modes, scanning objects and the like of the ultrasonic examination, and obtains an imaging report template library. These imaging report templates may be automatically created and stored by the imaging report template module 16, may be created by the user through the human interface 10 together with the imaging report template module 16 and stored by the imaging report template module 16, or may be input into the imaging report template module 16 and stored by the imaging report template module 16 after creation is completed outside the ultrasound imaging system. These situations are collectively referred to herein as "creating" an imaging report template. After the template library is established, the user can edit the template library or the templates therein through the man-machine interface 10.

The scanned target information acquiring module 11 acquires information of scanned targets, and the scanned target information sending module 12 sends the information to an imaging report template in the imaging report template module 16, and fills positions corresponding to the information of the scanned targets in the imaging report template. The imaging report output module 18 outputs an imaging report template in the imaging report template module.

Similar to the previous embodiment, in this embodiment, the information of the scan target may include parameters of the scan target, patient information, reference information of the ultrasound image, or other related information, which is not described herein again.

It can be seen that the method for outputting information of a scanned target by the ultrasound imaging system of this embodiment includes:

creating an imaging report template of a scanned target;

transmitting ultrasonic waves to a scanned target and receiving ultrasonic echoes to obtain an ultrasonic image of the scanned target;

acquiring information of a scanned target obtained according to the ultrasonic image;

displaying the information of the scanned target;

and filling the information of the scanned target into a corresponding position in the imaging report template.

The present invention has been described above with reference to specific examples, but the present invention is not limited to these specific examples. It will be understood by those skilled in the art that various changes, substitutions of equivalents, variations, and the like can be made thereto without departing from the spirit of the invention, and the scope of the invention is to be determined from the following claims.

Claims (15)

1. A method of outputting information for scanning an object in an ultrasound imaging system comprising an ultrasound workstation and an ultrasound imaging apparatus, comprising:

creating an imaging report template of a scanned object in the ultrasound workstation;

transmitting ultrasonic waves to a scanned target by using the ultrasonic imaging device and receiving ultrasonic echoes to obtain an ultrasonic image of the scanned target;

acquiring information of a scanned target obtained according to the ultrasonic image;

displaying information of the scanned target on the ultrasonic imaging device;

and filling the information of the scanned target into a corresponding position in the imaging report template.

2. The method of claim 1, wherein: filling information of the scanned object into a corresponding position in the imaging report template comprises:

sending information of the scanned target to the ultrasonic workstation;

displaying the information of the scanned target at the ultrasonic workstation;

receiving a selection signal, wherein the selection signal selects information needing to be output from the information of the scanned target;

and filling the information needing to be output into the corresponding position in the imaging report template.

3. The method of claim 1 or 2, wherein:

the information of the scanned target comprises parameters of the scanned target, and the imaging report template comprises columns of the parameters of the scanned target;

wherein,

the acquiring of the information of the scanned target obtained according to the ultrasound image includes:

receiving instructions to measure parameters of a scanned object in the ultrasound imaging device;

measuring a value of the parameter in the ultrasound image;

filling information of the scanned object into a corresponding position in the imaging report template comprises:

sending the value of the parameter to the imaging report template and filling in the field of the parameter in the imaging report template.

4. A method according to any one of claims 1 to 3, characterized by:

the information of the scanning target comprises patient information and/or reference information of an ultrasonic image, and the imaging report template comprises a patient information field and/or a reference information field of the ultrasonic image;

wherein,

the acquiring of the information of the scanned target obtained according to the ultrasound image includes:

acquiring reference information of patient information and/or an ultrasonic image in the ultrasonic diagnosis device;

filling information of the scanned object into a corresponding position in the imaging report template comprises:

and sending the reference information of the patient information and/or the ultrasonic image to the imaging report template and filling the reference information field of the patient information and/or the reference information field of the ultrasonic image in the imaging report template.

5. A method of outputting information of a scanned object in an ultrasound imaging apparatus, comprising:

transmitting ultrasonic waves to a scanned target and receiving ultrasonic echoes to obtain an ultrasonic image of the scanned target;

acquiring information of a scanned target obtained according to the ultrasonic image;

displaying the information of the scanned target;

and sending the information of the scanned target to the corresponding position of an imaging report template of the ultrasonic workstation.

6. The method of claim 5, wherein:

the acquiring of the information of the scanned target obtained according to the ultrasound image includes:

receiving an instruction for measuring parameters of a scanned target;

measuring a value of the parameter in the ultrasound image;

the step of sending the information of the scanned target to the corresponding position of the imaging report template of the ultrasonic workstation comprises the following steps:

and sending the values of the parameters to corresponding positions of an imaging report template of the ultrasonic workstation.

7. A method of outputting information of a scanned object in an ultrasound workstation, comprising:

creating an imaging report template of a scanned target;

receiving information of a scanned target sent by an ultrasonic imaging device;

and filling the information of the scanned target into a corresponding position in the imaging report template.

8. A method for outputting information of a scanned object in an ultrasonic imaging device is characterized by comprising the following steps:

creating an imaging report template of a scanned target;

transmitting ultrasonic waves to a scanned target and receiving ultrasonic echoes to obtain an ultrasonic image of the scanned target;

acquiring information of a scanned target obtained according to the ultrasonic image;

displaying the information of the scanned target;

and filling the information of the scanned target into a corresponding position in the imaging report template.

9. The method of claim 8, wherein:

the acquiring of the information of the scanned target obtained according to the ultrasound image includes:

receiving an instruction for measuring parameters of a scanned target;

measuring a value of the parameter in the ultrasound image;

filling information of the scanned object into a corresponding position in the imaging report template comprises:

filling the values of the parameters into corresponding positions of the imaging report template.

10. An ultrasonic imaging system comprising an ultrasonic workstation and an ultrasonic imaging apparatus, characterized in that:

the ultrasonic imaging apparatus includes:

the ultrasonic scanning system comprises a probe, a signal processing module and an image processing module, wherein the probe transmits ultrasonic waves to a scanned target and receives ultrasonic echoes, and an ultrasonic image of the scanned target is obtained through processing of the signal processing module and the image processing module;

the scanning target information acquisition module acquires information of a scanning target obtained according to the ultrasonic image;

a display that displays information of the ultrasound image and the scanned object;

the scanning target information sending module sends the information of the scanning target to the ultrasonic workstation;

the ultrasonic workstation comprises:

an imaging report template module that creates and/or stores an imaging report template of a scanned object;

and the scanned target information receiving module receives the information of the scanned target and fills the information of the scanned target into the corresponding position of the imaging report template.

11. The system of claim 10, wherein: the scanned object information acquisition module comprises: a measurement sub-module that receives an instruction to measure a parameter of a scanned object and measures a value of the parameter in the ultrasound image.

12. An ultrasound imaging apparatus characterized by: the scanning system comprises a probe, a signal processing module, an image processing module, a scanned target information acquisition module, a scanned target information sending module and a display;

the probe transmits ultrasonic waves to the scanned target and receives ultrasonic echoes, and the ultrasonic waves are processed by the signal processing module and the image processing module to obtain an ultrasonic image of the scanned target;

the scanning target information acquisition module acquires information of a scanning target acquired according to the ultrasonic image;

the display displays the ultrasonic image and the information of the scanning target;

and the scanned target information sending module sends the information of the scanned target to a corresponding position of an imaging report template of an ultrasonic workstation.

13. The apparatus of claim 12, wherein: the scanned object information acquisition module comprises: a measurement sub-module that receives an instruction to measure a parameter of a scanned object and measures a value of the parameter in the ultrasound image.

14. An ultrasound workstation characterized by: the system comprises an imaging report template module and a scanned object information receiving module;

the imaging report template module creates and/or stores an imaging report template of a scanned object;

and the scanned target information receiving module receives the information of the scanned target sent by the ultrasonic imaging device and fills the information of the scanned target into a corresponding position in the imaging report template.

15. An ultrasound imaging apparatus, comprising:

the ultrasonic scanning system comprises a probe, a signal processing module and an image processing module, wherein the probe transmits ultrasonic waves to a scanned target and receives ultrasonic echoes, and an ultrasonic image of the scanned target is obtained through processing of the signal processing module and the image processing module;

the scanning target information acquisition module acquires information of a scanning target obtained according to the ultrasonic image;

a display that displays information of the ultrasound image and the scanned object;

an imaging report template module that creates and/or stores an imaging report template of a scanned object;

and the scanned target information sending module fills the information of the scanned target into a corresponding position in the imaging report template.

Images