CN107802283A - Imaging system for thyroid disease inspection - Google Patents

Abstract

Present invention is disclosed a kind of imaging system for thyroid disease inspection, including controller, generating laser, ultrasonic transmitter, linear array probe and display；The laser transmitter projects laser beam acts on tested tissue, or the ultrasonic transmitter launches ul-trasonic irradiation in the tested tissue；The linear array probe acts on the tested tissue, for the echo-signal for gathering echo-signal when tested tissue of echo-signal, ul-trasonic irradiation when the laser beam acts on tested tissue and when only linear array probe acts on tested tissue；The echo-signal is sent to controller by the linear array probe, and the controller is used to echo-signal being converted into picture signal, and picture signal is sent into display.The present invention can realize conventional Ultrasound imaging, photoacoustic imaging and elastogram simultaneously.

Description

Imaging system for thyroid disease inspection

Technical field

The present invention relates to field of medical device, and in particular to a kind of imaging system for thyroid disease inspection.

Background technology

In recent years, as environmental degradation, various radiation increase, the incidence of disease of thyroid disease is in increase trend, companion year by year With the imaging table of the tested tissue of the diseases such as the influence of environment and various social factors, thyroid cancer now tend to not being true to type, Complicate and variation, existing imaging device typically only carry out a kind of imaging inspection, tested tissue gathered by linear array probe Echo-signal after, echo-signal is sent to controller or processing module by echo signal processing into picture signal, but cure Give birth to the species for producing single medical image by imaging device and being difficult to quickly and accurately be diagnosed to be thyroid disease, doctor The raw accuracy that need to such as improve judgement, it is necessary to different imaging inspections is carried out on other imaging devices, is wasted time and energy.

The content of the invention

The main object of the present invention can realize conventional Ultrasound to provide a kind of imaging system for thyroid disease inspection Imaging, photoacoustic imaging and elastogram.

The present invention proposes a kind of imaging system for thyroid disease inspection, including controller, generating laser, ultrasound Wave launcher, linear array probe and display；

The laser transmitter projects laser beam acts on tested tissue, or ultrasonic transmitter transmitting ultrasonic wave is made For the tested tissue；

The linear array probe acts on the tested tissue, for gathering the returning when laser beam acts on tested tissue Echo-signal when tested tissue of ripple signal, ul-trasonic irradiation and echo when only linear array probe acts on tested tissue Signal；

The echo-signal is sent to controller by the linear array probe, and the controller is used to echo-signal being converted into Picture signal, and picture signal is sent to display.

Further, the ultrasonic transmitter includes ultrasonic signal generator, power amplifier and excitation transducer, The ultrasonic signal generator produces ultrasonic signal after power amplifier amplifies, and is believed ultrasonic wave by excitation transducer Number send, the ultrasonic signal is used for the driving source as elastogram.

Further, the linear array probe includes detection impulse ejection module and acquisition module, the detection impulse ejection Module is used to launch detection pulse signal, and the acquisition module is used for the echo-signal for gathering tested tissue.

Further, in addition to memory cell, the memory cell connects the controller and linear array probe, for storing The echo-signal and controller of the linear array probe collection handle picture signal caused by the echo-signal.

Further, in addition to the first housing, the memory cell are located in the first shell body, and the display is located at First housing outer surface.

Further, in addition to the second housing, the generating laser are located at second housing with ultrasonic transmitter.

Further, in addition to controlling switch, the controlling switch includes the first operating key and the second operating key, and described One operating key and the second operating key are located at second housing outer surface, and the first control key connection simultaneously controls the laser to send out Emitter launches laser beam, and the second control key connection simultaneously controls the ultrasonic transmitter transmitting ultrasonic wave.

Further, second housing is Y-shaped structure, including the first installation portion, the second installation portion and operating portion, One installation portion and the second installation portion extend to same direction, and the extension of operating portion is opposite with the second installation portion with the first installation portion；

The generating laser is arranged in the first installation portion, and penetrates the bearing of trend of laser beam from the first installation portion Go out；

The ultrasonic transmitter is arranged on the second installation portion and ultrasonic wave is projected from the bearing of trend of the second installation portion；

The controlling switch is arranged on the crossover sites of the first installation portion, the second installation portion and operating portion.

Beneficial effects of the present invention：Conventional Ultrasound imaging technique, photoacoustic imaging technology are merged with elastography In one imaging system, when needing the tested tissue of human body carrying out above-mentioned three kinds of imagings, without being set respectively in three imagings It is imaged on standby, three kinds of imagings can be achieved with by an imaging system, shorten imaging time, and then more rapidly exactly Aid in diagnosis thyroid disease.Conventional Ultrasound is carried out by linear array probe to tested tissue to check to obtain the knot of tested tissue Structure parameter, coordinated by ultrasonic transmitter and linear array probe and tested tissue progress elastogram is checked to obtain tested tissue Elastic parameter, coordinated by generating laser and linear array probe and tested tissue progress photoacoustic imaging is checked to obtain tested tissue Optical parametric, the structural parameters collected are corresponded to echo-signal by linear array probe, echo-signal and optics corresponding to elastic parameter Echo-signal corresponding to parameter is converted into picture signal by controller and shown over the display, doctor is passed through display Three kinds of picture signals of upper display rapidly judge.

Brief description of the drawings

Fig. 1 is a kind of structured flowchart of imaging system for thyroid disease inspection of one embodiment of the invention；

Fig. 2 is a kind of structure of the second housing of imaging system for thyroid disease inspection of one embodiment of the invention Schematic diagram.

The realization, functional characteristics and advantage of the object of the invention will be described further referring to the drawings in conjunction with the embodiments.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only the part of the embodiment of the present invention, rather than whole embodiments.Base Embodiment in the present invention, those of ordinary skill in the art obtained under the premise of creative work is not made it is all its His embodiment, belongs to the scope of protection of the invention.

It is to be appreciated that the directional instruction (up, down, left, right, before and after etc.) of institute is only used in the embodiment of the present invention Relative position relation under a certain particular pose (as shown in drawings) between each part, motion conditions etc. are explained, if the spy When determining posture and changing, then directionality instruction also correspondingly changes therewith.The function that described connection is realized according to it, can Can be wired connection or wireless connection to be to be directly connected to or be indirectly connected with.

In addition, in the present invention such as relating to the description of " first ", " second " etc. be only used for describe purpose, and it is not intended that Indicate or imply its relative importance or the implicit quantity for indicating indicated technical characteristic.Thus, define " first ", At least one this feature can be expressed or be implicitly included to the feature of " second ".In addition, the technical side between each embodiment Case can be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when the combination of technical scheme Occur conflicting or will be understood that the combination of this technical scheme is not present when can not realize, also not in the guarantor of application claims Within the scope of shield.

Referring to Fig. 1-2, a kind of imaging system for thyroid disease inspection of one embodiment of the invention, including control are proposed Device 10, generating laser 30, ultrasonic transmitter 40, linear array probe 50 and display 60；Generating laser 30 launches laser beam Tested tissue is acted on, or ultrasonic transmitter 40 launches ul-trasonic irradiation in tested tissue；Linear array probe 50 acts on tested Tissue, believe for gathering the echo of echo-signal, ul-trasonic irradiation when laser beam acts on tested tissue when tested tissue Number and echo-signal when only linear array probe acts on tested tissue；Echo-signal is sent to controller by linear array probe 50 10, controller is used to echo-signal being converted into picture signal, and picture signal is sent into display 60.It is single also to include storage Member 70, memory cell 70 connect controller 10 and linear array probe 50, for store the collection of linear array probe 50 echo-signal and Controller 10 handles the caused picture signal of the echo-signal.

In the present embodiment, conventional Ultrasound imaging technique, photoacoustic imaging technology are merged with elastography one into In picture system, when needing the tested tissue of human body carrying out above-mentioned three kinds of imagings, without enterprising in three imaging devices respectively Row imaging, three kinds of imagings can be achieved with by an imaging system, shorten imaging time, and then more rapidly auxiliary is cured exactly Raw Diagnosis of Thyroid Diseases.Conventional Ultrasound is carried out to tested tissue by linear array probe 50 to check to obtain the structure ginseng of tested tissue Number, coordinated by ultrasonic transmitter 40 and linear array probe 50 and tested tissue progress elastogram is checked to obtain tested tissue Elastic parameter, coordinated by generating laser 30 and linear array probe 50 and tested tissue progress photoacoustic imaging is checked to obtain tested group The optical parametric knitted, the structural parameters collected are corresponded to echo-signal by linear array probe 50, echo-signal corresponding to elastic parameter Echo-signal corresponding with optical parametric is converted into picture signal by controller and shown over the display, passes through doctor The three kinds of picture signals shown on display rapidly judge.It is appreciated that working as only need to carry out conventional Ultrasound imaging, optoacoustic When imaging is imaged with a kind of in elastogram, you can auxiliary doctor completes what is judged, and imaging system can also only carry out a kind of Imaging.

In the present embodiment, described " connection " includes being used to carry out signal transmission, the wired connection and nothing of data transfer Line connects.Generating laser 30 can be pulse laser, and for producing laser beam, caused laser beam acts on tested tissue On, as the driving source of photoacoustic imaging, echo corresponding to the optical parametric of tested tissue is then gathered by linear array probe 50 and is believed Number.Ultrasonic transmitter 40 includes ultrasonic signal generator 401, power amplifier 402 and excitation transducer 403, ultrasonic wave Signal generator 401 produces ultrasonic signal after the amplification of power amplifier 402, is believed ultrasonic wave by excitation transducer 403 Number send, ultrasonic signal is used for the driving source as elastogram, acts in tested tissue, is then visited by linear array Echo-signal corresponding to the elastic parameter of first 50 collection tested tissue.It should be appreciated that linear array probe 50 can also pass through itself work( Conventional Ultrasound imaging can be carried out, gathers echo-signal corresponding to the structural parameters of tested tissue.Controller can including CPU etc. intelligence Can process chip, for echo-signal to be converted into picture signal, storage element 70 can be hard disk etc. be used for echo-signal and The carrier of picture signal, transferred at any time when needing doctor, display 60 is used to show the electron numbers such as check image signal Checked according to doctor is facilitated.

In another embodiment of the present invention, linear array probe 50 includes detection impulse ejection module 501 and acquisition module 502, inspection Impulse ejection module 501 is surveyed to be used to launch detection pulse signal so that acquisition module 502 can collect echo-signal exactly, Acquisition module 502 is used for the echo-signal for gathering tested tissue.Detect impulse ejection module 501 according to elastogram or optoacoustic into Picture, launch ultrasonic wave or Electromagnetic Wave Detection pulse, so that acquisition module 502 can collect the echo letter of tested tissue exactly Number.

In another embodiment of the present invention, the imaging system for thyroid disease inspection also includes the first housing, described to deposit For storage unit 70 in the first shell body, display 60 causes imaging system to be easily managed located at the first housing outer surface.With The imaging system of Thyreoidine disease examination also includes the second housing, as shown in Fig. 2 the second housing can be Y-shaped or big Cause Y-shaped structure, including the first installation portion 4, the second installation portion 5 and operating portion 6, the first installation portion 4 and the second installation portion 5 to Same direction extends, and the extension of operating portion 6 is opposite with the second installation portion 5 with the first installation portion 4.Generating laser 30 and ultrasonic wave Transmitter 40 is located at the second housing, and in a specific mounting means, generating laser 30 may be mounted in the first installation portion 4, And laser beam is projected from the bearing of trend of the first installation portion 4, ultrasonic transmitter 40 may be mounted at the second installation portion 5 and make Ultrasonic wave projects from the bearing of trend of the second installation portion 5, and operating portion 6 is used for operating personnel and grips the second housing or by second shell Body is arranged on operation machine.The driving source of the driving source of photoacoustic imaging and elastogram is arranged in a housing, a side Face can simplify operating process and be beneficial to control, on the other hand can also save the knot of installing space, the first housing and the second housing Structure can also set its contour structures according to the installation environment of imaging system, for example, it is also possible to be arranged to it is circular, square or its He facilitates manual operations and the shape being conveniently connected with other structures.

In another embodiment of the present invention, the imaging system for thyroid disease inspection also includes controlling switch 101, control Switch 101 includes the first operating key and the second operating key, and the first operating key and the second operating key are located at the second housing outer surface, the One control key connection simultaneously controls generating laser 30 to launch laser beam, and the second control key connection simultaneously controls ultrasonic transmitter 40 to send out Penetrate ultrasonic wave.Specifically, when the second housing is Y-shaped structure, controlling switch block 101 can be arranged on the first installation portion 4, Two installation portions 5 and the crossover sites of operating portion 6, avoid false touch to controlling switch 101.

Beneficial effects of the present invention：Conventional Ultrasound imaging technique, photoacoustic imaging technology are merged with elastography In one imaging system, when needing the tested tissue of human body carrying out above-mentioned three kinds of imagings, without being set respectively in three imagings It is imaged on standby, three kinds of imagings can be achieved with by an imaging system, shorten imaging time, and then more rapidly exactly Aid in diagnosis thyroid disease.Conventional Ultrasound is carried out by linear array probe 50 to tested tissue to check to obtain tested tissue Structural parameters, coordinated by ultrasonic transmitter 40 and linear array probe 50 and carry out elastogram to tested tissue and check to be tested The elastic parameter of tissue, coordinated by generating laser 30 with linear array probe 50 and tested tissue progress photoacoustic imaging is checked to obtain The structural parameters collected are corresponded to echo-signal, returned corresponding to elastic parameter by the optical parametric of tested tissue, linear array probe 50 Ripple signal echo-signal corresponding with optical parametric is converted into picture signal by controller and shown over the display, makes doctor can Rapidly to be judged by shown on display three kinds of picture signals.

The preferred embodiments of the present invention are the foregoing is only, are not intended to limit the scope of the invention, every utilization The equivalent structure or equivalent flow conversion that description of the invention and accompanying drawing content are made, or directly or indirectly it is used in other correlations Technical field, be included within the scope of the present invention.

Claims (8)

1. a kind of imaging system for thyroid disease inspection, it is characterised in that including controller, generating laser, ultrasound Wave launcher, linear array probe and display；

The laser transmitter projects laser beam acts on tested tissue, or ultrasonic transmitter transmitting ul-trasonic irradiation in The tested tissue；

The linear array probe acts on the tested tissue, for gathering the echo letter when laser beam acts on tested tissue Number, echo-signal of ul-trasonic irradiation when tested tissue and echo letter when only linear array probe acts on tested tissue Number；

The echo-signal is sent to controller by the linear array probe, and the controller is used to echo-signal being converted into image Signal, and picture signal is sent to display.

2. it is used for the imaging system of thyroid disease inspection as claimed in claim 1, it is characterised in that the ultrasonic transmitter Ultrasonic wave letter is produced including ultrasonic signal generator, power amplifier and excitation transducer, the ultrasonic signal generator Number after power amplifier amplifies, ultrasonic signal is sent by excitation transducer, the ultrasonic signal is used to be used as bullet Property imaging driving source.

3. it is used for the imaging system of thyroid disease inspection as claimed in claim 2, it is characterised in that the linear array probe includes Impulse ejection module and acquisition module are detected, the detection impulse ejection module is used to launch detection pulse signal, the collection Module is used for the echo-signal for gathering tested tissue.

4. it is used for the imaging system of thyroid disease inspection as claimed in claim 3, it is characterised in that also including memory cell, The memory cell connects the controller and linear array probe, for storing echo-signal and the control of the linear array probe collection Device processed handles picture signal caused by the echo-signal.

5. it is used for the imaging system of thyroid disease inspection as claimed in claim 4, it is characterised in that also including the first housing, For the memory cell in the first shell body, the display is located at first housing outer surface.

6. it is used for the imaging system of thyroid disease inspection as claimed in claim 5, it is characterised in that also including the second housing, The generating laser is located at second housing with ultrasonic transmitter.

7. it is used for the imaging system of thyroid disease inspection as claimed in claim 6, it is characterised in that also including controlling switch, The controlling switch includes the first operating key and the second operating key, and first operating key and the second operating key are located at described second Housing outer surface, the first control key connection simultaneously control the laser transmitter projects laser beam, and second operating key connects Connect and control the ultrasonic transmitter transmitting ultrasonic wave.

8. being used for the imaging system of thyroid disease inspection as claimed in claim 7, second housing is Y-shaped structure, bag The first installation portion, the second installation portion and operating portion are included, the first installation portion and the second installation portion extend to same direction, operating portion Extension is opposite with the second installation portion with the first installation portion；

The generating laser is arranged in the first installation portion, and laser beam is projected from the bearing of trend of the first installation portion；

The ultrasonic transmitter is arranged on the second installation portion and ultrasonic wave is projected from the bearing of trend of the second installation portion；

The controlling switch is arranged on the crossover sites of the first installation portion, the second installation portion and operating portion.