CN105147330A - Phased array head temporal bone imager - Google Patents
Phased array head temporal bone imager Download PDFInfo
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- CN105147330A CN105147330A CN201510659855.XA CN201510659855A CN105147330A CN 105147330 A CN105147330 A CN 105147330A CN 201510659855 A CN201510659855 A CN 201510659855A CN 105147330 A CN105147330 A CN 105147330A
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- temporal bone
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- array head
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Abstract
The invention relates to a phased array head temporal bone imager. The phased array head temporal bone imager comprises a displayer body, a main input device, an ultrasonic probe, an auxiliary input device, an outer shell, an ultrasonic main machine, a machine body, a power source, a PC host, a CD driver, a displayer guide column, a displayer bottom cover, a displayer arm and a displayer support. When the phased array head temporal bone imager is in practical use, the 2-MHz low-frequency phased array probe is adopted to penetrate through the head temporal bone to observe a brain tissue structure, intracranial vessels and vessel conditions of a wemes ring of the brainstem, and intracranial lesions are diagnosed through the brain parenchyma, the brain vessels and Doppler frequency spectrum waveforms of the brain parenchyma and the brain vessels. When used for detection, the phased array head temporal bone imager is direct, easy, convenient, free of radiation and low in detection cost. Meanwhile, blood flowing and pulsation can be observed in real time, and analysis and diagnosis are carried out in cooperation with the conditions such as the rigidity of the vessels and the blood concentration.
Description
Technical field
The present invention relates to ultrasonic medical equipment, specifically phased array head temporal bone imager.
Background technology
Ultrasonic diagnosis is the physical characteristic such as the good directivity of main using ultrasound and the reflection similar to light, scattering, decay and Doppler effect then, utilize the physical parameter that they are different, use dissimilar diagnostic ultrasonic equipment, adopt various checking method, by ultrasound emission in human body, and propagate in the tissue, when the acoustic impedance of normal structure or pathological tissue has different, reflection and scattering will be there is in the interface of their compositions, again this echo signal is received, in addition after the process such as detection, be shown as waveform, curve or image etc.
B ultrasonic, as the one of ultrasonic diagnosis, in clinical practice, clearly can show the various section pictures of each internal organs and peripheral organs, because image is imbued with entity sense, close to the real structure of dissecting, so using ultrasound can be clarified a diagnosis in early days.Such as: during ophthalmic diagnosis non-metal foreign body, when vitreous opacity, pathological changes after retina and ball can be shown.There is specificity to the non-immersed detection of the congenital heart disease of heart, rheumatic heart disease, slime disease, most of cardiac catheterization can be replaced.It also can be used for the break-make of thin vessels, blood flow direction, speed mensuration can extensive use.Detecting of early discovery hepatic space occupying lesion reaches 1 centimetre of level.Also can clearly illustrate gallbladder ductus choledochus, common hepatic duct, extrahepatic bile ducts, pancreas, adrenal gland, prostate etc.Ultrasound diagnosis can detect whether occupying lesion, especially to the physics of hydrops and cyst is qualitative and quantity, volume etc. are quite accurate.Traditional inspection technique is exceeded to the recall rate of calculus in various tube chamber.Many knotty problems being difficult to detect more are solved over to obstetrics.As measured placental localization, amniotic fluid, again can to single tire polyembryony, fetal development situation and whether deformity and hydatidiform mole etc. make early diagnosis.
The medical imaging diagnosis tradition of cranium brain relies on X-ray and CT, MR to check the pathological changes diagnosing cerebral tissue.Above-mentioned inspection has the radiation of X-ray to patient, and inspection method must check in the radiology department of medical image, CT Room, MR main equipment room, and inspection fee is also very expensive.Also do not have at present a kind ofly to use the ultrasonic special equipment carrying out brain diagnosis.
Summary of the invention
The present invention, just for above technical problem, provides a kind of and can use the ultrasonic special equipment phased array head temporal bone imager carrying out brain diagnosis.
The present invention realizes mainly through following technical scheme.
Phased array head temporal bone imager, comprise display unit main body, primary input equipment, ultrasonic probe, auxiliary input device, shell, ultrasonic main frame, body, power supply, PC main frame, CD-ROM drive, display lead, display bottom, display arms, display bracket, it is characterized in that display unit main body is arranged in display arms by display bracket, display arms text is provided with display bottom, display lead is through display bottom, display arms by display bottom, display arms is connected on body, PC main frame, CD-ROM drive is arranged on rear side of body, power supply is arranged on PC main frame, the below of CD-ROM drive, ultrasonic main frame is arranged on body front, body is outer to be wrapped up by shell, ultrasonic main frame, power supply, PC main frame, CD-ROM drive is all arranged in the enclosure, auxiliary input device is provided with at the upper side of shell, opposite side is provided with primary input equipment, it is outer and be connected with ultrasonic main frame that ultrasonic probe is arranged on shell.Primary input equipment is keyboard.Auxiliary input device is touch screen.Ultrasonic probe is low frequency phased array probe.Display bottom, display arms are linked together by star grip knob by display lead.Below body, universal wheel is set.Be connected by WIFI between ultrasonic probe with ultrasonic main frame and carry out Signal transmissions.
During actual use, the present invention adopts the low frequency phased array probe of 2MHz, observe the blood vessel situation of " wemes " ring in cerebral tissue structure and intracranial vessel, brain stem portion through cranium brain temporal bone, carried out the diagnosis of intracranial lesion by brain essence and cerebrovascular and their Doppler spectra wave mode.Detected by the present invention, directly easy, radiationless, inspection fee is low.Simultaneously can Real Time Observation blood flow, pollex, and carry out analyzing and diagnosing in conjunction with situations such as the hardness of blood vessel, the concentration of blood.
Structure of the present invention is simple, low-profile, easy to use.
Accompanying drawing explanation
In accompanying drawing, Fig. 1 is decomposition texture schematic diagram of the present invention, wherein:
1-display unit main body, 2-primary input equipment, 3-ultrasonic probe, 4-auxiliary input device, 5-shell, 6-ultrasonic main frame, 7-body, 8-power supply, 9-PC main frame, 10-CD-ROM drive, 11-display lead, 12-display bottom, 13-display arms, 14-display bracket.
Specific embodiment
Below in conjunction with accompanying drawing, the invention will be further described.
Phased array head temporal bone imager, comprises display unit main body 1, primary input equipment 2, ultrasonic probe 3, auxiliary input device 4, shell 5, ultrasonic main frame 6, body 7, power supply 8, PC main frame 9, CD-ROM drive 10, display lead 11, display bottom 12, display arms 13, display bracket 14, it is characterized in that display unit main body 1 is arranged in display arms 13 by display bracket 14, display arms 13 text is provided with display bottom 12, and display lead 11 is through display bottom 12, display arms 13 by display bottom 12, display arms 13 is connected on body 7, PC main frame 9, CD-ROM drive 10 is arranged on rear side of body 7, and power supply 8 is arranged on PC main frame 9, the below of CD-ROM drive 10, ultrasonic main frame 6 is arranged on body 7 front, and body 7 is outer to be wrapped up by shell 5, ultrasonic main frame 6, power supply 8, PC main frame 9, CD-ROM drive 10 is all arranged in shell 5, is provided with auxiliary input device 4 at the upper side of shell 5, and opposite side is provided with primary input equipment 2, and it is outer and be connected with ultrasonic main frame 6 that ultrasonic probe 3 is arranged on shell 5.Primary input equipment 2 is keyboard.Auxiliary input device 4 is touch screen.Ultrasonic probe 3 is low frequency phased array probe.Display bottom 12, display arms 13 are linked together by star grip knob by display lead 11.Below body 7, universal wheel is set.Be connected by WIFI between ultrasonic probe 3 with ultrasonic main frame 6 and carry out Signal transmissions.
During actual use, the present invention adopts the low frequency phased array probe of 2MHz, observe the blood vessel situation of " wemes " ring in cerebral tissue structure and intracranial vessel, brain stem portion through cranium brain temporal bone, carried out the diagnosis of intracranial lesion by brain essence and cerebrovascular and their Doppler spectra wave mode.Detected by the present invention, directly easy, radiationless, inspection fee is low.Simultaneously can Real Time Observation blood flow, pollex, and carry out analyzing and diagnosing in conjunction with situations such as the hardness of blood vessel, the concentration of blood.
Above-described embodiment, only for technical conceive of the present invention and feature are described, its object is to person skilled in the art can be understood content of the present invention and implement according to this, can not limit the scope of the invention with this.All equivalences done according to spirit of the present invention change or modify, and all should be encompassed within protection scope of the present invention.
Claims (7)
1. phased array head temporal bone imager, comprise display unit main body, primary input equipment, ultrasonic probe, auxiliary input device, shell, ultrasonic main frame, body, power supply, PC main frame, CD-ROM drive, display lead, display bottom, display arms, display bracket, it is characterized in that display unit main body is arranged in display arms by display bracket, display arms text is provided with display bottom, display lead is through display bottom, display arms by display bottom, display arms is connected on body, PC main frame, CD-ROM drive is arranged on rear side of body, power supply is arranged on PC main frame, the below of CD-ROM drive, ultrasonic main frame is arranged on body front, body is outer to be wrapped up by shell, ultrasonic main frame, power supply, PC main frame, CD-ROM drive is all arranged in the enclosure, auxiliary input device is provided with at the upper side of shell, opposite side is provided with primary input equipment, it is outer and be connected with ultrasonic main frame that ultrasonic probe is arranged on shell.
2. phased array head temporal bone imager according to claim 1, is characterized in that described primary input equipment is keyboard.
3. phased array head temporal bone imager according to claim 1, is characterized in that described auxiliary input device is touch screen.
4. phased array head temporal bone imager according to claim 1, is characterized in that described ultrasonic probe is low frequency phased array probe.
5. phased array head temporal bone imager according to claim 1, is characterized in that display bottom, display arms are linked together by star grip knob by described display lead.
6. phased array head temporal bone imager according to claim 1, is characterized in that arranging universal wheel below described body.
7. phased array head temporal bone imager according to claim 1, is characterized in that being connected by WIFI between described ultrasonic probe with ultrasonic main frame carrying out Signal transmissions.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107753062A (en) * | 2017-11-27 | 2018-03-06 | 西安交通大学 | TCD,transcranial Doppler cerebral angiography super-resolution imaging method based on Markov chain Monte-Carlo multi-target tracking |
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CN1655721A (en) * | 2002-05-23 | 2005-08-17 | 皇家飞利浦电子股份有限公司 | Ultrasound cart with laterally articulating control panel |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN107753062A (en) * | 2017-11-27 | 2018-03-06 | 西安交通大学 | TCD,transcranial Doppler cerebral angiography super-resolution imaging method based on Markov chain Monte-Carlo multi-target tracking |
CN107753062B (en) * | 2017-11-27 | 2021-03-16 | 西安交通大学 | Transcranial ultrasonic cerebrovascular angiography super-resolution imaging method based on Markov chain Monte Carlo multi-target tracking |
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