CN105147398A - Multi-mode imageology system for screening and monitoring breast cancer - Google Patents
Multi-mode imageology system for screening and monitoring breast cancer Download PDFInfo
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- CN105147398A CN105147398A CN201510662586.2A CN201510662586A CN105147398A CN 105147398 A CN105147398 A CN 105147398A CN 201510662586 A CN201510662586 A CN 201510662586A CN 105147398 A CN105147398 A CN 105147398A
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Abstract
The invention relates to a multi-mode imageology system for screening and monitoring breast cancer. The system comprises an intelligent communication terminal and a multi-mode image mechanism which are connected in a wireless mode, the multi-mode image mechanism comprises a base, a central control cabinet arranged on the base, a driving mechanism and a multi-mode imaging unit, the central control cabinet is connected with the driving mechanism, and the driving mechanism is in transmission connection with the multi-mode imaging unit. According to the multi-mode imageology system for screening and monitoring breast cancer, by connecting the multi-mode image mechanism with the intelligent communication terminal in a wireless mode, workers can conduct real-time remote monitoring on the system, meanwhile, multi-mode image pickup is conducted through a tomography photography instrument, a B-mode ultrasound developing-out instrument and a magnetic resonance imager, the system monitoring and screening reliability is improved, in addition, an imaging frame is compensated through an image compensating circuit, the definition and contour sense of the frame are upgraded, and the system monitoring and screening precision is guaranteed.
Description
Technical field
The present invention relates to a kind of for examination and the multimode images system of monitoring breast carcinoma.
Background technology
In China, high-risk breast cancer crowd investigates after carrying out hereditary breast cancer and ovarian cancer gene detection, find that the participation of women to high-risk mammary gland examination of the gene test positive comparatively detects front raising, but the few can select the preventative excision of mammary gland, these high-risk group can more rely on regular examination and monitoring, therefore need accurate armarium to carry out medical security to it.But because present armarium technology is not in place, be mainly reflected in image technology single, imaging effect is poor, causes monitoring and screening efficiency lowly, very large inconvenience is brought for breast carcinoma examination.
Summary of the invention
The technical problem to be solved in the present invention is: in order to overcome the deficiency of the single and imaging effect difference of prior art image technology, provides a kind of and adopts multimode images technology and can realize the multimode images system for examination and monitoring breast carcinoma of remote real-time monitoring.
The technical solution adopted for the present invention to solve the technical problems is: a kind of for examination and the multimode images system of monitoring breast carcinoma, comprise intelligent communication terminal and the multimode images mechanism of wireless connections, described multimode images mechanism comprises base, be arranged on the middle control case on base, driving mechanism and multi-modality imaging unit, described middle control case is connected with driving mechanism, described driving mechanism and multi-modality imaging unit are in transmission connection, described driving mechanism comprises the first drive motors vertically arranged, be arranged on the steering spindle on the first drive motors top, second drive motors of the crossbeam being arranged on steering spindle top and the one end away from steering spindle being arranged on crossbeam, described first drive motors is in transmission connection by steering spindle and crossbeam, described second drive motors and multi-modality imaging unit are in transmission connection, described multi-modality imaging unit comprises horizontally disposed rotation disc and is arranged on the image-forming assembly below rotation disc, described second drive motors to be arranged on above rotation disc and to be in transmission connection with rotation disc,
Described middle control case is provided with display interface, control button and printer, central control unit is provided with in described middle control case, described central control unit comprises central control system, the image control module be connected with central control system, display control module, working power module, key control module, printing control model, motor control module and wireless communication module, described image-forming assembly is electrically connected with image control module, described display interface is electrically connected with display control module, described control button is electrically connected with key control module, described printer is electrically connected with printing control model, described first drive motors and the second drive motors are all electrically connected with motor control module,
Described image control module comprises image control circuit and image compensation circuit, and described image compensation circuit comprises image-input end, image output end, first audion, second audion, 3rd audion, first resistance, second resistance, 3rd resistance, 4th resistance, 5th resistance, 6th resistance, 7th resistance, 8th resistance, 9th resistance, tenth resistance, 11 resistance, first electric capacity, second electric capacity, 3rd electric capacity, 4th electric capacity, 5th electric capacity, 6th electric capacity, 7th electric capacity, 8th electric capacity, first adjustable resistance, second adjustable resistance, switch and battery, the outfan of described image-input end is connected with the earth terminal of image-input end by the first resistance, the earth terminal of described image-input end is connected with the negative pole of battery, described first adjustable resistance and the first resistor coupled in parallel, the adjustable end of described first adjustable resistance is connected with the base stage of the first audion by the first electric capacity, and the colelctor electrode of described first audion is by the 4th resistance, the series circuit that tenth resistance and switch form is connected with the positive pole of battery, the emitter stage of described first audion is connected with the negative pole of battery by the second electric capacity, the colelctor electrode of described first audion is connected with the base stage of the first audion with the series circuit that the second resistance forms by the 4th resistance, the emitter stage of described first audion is connected with the base stage of the first audion with the series circuit that the 3rd resistance forms by the second electric capacity, described 5th resistance and the second Capacitance parallel connection, the base stage of described second audion is connected with the colelctor electrode of the first audion, and the base stage of described second audion is by the 3rd electric capacity, second adjustable resistance, the series circuit that 4th electric capacity forms with the 6th resistance is connected with the emitter stage of the first audion, the adjustable end of described second adjustable resistance is connected with the negative pole of battery, the colelctor electrode of described second audion is connected with the colelctor electrode of the first audion with the series circuit that the 4th resistance forms by the 7th resistance, the colelctor electrode of described second audion is connected with the base stage of the 3rd audion, the emitter stage of described second audion is connected with the input of image output end by the 7th electric capacity, the described earth terminal of image output end is connected with the negative pole of battery, the emitter stage of described second audion is connected with the negative pole of battery with the series circuit that the 9th resistance forms by the 8th resistance, the emitter stage of described second audion is connected with the negative pole of battery with the series circuit that the 6th electric capacity forms by the 5th electric capacity, one end of described 8th resistance is connected with the emitter stage of the second audion, the other end of described 8th resistance is connected with the 5th electric capacity and the 6th electric capacity respectively, the colelctor electrode of described 3rd audion is connected with the positive pole of battery by switch, the emitter stage of described 3rd audion is connected with the negative pole of battery by the 11 resistance, one end of described 8th electric capacity is connected with the positive pole of battery by switch, the other end of described 8th electric capacity is connected with the negative pole of battery.
As preferably, in order to improve the printing effect of system, described printer is laser printer.
As preferably, in order to improve the imaging monitor accuracy of system, described image-forming assembly comprises X shooting tomographic instrument, Type B ultrasonic developing-out unit and magnetic resonance imager.
As preferably, in order to improve the control accuracy of system, described first drive motors and the second drive motors are servomotor.
As preferably, in order to increase the remote monitoring ability of system, described intelligent communication terminal is smart mobile phone.
The invention has the beneficial effects as follows, this multimode images system being used for examination and monitoring breast carcinoma is by multimode images mechanism and intelligent communication terminal wireless connections, achieve staff and remote real-time monitoring is realized to system, carry out multimode shooting by X shooting tomographic instrument, Type B ultrasonic developing-out unit and magnetic resonance imager simultaneously, improve monitoring and the examination reliability of system, moreover, by image compensation circuit, imaging picture is compensated, improve definition and the profile sense of picture, ensure that monitoring and the examination accuracy of system.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the present invention is further described.
Fig. 1 is of the present invention for the structural representation of examination with the multimode images system of monitoring breast carcinoma;
Fig. 2 is of the present invention for the systematic schematic diagram of examination with the multimode images system of monitoring breast carcinoma;
Fig. 3 is of the present invention for the circuit theory diagrams of examination with the image compensation circuit of the multimode images system of monitoring breast carcinoma;
In figure: 1. intelligent communication terminal, 2. base, 3. in, control case, 4. display interface, 5. control button, 6. printer, 7. the first drive motors, 8. steering spindle, 9. crossbeam, 10. the second drive motors, 11. rotation discs, 12.X shooting tomographic instrument, 13.B type ultrasonic developing-out unit, 14. magnetic resonance imagers, 15. central control systems, 16. image control module, 17. display control modules, 18. working power modules, 19. key control modules, 20. printing control models, 21. motor control modules, 22. wireless communication modules, IN. image-input end, OUT. image output end, Q1. the first audion, Q2. the second audion, Q3. the 3rd audion, R1. the first resistance, R2. the second resistance, R3. the 3rd resistance, R4. the 4th resistance, R5. the 5th resistance, R6. the 6th resistance, R7. the 7th resistance, R8. the 8th resistance, R9. the 9th resistance, R10. the tenth resistance, R11. the 11 resistance, C1. the first electric capacity, C2. the second electric capacity, C3. the 3rd electric capacity, C4. the 4th electric capacity, C5. the 5th electric capacity, C6. the 6th electric capacity, C7. the 7th electric capacity, C8. the 8th electric capacity, Rp1. the first adjustable resistance, Rp2. the second adjustable resistance, K1. switch, BT1. battery.
Detailed description of the invention
In conjunction with the accompanying drawings, the present invention is further detailed explanation.These accompanying drawings are the schematic diagram of simplification, only basic structure of the present invention are described in a schematic way, and therefore it only shows the formation relevant with the present invention.
As shown in Figure 1-Figure 3, a kind of for examination and the multimode images system of monitoring breast carcinoma, comprise intelligent communication terminal 1 and the multimode images mechanism of wireless connections, described multimode images mechanism comprises base 2, be arranged on the middle control case 3 on base 2, driving mechanism and multi-modality imaging unit, described middle control case 3 is connected with driving mechanism, described driving mechanism and multi-modality imaging unit are in transmission connection, described driving mechanism comprises the first drive motors 7 vertically arranged, be arranged on the steering spindle 8 on the first drive motors 7 top, second drive motors 10 of the crossbeam 9 being arranged on steering spindle 8 top and the one end away from steering spindle 8 being arranged on crossbeam 9, described first drive motors 7 is in transmission connection by steering spindle 8 and crossbeam 9, described second drive motors 10 is in transmission connection with multi-modality imaging unit, the image-forming assembly that described multi-modality imaging unit comprises horizontally disposed rotation disc 11 and is arranged on below rotation disc 11, described second drive motors 10 to be arranged on above rotation disc 11 and to be in transmission connection with rotation disc 11,
Second drive motors 10 is positioned at one end of crossbeam 9, and is crossbeam 9 that one end away from steering spindle 8.
Described middle control case 3 is provided with display interface 4, control button 5 and printer 6, central control unit is provided with in described middle control case 3, described central control unit comprises central control system 15, the image control module 16 be connected with central control system 15, display control module 17, working power module 18, key control module 19, printing control model 20, motor control module 21 and wireless communication module 22, described image-forming assembly is electrically connected with image control module 16, described display interface 4 is electrically connected with display control module 17, described control button 5 is electrically connected with key control module 19, described printer 6 is electrically connected with printing control model 20, described first drive motors 7 and the second drive motors 10 are all electrically connected with motor control module 21,
Described image control module 16 comprises image control circuit and image compensation circuit, described image compensation circuit comprises image-input end IN, image output end OUT, first audion Q1, second audion Q2, 3rd audion Q3, first resistance R1, second resistance R2, 3rd resistance R3, 4th resistance R4, 5th resistance R5, 6th resistance R6, 7th resistance R7, 8th resistance R8, 9th resistance R9, tenth resistance R10, 11 resistance R11, first electric capacity C1, second electric capacity C2, 3rd electric capacity C3, 4th electric capacity C4, 5th electric capacity C5, 6th electric capacity C6, 7th electric capacity C7, 8th electric capacity C8, first adjustable resistance Rp1, second adjustable resistance Rp2, K switch 1 and battery BT1, the outfan of described image-input end IN is connected with the earth terminal of image-input end IN by the first resistance R1, the earth terminal of described image-input end IN is connected with the negative pole of battery BT1, described first adjustable resistance Rp1 is in parallel with the first resistance R1, the adjustable end of described first adjustable resistance Rp1 is connected with the base stage of the first audion Q1 by the first electric capacity C1, the colelctor electrode of described first audion Q1 is by the 4th resistance R4, the series circuit that tenth resistance R10 forms with K switch 1 is connected with the positive pole of battery BT1, the emitter stage of described first audion Q1 is connected with the negative pole of battery BT1 by the second electric capacity C2, the colelctor electrode of described first audion Q1 is connected with the base stage of the first audion Q1 with the series circuit that the second resistance R2 forms by the 4th resistance R4, the emitter stage of described first audion Q1 is connected with the base stage of the first audion Q1 with the series circuit that the 3rd resistance R3 forms by the second electric capacity C2, described 5th resistance R5 is in parallel with the second electric capacity C2, the base stage of described second audion Q2 is connected with the colelctor electrode of the first audion Q1, the base stage of described second audion Q2 is by the 3rd electric capacity C3, second adjustable resistance Rp2, the series circuit that 4th electric capacity C4 and the 6th resistance R6 form is connected with the emitter stage of the first audion Q1, the adjustable end of described second adjustable resistance Rp2 is connected with the negative pole of battery BT1, the colelctor electrode of described second audion Q2 is connected with the colelctor electrode of the first audion Q1 with the series circuit that the 4th resistance R4 forms by the 7th resistance R7, the colelctor electrode of described second audion Q2 is connected with the base stage of the 3rd audion Q3, the emitter stage of described second audion Q2 is connected with the input of image output end OUT by the 7th electric capacity C7, the earth terminal of described image output end OUT is connected with the negative pole of battery BT1, the emitter stage of described second audion Q2 is connected with the negative pole of battery BT1 with the series circuit that the 9th resistance R9 forms by the 8th resistance R8, the emitter stage of described second audion Q2 is connected with the negative pole of battery BT1 with the series circuit that the 6th electric capacity C6 forms by the 5th electric capacity C5, one end of described 8th resistance R8 is connected with the emitter stage of the second audion Q2, the other end of described 8th resistance R8 is connected with the 5th electric capacity C5 and the 6th electric capacity C6 respectively, the colelctor electrode of described 3rd audion Q3 is connected with the positive pole of battery BT1 by K switch 1, the emitter stage of described 3rd audion Q3 is connected with the negative pole of battery BT1 by the 11 resistance R11, one end of described 8th electric capacity C8 is connected with the positive pole of battery BT1 by K switch 1, the other end of described 8th electric capacity C8 is connected with the negative pole of battery BT1.
As preferably, in order to improve the printing effect of system, described printer 6 is laser printer.
As preferably, in order to improve the imaging monitor accuracy of system, described image-forming assembly comprises X shooting tomographic instrument 12, Type B ultrasonic developing-out unit 13 and magnetic resonance imager 14.
As preferably, in order to improve the control accuracy of system, described first drive motors 7 and the second drive motors 10 are servomotor.
As preferably, in order to increase the remote monitoring ability of system, described intelligent communication terminal 1 is smart mobile phone.
In fact: multimode images mechanism is the equipment medical person being carried out to imaging monitor and examination; Image-forming assembly forms image documentation equipment by X shooting tomographic instrument 12, Type B ultrasonic developing-out unit 13 and magnetic resonance imager 14; The multi-faceted adjust structure that driving mechanism is made up of the first drive motors 7 and the second drive motors 10.
This operation principle being used for the multimode images system of examination and monitoring breast carcinoma is: multimode images mechanism and intelligent communication terminal 1 wireless connections, achieve staff and realize remote real-time monitoring to system; By driving mechanisms control multi-modality imaging unit can be multi-faceted therapist is monitored, the wherein angle adjustment of the first drive motors 7 by driving steering spindle 8 to control crossbeam 9, the second drive motors 10 carries out the imaging of various modes for controlling multi-modality imaging unit; Adopt different image-forming assemblies to carry out imaging by multi-modality imaging unit again, thus improve the quality of the imaging of system, improve the reliability of monitoring;
In fact: X shooting tomographic instrument 12, adopts X shooting tomography technology, significantly improve the display sensitivity of internal lesions than X-ray film.The pathological changes that common X-ray examination be can't see can be reflected; Type B ultrasonic developing-out unit 13, adopts Type B ultrasonoscopy technology, utilizes ultrasound wave by human body, run into different organs, tissue interface time, sound wave just produces reflection, reflects, and the echo received can be formed image through process.There is feature that is simple to operate, that do not have lonizing radiation, all can have higher diagnostic to the morphology of pathological changes in human body and functional change; Magnetic resonance imager 14, adopts mr imaging technique, to the contrast of organ and tissue image and sensitivity high.
This is used in the multimode images system of examination and monitoring breast carcinoma, and the display interface 4 on middle control case 3, control button 5 and printer 6, be used for showing relevant monitoring information respectively, for manipulation and the relevant monitoring of printing and examination information.Image control module 16 is for controlling the work of multi-modality imaging unit; Display control module 17 is for controlling display interface 4; Working power module 18, for ensureing the normal work of system, improves the reliability of system; Key control module 19 is for controlling button 5; Printing control model 20 is for controlling printer 6; Motor control module 21 is for controlling the work of the first drive motors 7 and the second drive motors 10; Wireless communication module 22 is provided for multimode images mechanism and intelligent communication terminal 1 wireless connections; Central control system 15, for controlling modules, improves the intelligence degree of system.
This is used for the image compensation circuit in the multimode images system of examination and monitoring breast carcinoma, this circuit is for improving image sharpness and profile sense, regulate the lightness of the first adjustable resistance Rp1 adjustable picture, regulate the definition of the second adjustable resistance Rp2 adjustable picture.
Compared with prior art, this multimode images system being used for examination and monitoring breast carcinoma is by multimode images mechanism and intelligent communication terminal 1 wireless connections, achieve staff and remote real-time monitoring is realized to system, carry out multimode shooting by X shooting tomographic instrument 12, Type B ultrasonic developing-out unit 13 and magnetic resonance imager 14 simultaneously, improve monitoring and the examination reliability of system, moreover, by image compensation circuit, imaging picture is compensated, improve definition and the profile sense of picture, ensure that monitoring and the examination accuracy of system.
With above-mentioned according to desirable embodiment of the present invention for enlightenment, by above-mentioned description, relevant staff in the scope not departing from this invention technological thought, can carry out various change and amendment completely.The technical scope of this invention is not limited to the content in description, must determine its technical scope according to right.
Claims (5)
1. one kind for examination and monitoring breast carcinoma multimode images system, it is characterized in that, comprise intelligent communication terminal (1) and the multimode images mechanism of wireless connections, described multimode images mechanism comprises base (2), be arranged on the middle control case (3) on base (2), driving mechanism and multi-modality imaging unit, described middle control case (3) is connected with driving mechanism, described driving mechanism and multi-modality imaging unit are in transmission connection, described driving mechanism comprises the first drive motors (7) vertically arranged, be arranged on the steering spindle (8) on the first drive motors (7) top, second drive motors (10) of the crossbeam (9) being arranged on steering spindle (8) top and the one end away from steering spindle (8) being arranged on crossbeam (9), described first drive motors (7) is in transmission connection by steering spindle (8) and crossbeam (9), described second drive motors (10) and multi-modality imaging unit are in transmission connection, described multi-modality imaging unit comprises horizontally disposed rotation disc (11) and is arranged on the image-forming assembly of rotation disc (11) below, described second drive motors (10) is arranged on rotation disc (11) top and is in transmission connection with rotation disc (11),
Described middle control case (3) is provided with display interface (4), control button (5) and printer (6), central control unit is provided with in described middle control case (3), described central control unit comprises central control system (15), the image control module (16) be connected with central control system (15), display control module (17), working power module (18), key control module (19), printing control model (20), motor control module (21) and wireless communication module (22), described image-forming assembly is electrically connected with image control module (16), described display interface (4) is electrically connected with display control module (17), described control button (5) is electrically connected with key control module (19), described printer (6) is electrically connected with printing control model (20), described first drive motors (7) and the second drive motors (10) are all electrically connected with motor control module (21),
Described image control module (16) comprises image control circuit and image compensation circuit, described image compensation circuit comprises image-input end (IN), image output end (OUT), first audion (Q1), second audion (Q2), 3rd audion (Q3), first resistance (R1), second resistance (R2), 3rd resistance (R3), 4th resistance (R4), 5th resistance (R5), 6th resistance (R6), 7th resistance (R7), 8th resistance (R8), 9th resistance (R9), tenth resistance (R10), 11 resistance (R11), first electric capacity (C1), second electric capacity (C2), 3rd electric capacity (C3), 4th electric capacity (C4), 5th electric capacity (C5), 6th electric capacity (C6), 7th electric capacity (C7), 8th electric capacity (C8), first adjustable resistance (Rp1), second adjustable resistance (Rp2), switch (K1) and battery (BT1), the outfan of described image-input end (IN) is connected with the earth terminal of image-input end (IN) by the first resistance (R1), the earth terminal of described image-input end (IN) is connected with the negative pole of battery (BT1), described first adjustable resistance (Rp1) is in parallel with the first resistance (R1), the adjustable end of described first adjustable resistance (Rp1) is connected with the base stage of the first audion (Q1) by the first electric capacity (C1), the colelctor electrode of described first audion (Q1) is by the 4th resistance (R4), the series circuit that tenth resistance (R10) and switch (K1) form is connected with the positive pole of battery (BT1), the emitter stage of described first audion (Q1) is connected with the negative pole of battery (BT1) by the second electric capacity (C2), the colelctor electrode of described first audion (Q1) is connected with the base stage of the first audion (Q1) with the series circuit that the second resistance (R2) forms by the 4th resistance (R4), the emitter stage of described first audion (Q1) is connected with the base stage of the first audion (Q1) with the series circuit that the 3rd resistance (R3) forms by the second electric capacity (C2), described 5th resistance (R5) is in parallel with the second electric capacity (C2), the base stage of described second audion (Q2) is connected with the colelctor electrode of the first audion (Q1), the base stage of described second audion (Q2) is by the 3rd electric capacity (C3), second adjustable resistance (Rp2), the series circuit that 4th electric capacity (C4) forms with the 6th resistance (R6) is connected with the emitter stage of the first audion (Q1), the adjustable end of described second adjustable resistance (Rp2) is connected with the negative pole of battery (BT1), the colelctor electrode of described second audion (Q2) is connected with the colelctor electrode of the first audion (Q1) with the series circuit that the 4th resistance (R4) forms by the 7th resistance (R7), the colelctor electrode of described second audion (Q2) is connected with the base stage of the 3rd audion (Q3), the emitter stage of described second audion (Q2) is connected with the input of image output end (OUT) by the 7th electric capacity (C7), the earth terminal of described image output end (OUT) is connected with the negative pole of battery (BT1), the emitter stage of described second audion (Q2) is connected with the negative pole of battery (BT1) with the series circuit that the 9th resistance (R9) forms by the 8th resistance (R8), the emitter stage of described second audion (Q2) is connected with the negative pole of battery (BT1) with the series circuit that the 6th electric capacity (C6) forms by the 5th electric capacity (C5), one end of described 8th resistance (R8) is connected with the emitter stage of the second audion (Q2), the other end of described 8th resistance (R8) is connected with the 5th electric capacity (C5) and the 6th electric capacity (C6) respectively, the colelctor electrode of described 3rd audion (Q3) is connected with the positive pole of battery (BT1) by switch (K1), the emitter stage of described 3rd audion (Q3) is connected with the negative pole of battery (BT1) by the 11 resistance (R11), one end of described 8th electric capacity (C8) is connected with the positive pole of battery (BT1) by switch (K1), the other end of described 8th electric capacity (C8) is connected with the negative pole of battery (BT1).
2., as claimed in claim 1 for examination and the multimode images system of monitoring breast carcinoma, it is characterized in that, described printer (6) is laser printer.
3. as claimed in claim 1 for examination and the multimode images system of monitoring breast carcinoma, it is characterized in that, described image-forming assembly comprises X shooting tomographic instrument (12), Type B ultrasonic developing-out unit (13) and magnetic resonance imager (14).
4., as claimed in claim 1 for examination and the multimode images system of monitoring breast carcinoma, it is characterized in that, described first drive motors (7) and the second drive motors (10) are servomotor.
5., as claimed in claim 1 for examination and the multimode images system of monitoring breast carcinoma, it is characterized in that, described intelligent communication terminal (1) is smart mobile phone.
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| CN201510662586.2A CN105147398A (en) | 2015-09-30 | 2015-09-30 | Multi-mode imageology system for screening and monitoring breast cancer |
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| CN201510662586.2A CN105147398A (en) | 2015-09-30 | 2015-09-30 | Multi-mode imageology system for screening and monitoring breast cancer |
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Application publication date: 20151216 |