[논문]Development of an Accurate Resonant Frequency Controlled Wire Ultrasound Surgical Instrument

Kim, Jungsuk; Kim, Kyeongjin; Choe, Sun-Ho; Choi, Hojong

doi:10.3390/s20113059

[해외논문] Development of an Accurate Resonant Frequency Controlled Wire Ultrasound Surgical Instrument 원문보기

Sensors, v.20 no.11, 2020년, pp.3059 -

Kim, Jungsuk (Department of Biomedical Engineering, Gachon University, 534-2, Hambakmoe-ro, Incheon 21936, Korea) , Kim, Kyeongjin (jungsuk@bme.gachon.ac.kr) , Choe, Sun-Ho (Department of Medical IT Convergence Engineering, Kumoh National Institute of Technology, 350-27 Gumi-daero, Gumi 39253, Korea) , Choi, Hojong (20196092@kumoh.ac.kr)

Abstract ▼ AI-Helper

Our developed wire ultrasound surgical instrument comprises a bolt-clamped Langevin ultrasonic transducer (BLUT) fabricated by PMN-PZT single crystal material due to high mechanical quality factor and electromechanical coupling coefficient, a waveguide in the handheld instrument, and a generator instrument. To ensure high performance of wire ultrasound surgical instruments, the BLUT should vibrate at an accurate frequency because the BLUT’s frequency influences hemostasis and the effects of incisions on blood vessels and tissues. Therefore, we implemented a BLUT with a waveguide in the handheld instrument using a developed assembly jig process with impedance and network analyzers that can accurately control the compression force using a digital torque wrench. A generator instrument having a main control circuit with a low error rate, that is, an output frequency error rate within ±0.5% and an output voltage error rate within ±1.6%, was developed to generate the accurate frequency of the BLUT in the handheld instrument. In addition, a matching circuit between the BLUT and generator instrument with a network analyzer was developed to transfer displacement vibration efficiently from the handheld instrument to the end of the waveguide. Using the matching circuit, the measured S-parameter value of the generator instrument using a network analyzer was −24.3 dB at the resonant frequency. Thus, our proposed scheme can improve the vibration amplitude and accuracy of frequency control of the wire ultrasound surgical instrument due to developed PMN-PZT material and assembly jig process.

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참고문헌 (50)

1. Shung K.K. Diagnostic Ultrasound: Imaging and Blood Flow Measurements Taylor & Francis Boca Raton, FL, USA 2015
2. Choi H. Choe S.-W. Acoustic Stimulation by Shunt-Diode Pre-Linearizer Using Very High Frequency Piezoelectric Transducer for Cancer Therapeutics Sensors 2019 19 357 10.3390/s19020357 30654599

상세보기
3. Nakamura K. Ultrasonic Transducers: Materials and Design for Sensors, Actuators and Medical Applications Elsevier Amsterdam, The Netherlands 2012
4. Shin S.-H. Yoo W.-S. Choi H. Development of Public Key Cryptographic Algorithm Using Matrix Pattern for Tele-Ultrasound Applications Mathematics 2019 7 752 10.3390/math7080752

상세보기
5. You K. Kim S.-H. Choi H. A Class-J Power Amplifier Implementation for Ultrasound Device Applications Sensors 2020 20 2273 10.3390/s20082273

상세보기
6. Hoskins P.R. Martin K. Thrush A. Diagnostic Ultrasound: Physics and Equipment Cambridge University Press Cambridge, UK 2019
7. Daniels J.M. Hoppmann R.A. Practical Point-of-care Medical Ultrasound Springer New York, NJ, USA 2016
8. Saijo Y. Van der Steen A.F.W. Vascular Ultrasound Springer Science & Business Media Berlin, Germany 2003
9. Machi J. Staren E.D. Ultrasound for Surgeons Lippincott Williams & Wilkins Philadelpia, PA, USA 2005
10. Jacobson J.A. Fundamentals of Musculoskeletal Ultrasound Elsevier Health Sciences Amsterdam, The Netherlands 2017
11. Szabo T.L. Diagnostic Ultrasound Imaging: Inside Out Elsevier Academic Press London, UK 2013
12. Miele F.R. Ultrasound Physics & Instrumentation Pegasus Lectures, Inc. Forney, TX, USA 2013
13. Iniewski K. Medical Imaging Wiley Online Library Hoboken, NJ, USA 2009
14. Brunner E. How ultrasound system considerations influence front-end component choice Analog Dialogue 2002 36 1 4
15. Choe S.-W. Choi H. Suppression Technique of HeLa Cell Proliferation Using Ultrasonic Power Amplifiers Integrated with a Series-Diode Linearizer Sensors 2018 18 4248 10.3390/s18124248 30513959

상세보기
16. Zhou Q. Lam K.H. Zheng H. Qiu W. Shung K.K. Piezoelectric single crystal ultrasonic transducers for biomedical applications Prog. Mater Sci. 2014 66 87 111 10.1016/j.pmatsci.2014.06.001 25386032

상세보기
17. Zhou Q. Lau S. Wu D. Shung K.K. Piezoelectric films for high frequency ultrasonic transducers in biomedical applications Prog. Mater Sci. 2011 56 139 174 10.1016/j.pmatsci.2010.09.001 21720451

상세보기
18. Choi H. Park C. Kim J. Jung H. Bias-Voltage Stabilizer for HVHF Amplifiers in VHF Pulse-Echo Measurement Systems Sensors 2017 17 2425 10.3390/s17102425

상세보기
19. Shung K.K. Smith M. Tsui B.M. Principles of Medical Imaging Academic Press Cambridge, MA, USA 2012
20. Postema M. Fundamentals of Medical Ultrasound Taylor and Francis New York, NJ, USA 2011
21. Weibao Q. Yanyan Y. Fu Keung T. Lei S. A multifunctional, reconfigurable pulse generator for high-frequency ultrasound imaging IEEE Trans. Ultrason. Ferroelectr. Freq. Control 2012 59 1558 1567 10.1109/TUFFC.2012.2355 22828850

상세보기
22. Choi H. Li X. Lau S.-T. Hu C. Zhou Q. Shung K.K. Development of Integrated Preamplifier for High-Frequency Ultrasonic Transducers and Low-Power Handheld Receiver IEEE Trans. Ultrason. Ferroelectr. Freq. Control 2011 58 2646 2658 10.1109/TUFFC.2011.2127 23443700

상세보기
23. Hill C.R. Bamber J.C. Haar G.t. Physical Principles of Medical Ultrasonics Wiley Online Library Hoboken, NJ, USA 2004
24. Hengrasmee P. Ito T. Lam A. Hemostatic agents in laparoscopic surgery Practical Manual of Minimally Invasive Gynecologic and Robotic Surgery CRC Press Boca Raton, FL, USA 2018
25. Halls M. Martinez-Cecilia D. Barbaro S. Hilal M.A. Laparoscopic Techniques in Major Liver Resections Minimally Invasive Surgery for Upper Abdominal Cancer Springer Berlin, Germany 2017
26. Rogula T.G. Fouse T. Schauer P.R. Prevention and Management of Complications in Bariatric Surgery Oxford University Press Oxford, UK 2018
27. Shrestha B.L. Karmacharya S. Rajbhandari P. Thunderbeat versus bipolar diathermy in surgical outcome of tonsillectomy Int. J. Sci. Rep. 2018 4 31 35 10.18203/issn.2454-2156.IntJSciRep20180395
28. Williams A.D. Gefen J. Mann B.D. Surgery Morning Report: Beyond the Pearls Elsevier Health Sciences Amsterdam, The Netherlands 2019
29. He L.-X. Li C.-E. Effects of addition of MnO on piezoelectric properties of lead zirconate titanate J. Mater. Sci. 2000 35 2477 2480 10.1023/A:1004717702149

상세보기
30. Oh H.-T. Lee J.-Y. Lee H.-Y. Mn-modified PMN-PZT [Pb (Mg1/3Nb2/3) O3-Pb (Zr, Ti) O3] single crystals for high power piezoelectric transducers J. Korean Ceram. Soc. 2017 54 150 157 10.4191/kcers.2017.54.2.03

원문보기 상세보기
31. Bizon N. Tabatabaei N.M. Blaabjerg F. Kurt E. Energy Harvesting and Energy Efficiency Springer Berlin, Germany 2017
32. Yan Y. Cho K.H. Priya S. Role of secondary phase in high power piezoelectric PMN-PZT ceramics J. Am. Ceram. Soc. 2011 94 4138 4141 10.1111/j.1551-2916.2011.04891.x

상세보기
33. Zhang S. Lee S.-M. Kim D.-H. Lee H.-Y. Shrout T.R. Characterization of Mn-modified Pb(Mg1/3Nb2/3)O3？PbZrO3？PbTiO3 single crystals for high power broad bandwidth transducers Appl. Phys. Lett. 2008 93 122908 10.1063/1.2992081 19529783

상세보기
34. Choi H. Yeom J.-Y. Ryu J.-M. Development of a Multiwavelength Visible-Range-Supported Opto？Ultrasound Instrument Using a Light-Emitting Diode and Ultrasound Transducer Sensors 2018 18 3324 10.3390/s18103324

상세보기
35. Jeong J.J. Choi H. An impedance measurement system for piezoelectric array element transducers Measurement 2017 97 138 144 10.1016/j.measurement.2016.10.053

상세보기
36. Wang K. The use of titanium for medical applications in the USA Mater. Sci. Eng. A 1996 213 134 137 10.1016/0921-5093(96)10243-4

상세보기
37. Lupascu D.C. Fatigue in Ferroelectric Ceramics and Related Issues Springer Science & Business Media Berlin, Germany 2013
38. Stefanescu D.M. Handbook of Force Transducers: Principles and Components Springer Science & Business Media Berlin, Germany 2011
39. Brown B.H. Smallwood R.H. Barber D.C. Lawford P. Hose D. Medical Physics and Biomedical Engineering Taylor & Francis Oxfordshire, UK 2017
40. Beland S. High Performance Thermoplastic Resins and Their Composites William Andrew Norwich, NY, USA 1990
41. You K. Choi H. Wide Bandwidth Class-S Power Amplifiers for Ultrasonic Devices Sensors 2020 20 290 10.3390/s20010290

상세보기
42. Choi H. Development of negative-group-delay circuit for high-frequency ultrasonic transducer applications Sens. Actuators A 2019 299 111616 10.1016/j.sna.2019.111616

상세보기
43. Razavi B. Design of Analog CMOS Integrated Circuits McGraw-Hill Science New York, NJ, USA 2016
44. Lee T.H. The Design of CMOS Radio-Frequency Integrated Circuits Cambridge University Press Cambridge, UK 2006
45. Choi H. Choe S.-W. Therapeutic Effect Enhancement by Dual-bias High-voltage Circuit of Transmit Amplifier for Immersion Ultrasound Transducer Applications Sensors 2018 18 4210 10.3390/s18124210 30513693

상세보기
46. Grebennikov A. RF and Microwave Power Amplifier Design McGraw-Hill New York, NJ, USA 2005
47. Choi H. Class-C Linearized Amplifier for Portable Ultrasound Instruments Sensors 2019 19 898 10.3390/s19040898 30795525

상세보기
48. Albulet M. RF Power Amplifiers SciTech Publishing London, UK 2001
49. Cripps S.C. Advanced Techniques in RF Power Amplifier Design Artech House Norwood, MA, USA 2002
50. Vuolevi J. Rahkonen T. Distortion in RF Power Amplifiers Artech House London, UK 2003

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