박기주 (Ki Joo Pahk) 선임연구원

전화번호

02-958-5697

이메일

kjpahk@kist.re.kr

위치

L3312호

U U

주요연구분야

-치료초음파 (Therapeutic Ultrasound)

-고강도집속초음파 (High Intensity Focused Ultrasound, HIFU)

-초음파 연조직 제거 기술 (e.g., Boiling histotripsy)

-음향공동 현상 (Acoustic cavitation)

-초음파 장애극복 기술 (Ultrasound for rehabilitation)

See more information at: https://sites.google.com/view/biomedical-ultrasonics/home

PhD, Department of Mechanical Engineering, University College London (UCL), UK (2016)

MSc(Distinction), Department of Mechanical Engineering, University College London (UCL), UK (2012)

BEng(Honours), Department of Mechanical Engineering, University College London (UCL), UK (2011)

– KIST 선임연구원 (2019 ~)

– KIST 병역특례 전문연구요원 (2016 ~ 2019)

– Reviewers of Ultrasonics Sonochemistry, Physics in Medicine & Biology, Journal of the Korean Physical Society (2019~)

– Local Organising Committee Member of the 20th International Symposium for Therapeutic Ultrasound (ISTU2020) (2019~)

– Teaching Assistant, Department of Mechanical Engineering, University College London (2012 ~ 2016)

-치료초음파 (Therapeutic Ultrasound)

-고강도집속초음파 (High Intensity Focused Ultrasound, HIFU)

-초음파 연조직 제거 기술 (e.g., Boiling histotripsy)

-음향공동 현상 (Acoustic cavitation)

-초음파 장애극복 기술 (Ultrasound for rehabilitation)

Peer-reviewed publications:

  • Pahk KJ, de Andrade M, Gélat P, Kim HM, Saffari N (2019). “Mechanical damage induced by the appearance of rectified bubble growth in a viscoelastic medium during boiling histotripsy exposure”, Ultrasonics Sonochemistry. 53. 164-177
  • Pahk KJ, Shin CH, Bae IY, Yang YS, Kim SH, Pahk K, Kim HM#, Oh SJ# (2019). “Boiling histotripsy-induced partial mechanical ablation modulates tumour microenvironment by promoting immunogenic cell death of cancers.” Scientific Reports. 9(1). 9050
  • Pahk KJ, de Andrade M, Kim HM, Saffari N (2019). “The effects of the size of a boiling bubble on lesion production in boiling histotripsy”, J. Phys.: Conf. Ser. 1184(012007). 1-9
  • Park TY, Pahk KJ, Kim HM (2019). “Method to optimize the placement of a single-element transducer for transcranial focused ultrasound”, Computer Methods and Programs in Biomedicine. 179. 104982
  • Joe H, Pahk KJ, Park S, Kim H (2019). “Development of a subject-specific guide system for low-intensity focused ultrasound (LIFU) brain stimulation.” Computer Methods and Programs in Biomedicine. 176. 105-110    
  • de Andrade MO, Haqshenas S, Pahk KJ, Saffari N (2019). “The effects of ultrasound pressure and temperature fields in millisecond bubble nucleation”, Ultrasonics Sonochemistry. 55. 262-272
  • Pahk KJ, Gélat P, Kim HM, Saffari N (2018). “Bubble dynamics in boiling histotripsy”. Ultrasound in Medicine and Biology. 44 (12) 2673-2696
  • Baek HC, Pahk KJ, Kim MJ, Youn I, Kim H (2018). “Modulation of cerebellar cortical plasticity using low-intensity focused ultrasound for post-stroke sensorimotor function recovery”, Neurorehabilitation and Neural Repair. 32(9). 777-787
  • Park TY*, Pahk KJ*, Kim HM (2018). “A novel numerical approach to stimulation of a specific brain region using transcranial focused ultrasound”. Annual International Conference of the IEEE Engineering in Medicine and Biology Society, 8513331, 3697-3700. (*equal contribution)
  • Pahk KJ, Gélat P, Sinden D, Dhar DK, Saffari N (2017). “Numerical and experimental study of mechanisms involved in boiling histotripsy”. Ultrasound in Medicine and Biology. 43(12). 2848-2861
  • Baek H*, Pahk KJ*, Kim H (2017). “A review of low-intensity focused ultrasound for neuromodulation”. Biomed. Eng. Lett. 7, 2, 135-142. (*equal contribution)
  • Pahk KJ, Mohammad GH, Malago M, Saffari N, Dhar DK (2016). “A novel approach to ultrasound-mediated tissue decellularization and intra-hepatic cell delivery in rats”. Ultrasound in Medicine and Biology. 42(8).1958-1967
  • Pahk KJ, Dhar DK, Malago M, Saffari N (2015). “Ultrasonic Histotripsy for Tissue Therapy”. J. Phys.: Conf. Ser. 581(1).012001-012020

 

Patents:

  • Pahk KJ, Kim HM, Lee BC, Youn I. High-low intensity focused ultrasound treatment apparatus. 2019. United States. #16/431543
  • Lee BC, Kim HM, Pahk KJ. Non-invasive treatment system using intermedium. 2019. United States. #16/276396
  • Pahk KJ, Kim HM, Lee BC, Youn I. High-low intensity focused ultrasound treatment apparatus. 2018. Republic of Korea. #2018-0064719
  • Pahk KJ, Kim HM, Park T, Youn I, Kim SJ. Method for deciding location of ultrasonic transducer. 2018. Republic of Korea. #2018-0029604
  • Kim HM, Joe HY, Pahk KJ, Youn I, Kim SJ. Image registration system and method using subject-specific tracker. 2018. United States. #16/045245
  • Kim HM, Pahk KJ, Lee BC, Youn I. Method for 3D printing and 3D printer using ultrasound. 2018. Republic of Korea. #2018-0098334
  • Kim HM, Pahk KJ, Youn I, Kim SJ, Hwang Y. Focused ultrasound stimulation apparatus using user customized acoustic lens. 2018. United States. #15/868629
  • Kim HM, Joe HY, Pahk KJ, Youn I, Kim SJ. Image registration system and method using subject-specific tracker. 2018. Republic of Korea. #10-1923927 (registered)
  • Lee BC, Kim HM, Pahk KJ. Non-invasive treatment system using intermedium. 2018. Republic of Korea. #2018-0124429
  • Pahk KJ, Kim HM, Youn I, Kim SJ. Apparatus for generating acoustic cavitation. 2017. Republic of Korea. #2017-0111700
  • Kim HM, Pahk KJ, Youn I, Kim SJ. Focused Ultrasound Stimulation Apparatus using User Customized Acoustic Lens. 2017. Republic of Korea. #2017-0092005

 

Technology Transfers:

  • Medical image based focused ultrasound guide system, transferred to Neurosona on 26 Dec 2018