ÇѸ²´ëÇб³¼º½Éº´¿ø

¼Û½Ã¿µ ±³¼ö

031-8086-2410~2413 superdrsys@hotmail.com
  • Àü¹®¼¾ÅÍ ±Ù°ñ°Ý¼¾ÅÍ
  • Áø·á°ú Á¤Çü¿Ü°ú

Àü¹®Áø·áºÐ¾ß

¹«¸­ °üÀý¿°, ¹«¸­Àΰø°üÀý ¹× Àΰø°üÀý Àç¼ö¼ú, Àý°ñ¼ú, ¹«¸­°üÀý³»½Ã°æ (½ÊÀÚ ÀÎ´ë ¼Õ»ó, ¹Ý¿ù ¿¬°ñÆÇ ¹× ¿¬°ñ ¼Õ»ó, ¿øÆÇÇü ¿¬°ñÆÇ, ½½°³°ñ Å»±¸, ½ºÆ÷Ã÷ ¼Õ»ó)

ÀüÈ­ ¿¹¾à 1522-2500
±³¼ö´Ô»çÁø

(ÁÖ°£) Áø·á½Ã°£Ç¥ (2024-12-23 ~ 2024-12-28)

Áø·á½Ã°£Ç¥
Áø·á½Ã°£ ¿ù È­ ¼ö ¸ñ ±Ý Åä
¿ÀÀü
¿ÀÈÄ ¼¾ÅÍÁø·á¼¾ÅÍÁø·á
±³¼ö´Ô »çÁø

±âº»Á¤º¸

ÇзÂ

ÇзÂ

1999ÇѸ²´ëÇб³ ÀÇ°ú´ëÇÐ Á¹¾÷

ÇѸ²´ëÇб³ ÀϹݴëÇпø ÀÇÇаú ¼®»ç

ÇѸ²´ëÇб³ ÀϹݴëÇпø ÀÇÇаú ¹Ú»ç

2017Stanford University Hospital Àΰø°üÀý¼¾ÅÍ ¿¬¼ö

2018½ÃÄ«°í Rush University Medical Center Àΰø°üÀý¼¾ÅÍ ¿¬¼ö

°æ·Â

°æ·Â

1999 ~ 2004ÇѸ²´ëÇб³ÀÇ·á¿ø Àü°øÀÇ ¼ö·á

~ 2007±¹±ººÎ»êÅëÇÕº´¿ø Á¤Çü¿Ü°ú °úÀå

ÇѸ²´ë¼º½Éº´¿ø Á¤Çü¿Ü°ú ÀÓ»ó°­»ç

~ 2012ÇѸ²´ëÇб³ÇÑ°­¼º½Éº´¿ø Á¤Çü¿Ü°ú ÀÓ»óÁ¶±³¼ö

~ 2018ÇѸ²´ëÇб³µ¿Åº¼º½Éº´¿ø Á¤Çü¿Ü°ú ºÎ±³¼ö

2019 ~ úÞÇѸ²´ëÇб³µ¿Åº¼º½Éº´¿ø Á¤Çü¿Ü°ú ±³¼ö

2016 ~ 2017Stanford University Hospital Àΰø°üÀý ¼¾ÅÍ ¿¬¼ö

~ 2018.11½ÃÄ«°í Rush University Medical Center Àΰø°üÀý ¼¾ÅÍ ¿¬¼ö

ÇÐȸȰµ¿

ÇÐȸȰµ¿

´ëÇÑ ½½°üÀý ÇÐȸ ÆíÁýÀ§¿ø

´ëÇÑ °üÀý°æ ÇÐȸ ÆíÁýÀ§¿ø

´ëÇÑ Á¤Çü¿Ü°ú ¿¬±¸ÇÐȸ ÇмúÀ§¿ø

¹Ì±¹ Á¤Çü¿Ü°ú ÇÐȸ (AAOS) ȸ¿ø

¹Ì±¹ Á¤Çü¿Ü°ú ¿¬±¸ÇÐȸ (ORS) ȸ¿ø

Arthroscopy (±¹Á¦ÇмúÁö, SCI) ³í¹®½É»çÀ§¿ø

The Knee (±¹Á¦ÇмúÁö, SCIE) ³í¹®½É»çÀ§¿ø

Knee Surgery Related Tesearch (±¹Á¦ÇмúÁö, SCOPUS) ³í¹®½É»çÀ§¿ø

´ëÇÑ Á¤Çü¿Ü°úÇÐȸÁö ³í¹®½É»çÀ§¿ø

°Ç°­º¸Çè½É»çÆò°¡¿ø ½É»çÀ§¿ø

±Ù·Îº¹Áö°ø´Ü ÀÚ¹®À§¿ø

¼­¿ïÁö¹æº´¹«Ã» ÀÚ¹®À§¿ø

¼ö»óÀÌ·Â

¼ö»óÀÌ·Â

Á¦55Â÷ ´ëÇÑ Á¤Çü¿Ü°ú ÇÐȸ Çмú»ó (ÀÓ»ó)

Á¦56Â÷ ´ëÇÑ Á¤Çü¿Ü°ú ÇÐȸ Çмú»ó (±âÃÊ)

Á¦57Â÷ ´ëÇÑ Á¤Çü¿Ü°ú ÇÐȸ SICOT Çмú º»»ó (ÃÖ¿ì¼ö»ó) - ´ëÅð½½°³Àδë Àç°Ç¼ú ½Ã ÀÌ»óÀûÀÎ °íÁ¤ºÎÀ§¿¡ °üÇÑ ¿¬±¸

Á¦ 9 ȸ ±¹Á¦ °üÀý°æ, ½½°üÀý ¼ö¼ú ¹× ½ºÆ÷Ã÷ÀÇÇÐ Çмú´ëȸ (9TH biennial ISAKOS (International Society of Arthroscopy, Knee Surgery and Orthopaedic Sports Medicine, 2013, ij³ª´Ù, Åä·ÐÅä) : ´ëÅð ½½°³ °üÀý ºÎºÐ 3´ë ÃÖ¿ì¼ö ±¸¿¬ ³í¹® äÅà - »ïÂ÷¿ø ¸ðµ¨À» ÀÌ¿ëÇÑ ´ëÅð½½°³ÀδëÀÇ ±æÀÌ º¯È­ ¿¬±¸

Marquis Who's Who µîÀç(2014, 2015)

IBC (International Biographical Centre, Cambridge, England) 2014 ¼¼°è 100´ë ÀÇÇÐÀÚ (Top 100 health Professionals 2014) ¼±Á¤

21¼¼±â ¶Ù¾î³­ Áö½ÄÀÎ 2000ÀÎ (2000 Outstanding intellectuals of the 21st Century) ¼±Á¤

2019 - 2021 Áß°ß ¿¬±¸ÀÚ Áö¿ø»ç¾÷ (Çѱ¹¿¬±¸Àç´Ü): ¿¬±¸Ã¥ÀÓÀÚ / ¼¼Æ÷¿Ü±âÁú ¸ð»ç¼ÒÀ縦 ÀÌ¿ëÇÑ °ñ¼ºÀå ÃËÁø scaffold °³¹ß

2022 Àçµµ¾à ¿¬±¸ (Çѱ¹¿¬±¸Àç´Ü): ¿¬±¸Ã¥ÀÓÀÚ / ¹«¸­ Àΰø°üÀý ġȯ¼úÀÇ ÇÕº´ÁõÀ» ÁÙÀ̱â À§ÇÑ ¹«¸­°üÀý °ñ´Ù°øÁõ ºÐ¼® ±âÁØ ±¸Ãà -ÀÎü ¹«¸­ °ñ¹Ðµµ ¿¬±¸

³í¹®

±¹Á¦ ³í¹® (SCI, SCIE)


1. Implant removal after medial opening wedge high tibial osteotomy provides implant-related pain relief and functional improvement. Arthroscopy. 2024 (±³½ÅÀúÀÚ)

2. Bioessential Inorganic Molecular Wire-Reinforced 3D-Printed Hydrogel Scaffold for Enhanced Bone Regeneration. Adv Healthc Mater. 2023, 15. (±³½ÅÀúÀÚ)

3. Effects of modified trans-tibial versus trans-portal technique on stress patterns around the femoral tunnel in anatomical single-bundle ACL reconstruction with different knee flexion angles using finite element analysis. BMC Musculoskelet Disord. 2022 Aug 8;23(1):759.

4. Tunable mechanical properties of Mo3Se3-polyvinylalcohol-based/silk fibroin-based nanowire ensuretheregenerationmechanismintenocytesderivedfromhumanbonemarrowstemcells.IntJBiolMacromol.2022Jun15;210:196-207.

5. Bone healing on serial plain radiographs occurs slowly but adequately after medial opening wedge high tibial osteotomy without bone graft. Knee Surg Sports Traumatol Arthrosc. 2022 Mar;30(3):993-1000. (±³½ÅÀúÀÚ)

6. Effects of flexible reamer on the femoral tunnel characteristics in anterior cruciate ligament reconstruction. Medicine (Baltimore). 2021 Nov 12;100(45):e27833.

7. Analysis of early failure rate and its risk factor with 2157 total ankle replacements. Sci Rep. 2021 Jan 21;11(1):1901.

8. Bio-essential Inorganic Molecular Nanowires as a Bioactive Muscle Extracellular-Matrix-Mimicking Material. ACS Appl Mater Interfaces. 2021 Aug 25;13(33):39135-39141. (±³½ÅÀúÀÚ)

9. Aqueous dispersion of 1D van der Waals Mo6S3I6 crystal using biocompatible tri-block copolymer, Ceramics International 2021 May 1; 47(9):11935-11941.

10. Lesion size may predict return to play in young elite athletes undergoing microfracture for osteochondral lesions of the talus. Arthroscopy. 2021 May;37(5):1612-1619. (Á¦1ÀúÀÚ)

11. Risk of a complete exchange or failure in total knee arthroplasty and unicompartmental knee arthroplasty: a nationwide population-based cohort study from South Korea. Arch Orthop Trauma Surg. 2021 Mar;141(3):477-488. (Á¦1ÀúÀÚ)

12. A study on the bio-applicability of aqueous-dispersed van der Waals 1-D material Nb2Se9 usingpoloxamer.SciRep.2021Jan8;11(1):176.

13. Initial conservative treatment of osteochondral fracture of the patella following first-time patellar dislocation. BMC Musculoskelet Disord. 2020 Sep 17;21(1):617. (Á¦1ÀúÀÚ)

14. Graft bending angle of the reconstructed posterior cruciate ligament gradually decreases as knee flexion increases. Knee Surg Sports Traumatol Arthrosc. 2020 Aug;28(8):2626-2633.

15. Aqueous Dispersion of One-Dimensional van der Waals Material Mo6S3I6 with the ChargeTypeoftheHydrophobicDispersantTail.ACSApplBioMater.2020Jul20;3(7):3992-3998.(±³½ÅÀúÀÚ)

16. The Epidemiology and Trends of Primary Total Ankle Arthroplasty and Revision Procedure in Korea between 2007 and 2017. J Korean Med Sci. 2020 Jun 8;35(22):e169

17. Repair versus nonrepair of medial meniscus posterior root tear: A systematic review of patients' selection criteria, including clinical and radiographic outcomes. Medicine (Baltimore). 2020 Mar;99(10):e19499.

18. Collagenous Ultrastructure of the Torn Medial Meniscus Posterior Root: A Transmission Electron Microscopy Study. Am J Sports Med. 2019 Nov;47(13):3221-3228. (±³½ÅÀúÀÚ)

19. Distal Femoral Medial Opening Wedge Osteotomy for Post-Traumatic, Distal Femoral Varus Deformity. Knee Surg Relat Res. 2019 Mar 1;31(1):61-66.

20. 1. Surgery Before Subspecialty Referral for Periprosthetic Knee Infection Reduces the Likelihood of Infection Control. Clin Orthop Relat Res. 2018 Oct;476(10):1995-2002. (Á¦1ÀúÀÚ)

21. Collagenous Ultrastructure of the Discoid Meniscus: A Transmission Electron Microscopy Study. Am J Sports Med. 2017 Mar;45(3):598-603. (±³½ÅÀúÀÚ)

22. A Comparison between Clinical Results of Selective Bundle and Double Bundle Anterior Cruciate Ligament Reconstruction. Yonsei Med J. 2016 Sep;57(5):1199-208.

23. Length change behavior of virtual medial patellofemoral ligament fibers during in vivo knee flexion. Am J Sports Med. 2015 May;43(5):1165-71. (Á¦1ÀúÀÚ)

24.Anatomic medial patellofemoral ligament reconstruction using patellar suture anchor fixation for recurrent patellar instability. Knee Surg Sports Traumatol Arthrosc. 2014 Oct;22(10):2431-7. (Á¦1ÀúÀÚ)

25. Graft tension of the posterior cruciate ligament using a finite element model. Knee Surg Sports Traumatol Arthrosc. 2014 Sep;22(9):2057-63.

26. The effect of notchplasty on tunnel widening in anterior cruciate ligament reconstruction. Arthroscopy. 2014 Jun;30(6):739-46.

27. Letter response: anterior knee pain after tibial intramedullary nailing using a paratendinous approach. J Orthop Trauma. 2013, 27(1):e24-e25. (±³½ÅÀúÀÚ)

28. Changes in the length of the medial patellofemoral ligament: an in vivo analysis using 3-dimensional computed tomography. Am J Sports Med. 2012 Sep;40(9):2142-8. (±³½ÅÀúÀÚ)

29. Symptomatic residual instability with grade II acromioclavicular injury. J Orthop Sci. 2012 Jul;17(4):437-42.

30. Dynamic function of coracoclavicular ligament at different shoulder abduction angles: a study using a 3-dimensional finite element model. Arthroscopy. 2012 Jun;28(6):778-87.

31. Anterior knee pain after tibial intramedullary nailing using a medial paratendinous approach. J Orthop Trauma. 2012 Mar;26(3):172-7. (±³½ÅÀúÀÚ)

32. Delayed intra-articular migration of the IntraFix outer sheath after anterior cruciate ligament reconstruction: a case report. Knee. 2011 Oct;18(5):347-9. (±³½ÅÀúÀÚ)

33. Modified carpal stretch test as a screening test for detection of scapholunate interosseous ligament injuries associated with distal radial fractures. J Bone Joint Surg Am. 2011 May 4;93(9):855-62.

±¹Á¦ ÇÐȸ ¹ßÇ¥

1. MoSe- Single-chain Atomic Crystals As A Scaffold For Bone Regeneration.
Accepted as an poster presentation at the ORS 2020, February 8-11, 2020, Phoenix, Arizona.

2. Collagenous Ultrastructure of Torn Medial Meniscus Posterior Root: A Transmission Electron Microscopy Study.
Accepted as an poster presentation at the AAOS 2019, March 12-16, 2019, Las Vegas, Nevada.

3. Surgery Prior to Subspecialty Referral for Periprosthetic Knee Infection Reduces the Likelihood of Eradication.
Accepted as an oral presentation at the AAOS 2018, March 6-10, 2018, New Orleans, Louisiana.

4. Length Change Patterns of Bundles After Double-Bundle and Mid-Position Single-Bundle MPFL Reconstruction: An In Vivo Study Using 3-Dimensional Knee Model.
Accepted as a oral presentation at the annual meeting of ICJR (International Congress of Joint Replacement), July 17-19, 2014, Big Island, Hawaii.

5. Length Change Behavior of Native Medial Patellofemoral Ligament Fibers During In vivo Knee Flexion.
Accepted as a podium (Patellofemoral Award Nomination; top 3 paper) at 9TH biennial ISAKOS (International Society of Arthroscopy, Knee Surgery and Orthopaedic Sports Medicine), May 12-16, 2013, Toronto, Canada

6. The Isometric point for Medial Patellofemoral Ligament Reconstructions: An In Vivo Analysis Using 3-Dimentional Computed Tomography.
Accepted as a oral presentation at the 15th ESSKA (European Society Sports traumatology Knee surgery of Arthroscopy) Congress, May 2- 5, 2012, Geneva, Swiss.

7. Changes in Length of the Medial Patellofemoral Ligament: An In Vivo Analysis Using 3-Dimensional Computed Tomography.
Accepted as a oral presentation at the 31th annual meeting of AANA (Arthroscopic Association of North America), May 17-19, 2012, Orlando, Florida.