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Acetabular Labrum Biyomekaniği için 3D Yazıcı Destekli Kurulum

Year 2020, Volume: 2 Issue: 1, 103 - 108, 15.06.2020

Abstract

Kalça eklemi, üst ekstremitenin ağırlığının desteklenmesinden sorumludur. Eksenel iskeletten alt ekstremitelere kuvvet iletimini sağlar. Bu nedenle, labral yırtıklar zamanla ciddi sonuçlara yol açabilir; kalça ağrısı, dejenerasyon, hatta artrit gibi. Bu çalışmada yeni tasarlanan kompresyon testi düzeneği sayesinde insan asetabular labrumunun mekanik özelliklerinin belirlenmesi amaçlanmıştır. Çalışma, 9 adet gönüllüden (yaş ortalaması 65,5 ± 8,1; 4 kadın ve 5 erkek) elde edilen insan asetabular labrum dokusu ile gerçekleştirilmiştir. Örnekler, % 99 nem koşulu sağlanarak ve 24 (± 1) ° C sıcaklıkta 10 mm / dk yer değiştirme hızı ile 3D yazıcı tasarımlı bir test düzeneği kullanılarak değerlendirilmiştir. Biyomekanik değerlendirmeler için 70 N'ye kadar yüklenme altındaki veriler kullanılmıştır. Ortalama elastik modül değeri (0.022 MPa ± 0.001), maksimum gerilme (1.169 ± 0.052) ve maksimum yer değiştirme (53.09 ± 2.643) değerleri elde edilmiştir. Sonuç olarak, elde edilen veriler test düzeneğinin anatomik yapıya benzediğini ve verilerin kabul edilebilir aralıklarda olduğunu doğrulamaktadır.

References

  • 1. Jordan, James A. ve Burns, Bracken. Anatomy, Abdomen and Pelvis, Hip Arteries. Florida, America : Stat Pearls Publishing LLC , 2019.
  • 2. Chandran, Prakash & Singhal, Rohit. General Principles of Orthopedics and Trauma. W. S. Khan (eds.) K. M. Iyer. Sports Injuries to the Hip Joint. Switzerland : Springer Nature, 2019, Cilt 24, s. 553-573.
  • 3. Anatomy, histologic features, and vascularity of the adult acetabular labrum. . Seldes RM, Tan V, Hunt J, Katz M, Winiarsky R, Fitzgerald RH Jr. 2001, Clin Orthop Relat Res., Cilt 382, s. 232-40.
  • 4. The Otto E. Aufranc Award: The role of labral lesions to devel- opment of early degenerative hip disease. . McCarthy JC, Noble PC, Schuck MR, Wright J, Lee J. 2001, Clin Orthop Relat Res , Cilt 393, s. 25-37.
  • 5. A preliminary report on prevalence of acetabular labrum tears in sports patients with groin pain. . Narvani AA, Tsiridis E, Kendall S, Chaudhuri R, Thomas P. 2003, Knee Surg Sports Traumatol Arthrosc , Cilt 11, s. 403–408.
  • 6. A classification system for labral tears of the hip. . Philippon MJ, Martin RR, Kelly BT. 6, 2005, Arthroscopy 2005;21(Suppl):36., Cilt 21, s. (Suppl) 36.
  • 7. Review of acetabular labral tears in dancers. Kern R, Peterson J, Morgan P. 4, 2011, J Dance Med Sci , Cilt 15, s. 149-56.
  • 8. Strains across the acetabular labrum during hip motion: a cadaveric model. . Safran MR, Giordano G, Lindsey DP, Gold GE, Rosenberg J, Zaffagnini S, Giori NJ. 2011, Am J Sports Med , Cilt 39(Suppl), s. 92-102.
  • 9. The role of the acetabular labrum and the transverse acetabular ligament in load transmission in the hip. . Konrath GA, Hamel AJ, Olson SA, Bay B, Sharkey NA. 1998, J Bone Joint Surg Am, Cilt 80, s. 1781–1788.
  • 10. Mechanical strains passing through the acetabular labrum modify its shape during hip motion: an anatomical study. . Ollivier, M., Le Corroller, T., Parratte, S., Chabrand, P., Argenson, J.-N., & Gagey, O. 6, 2017, Knee Surgery, Sports Traumatology, Arthrosco, Cilt 25, s. 1967-1974. .
  • 11. An in vitro investigation of the acetabular labral seal in hip joint mechanics. . Ferguson SJ, Bryant JT, Ganz R, et al. 2, 2003, J Biomech., Cilt 36, s. 171-8.
  • 12. The hip fluid seal–part I: the effect of an acetabular labral tear, repair, resection, and reconstruction on hip stability to distraction. . Philippon MJ, Nepple JJ, Campbell KJ, et al. 2014, Knee Surg Sports Traumatol Arthrosc, Cilt 22, s. 722-9.
  • 13. Outcomes following hip arthroscopy for femoroacetabular impingement with associated chondrolabral dysfunction: minimum two-year follow-up. . Philippon MJ, Briggs KK, Yen YM, et al. 1, 2009, J Bone Joint Surg Br , Cilt 91, s. 16–23.
  • 14. An in vitro investigation of the acetabular labral seal in hip joint mechanics. Ferguson SJ, Bryant JT, Ganz R, Ito K. 171–178, : J Biomech , 2003, Cilt 36.
  • 15. The function of the hip capsular ligaments: a quantitative report. Martin HD, Savage A, Braly BA, Palmer IJ, Beall DP, Kelly B. 188–195, : Arthroscopy , 2008, Cilt 24.
  • 16. Contribution of acetabular labrum to articulating surface area and femoral head coverage in adult hip joints: an anatomic study in cadavera. Tan V, Seldes RM, Katz MA, Freedhand AM, Klimkiewicz JJ, Fitzgerald RH Jr. 809–812, : Am J Orthop , 2001, Cilt 30.
  • 17. Arthroscopic findings following traumatic hip dislocation in 14 professional athletes. Philippon MJ, Kuppersmith DA, Wolff AB, Briggs KK. 169–174, : Arthroscopy , 2009, Cilt 25.
  • 18. The acetabular rim syndrome. A clinical presentation of dysplasia of the hip. Klaue K, Durnin CW, Ganz R. 423–429, : J Bone Joint Surg Br, 1991, Cilt 73.
  • 19. Arthroscopic management of labral tears in the hip. Shindle MK, Voos JE, Nho SJ, Heyworth BE, Kelly BT. 2–19, : J Bone Joint Surg Am, 2008, Cilt 90.
  • 20. Joint space of the human knee and hip joint under a static load. Terayama K, Takei T, Nakada K. 67–74, : Eng Med , 1980, Cilt 9.
  • 21. In vivo comparison of hip separation after metal-on-metal or metal-on-polyethylene total hip arthroplasty. . Komistek RD, Dennis DA, Ochoa JA, Haas BD, Hammill C. 2002, J Bone Joint Surg Am, Cilt 84, s. 1836–1841.
  • 22. The 2007 Frank Stinchfield Award. The biomechanics of the hip labrum and the stability of the hip. . Crawford MJ, Dy CJ, Alexander JW, Thompson M, Schroder SJ, Vega CE, Patel RV, McCarthy JC, Lowe WR, Noble PC. 2007, Clin Orthop Relat Res, Cilt 465, s. 16-22.
  • 23. Jordan, James A. ve Burns, Bracken. Anatomy, Abdomen and Pelvis, Hip Arteries. Treasure Island, Florida, America : StatPearls Publishing LLC [Internet], Jan 2019.
  • 24. Chandran, Prakash & Singhal, Rohit. Sports Injuries to the Hip Joint. . [kitap yaz.] W. S. Khan (eds.) K. M. Iyer. General Principles of Orthopedics and Trauma. : Springer Nature Switzerland AG, 2019, 24, s. 553-573.
  • 25. Anatomy, histologic features, and vascularity of the adult acetabular labrum. . Seldes RM, Tan V, Hunt J, Katz M, Winiarsky R, Fitzgerald RH Jr. 2001, Clin Orthop Relat Res., Cilt 382, s. 232–40.

3D Printer Assisted Setup for Acetabular Labrum Biomechanics

Year 2020, Volume: 2 Issue: 1, 103 - 108, 15.06.2020

Abstract

The hip joint is responsible for providing a support of the weight of upper body. It provides a force transmission from the axial skeleton to the lower extremities. Therefore, labral tears might lead to serious outcomes with time; such as hip pain, degeneration, even arthritis. In this study, we aimed to determine human acetabular labrum mechanical properties with the help of a newly designed compression test set-up. Study was performed with 9 human acetabular labrum tissues obtained from volunteers (with the average age of 65,5±8,1; 4 female and 5 male). The samples were evaluated separately by using a 3D printer designed test set-up with a 100% humidity and a displacement rate of 10 mm/min at 24(±1) °C. The data up to 70 N loading were used for biomechanical evaluations. The average elastic modulus (0.022 MPa ± 0.001) was evaluated with the maximum stress (1.169 MPa ± 0.052) and the maximum strain (53.09 ± 2.643) at 70 N loading. In conclusion, the obtained data verifies that the test set-up is like to anatomical design and data is acceptable. 

References

  • 1. Jordan, James A. ve Burns, Bracken. Anatomy, Abdomen and Pelvis, Hip Arteries. Florida, America : Stat Pearls Publishing LLC , 2019.
  • 2. Chandran, Prakash & Singhal, Rohit. General Principles of Orthopedics and Trauma. W. S. Khan (eds.) K. M. Iyer. Sports Injuries to the Hip Joint. Switzerland : Springer Nature, 2019, Cilt 24, s. 553-573.
  • 3. Anatomy, histologic features, and vascularity of the adult acetabular labrum. . Seldes RM, Tan V, Hunt J, Katz M, Winiarsky R, Fitzgerald RH Jr. 2001, Clin Orthop Relat Res., Cilt 382, s. 232-40.
  • 4. The Otto E. Aufranc Award: The role of labral lesions to devel- opment of early degenerative hip disease. . McCarthy JC, Noble PC, Schuck MR, Wright J, Lee J. 2001, Clin Orthop Relat Res , Cilt 393, s. 25-37.
  • 5. A preliminary report on prevalence of acetabular labrum tears in sports patients with groin pain. . Narvani AA, Tsiridis E, Kendall S, Chaudhuri R, Thomas P. 2003, Knee Surg Sports Traumatol Arthrosc , Cilt 11, s. 403–408.
  • 6. A classification system for labral tears of the hip. . Philippon MJ, Martin RR, Kelly BT. 6, 2005, Arthroscopy 2005;21(Suppl):36., Cilt 21, s. (Suppl) 36.
  • 7. Review of acetabular labral tears in dancers. Kern R, Peterson J, Morgan P. 4, 2011, J Dance Med Sci , Cilt 15, s. 149-56.
  • 8. Strains across the acetabular labrum during hip motion: a cadaveric model. . Safran MR, Giordano G, Lindsey DP, Gold GE, Rosenberg J, Zaffagnini S, Giori NJ. 2011, Am J Sports Med , Cilt 39(Suppl), s. 92-102.
  • 9. The role of the acetabular labrum and the transverse acetabular ligament in load transmission in the hip. . Konrath GA, Hamel AJ, Olson SA, Bay B, Sharkey NA. 1998, J Bone Joint Surg Am, Cilt 80, s. 1781–1788.
  • 10. Mechanical strains passing through the acetabular labrum modify its shape during hip motion: an anatomical study. . Ollivier, M., Le Corroller, T., Parratte, S., Chabrand, P., Argenson, J.-N., & Gagey, O. 6, 2017, Knee Surgery, Sports Traumatology, Arthrosco, Cilt 25, s. 1967-1974. .
  • 11. An in vitro investigation of the acetabular labral seal in hip joint mechanics. . Ferguson SJ, Bryant JT, Ganz R, et al. 2, 2003, J Biomech., Cilt 36, s. 171-8.
  • 12. The hip fluid seal–part I: the effect of an acetabular labral tear, repair, resection, and reconstruction on hip stability to distraction. . Philippon MJ, Nepple JJ, Campbell KJ, et al. 2014, Knee Surg Sports Traumatol Arthrosc, Cilt 22, s. 722-9.
  • 13. Outcomes following hip arthroscopy for femoroacetabular impingement with associated chondrolabral dysfunction: minimum two-year follow-up. . Philippon MJ, Briggs KK, Yen YM, et al. 1, 2009, J Bone Joint Surg Br , Cilt 91, s. 16–23.
  • 14. An in vitro investigation of the acetabular labral seal in hip joint mechanics. Ferguson SJ, Bryant JT, Ganz R, Ito K. 171–178, : J Biomech , 2003, Cilt 36.
  • 15. The function of the hip capsular ligaments: a quantitative report. Martin HD, Savage A, Braly BA, Palmer IJ, Beall DP, Kelly B. 188–195, : Arthroscopy , 2008, Cilt 24.
  • 16. Contribution of acetabular labrum to articulating surface area and femoral head coverage in adult hip joints: an anatomic study in cadavera. Tan V, Seldes RM, Katz MA, Freedhand AM, Klimkiewicz JJ, Fitzgerald RH Jr. 809–812, : Am J Orthop , 2001, Cilt 30.
  • 17. Arthroscopic findings following traumatic hip dislocation in 14 professional athletes. Philippon MJ, Kuppersmith DA, Wolff AB, Briggs KK. 169–174, : Arthroscopy , 2009, Cilt 25.
  • 18. The acetabular rim syndrome. A clinical presentation of dysplasia of the hip. Klaue K, Durnin CW, Ganz R. 423–429, : J Bone Joint Surg Br, 1991, Cilt 73.
  • 19. Arthroscopic management of labral tears in the hip. Shindle MK, Voos JE, Nho SJ, Heyworth BE, Kelly BT. 2–19, : J Bone Joint Surg Am, 2008, Cilt 90.
  • 20. Joint space of the human knee and hip joint under a static load. Terayama K, Takei T, Nakada K. 67–74, : Eng Med , 1980, Cilt 9.
  • 21. In vivo comparison of hip separation after metal-on-metal or metal-on-polyethylene total hip arthroplasty. . Komistek RD, Dennis DA, Ochoa JA, Haas BD, Hammill C. 2002, J Bone Joint Surg Am, Cilt 84, s. 1836–1841.
  • 22. The 2007 Frank Stinchfield Award. The biomechanics of the hip labrum and the stability of the hip. . Crawford MJ, Dy CJ, Alexander JW, Thompson M, Schroder SJ, Vega CE, Patel RV, McCarthy JC, Lowe WR, Noble PC. 2007, Clin Orthop Relat Res, Cilt 465, s. 16-22.
  • 23. Jordan, James A. ve Burns, Bracken. Anatomy, Abdomen and Pelvis, Hip Arteries. Treasure Island, Florida, America : StatPearls Publishing LLC [Internet], Jan 2019.
  • 24. Chandran, Prakash & Singhal, Rohit. Sports Injuries to the Hip Joint. . [kitap yaz.] W. S. Khan (eds.) K. M. Iyer. General Principles of Orthopedics and Trauma. : Springer Nature Switzerland AG, 2019, 24, s. 553-573.
  • 25. Anatomy, histologic features, and vascularity of the adult acetabular labrum. . Seldes RM, Tan V, Hunt J, Katz M, Winiarsky R, Fitzgerald RH Jr. 2001, Clin Orthop Relat Res., Cilt 382, s. 232–40.
There are 25 citations in total.

Details

Primary Language English
Subjects Clinical Sciences
Journal Section Technical Note
Authors

R. Bugra Husemoglu 0000-0003-1979-160X

Gizem Baysan 0000-0002-3195-9156

Cihangir Türemiş This is me 0000-0002-5794-6652

Onur Gürsan This is me 0000-0002-6356-3834

Onur Hapa 0000-0001-8154-658X

Hasan Havıtçıoğlu 0000-0001-8169-3539

Publication Date June 15, 2020
Published in Issue Year 2020 Volume: 2 Issue: 1

Cite

APA Husemoglu, R. B., Baysan, G., Türemiş, C., Gürsan, O., et al. (2020). 3D Printer Assisted Setup for Acetabular Labrum Biomechanics. Journal of Medical Innovation and Technology, 2(1), 103-108.
AMA Husemoglu RB, Baysan G, Türemiş C, Gürsan O, Hapa O, Havıtçıoğlu H. 3D Printer Assisted Setup for Acetabular Labrum Biomechanics. Journal of Medical Innovation and Technology. June 2020;2(1):103-108.
Chicago Husemoglu, R. Bugra, Gizem Baysan, Cihangir Türemiş, Onur Gürsan, Onur Hapa, and Hasan Havıtçıoğlu. “3D Printer Assisted Setup for Acetabular Labrum Biomechanics”. Journal of Medical Innovation and Technology 2, no. 1 (June 2020): 103-8.
EndNote Husemoglu RB, Baysan G, Türemiş C, Gürsan O, Hapa O, Havıtçıoğlu H (June 1, 2020) 3D Printer Assisted Setup for Acetabular Labrum Biomechanics. Journal of Medical Innovation and Technology 2 1 103–108.
IEEE R. B. Husemoglu, G. Baysan, C. Türemiş, O. Gürsan, O. Hapa, and H. Havıtçıoğlu, “3D Printer Assisted Setup for Acetabular Labrum Biomechanics”, Journal of Medical Innovation and Technology, vol. 2, no. 1, pp. 103–108, 2020.
ISNAD Husemoglu, R. Bugra et al. “3D Printer Assisted Setup for Acetabular Labrum Biomechanics”. Journal of Medical Innovation and Technology 2/1 (June 2020), 103-108.
JAMA Husemoglu RB, Baysan G, Türemiş C, Gürsan O, Hapa O, Havıtçıoğlu H. 3D Printer Assisted Setup for Acetabular Labrum Biomechanics. Journal of Medical Innovation and Technology. 2020;2:103–108.
MLA Husemoglu, R. Bugra et al. “3D Printer Assisted Setup for Acetabular Labrum Biomechanics”. Journal of Medical Innovation and Technology, vol. 2, no. 1, 2020, pp. 103-8.
Vancouver Husemoglu RB, Baysan G, Türemiş C, Gürsan O, Hapa O, Havıtçıoğlu H. 3D Printer Assisted Setup for Acetabular Labrum Biomechanics. Journal of Medical Innovation and Technology. 2020;2(1):103-8.