RESEARCHING AND TRENDS IN OPTIMIZING HIP JOINT PROSTHESIS

  • Patricia Isabela BRAILEANU Politehnica University of Bucharest / INSA-LYON, LaMCos
  • Ionel SIMION Politehnica University of Bucharest
  • Benyebka BOU-SAID Universite de Lyon
Keywords: hip joint, prostheses, implant, hip stem, total hip replacement

Abstract

Nowadays the biomechanical field is getting a significant amplitude and the research directions from all over the world are increasingly focusing on the prostheses personalization. In T.H.R. (Total Hip Replacement) the most important factors that lead to a good osseointegration are the design and implicitly hip prosthesis geometry, the prosthetic components orientation, the couple type and the biomaterials used; bone quality and the patients’ medical history, as well as the surgeons’ approaching method in orthopedics may influence the outcome of the hip replacement surgery also.
From the first hip implants initiated by Temistocles Gluck between 1853 and 1942 and up to nowadays implants that attempts to reproduce femoral geometry and bone structure, this article aims to present the most important evolutionary stages of hip prostheses and the optimization directions that researchers approach ultimately.

Author Biographies

Patricia Isabela BRAILEANU, Politehnica University of Bucharest / INSA-LYON, LaMCos

Co-tutelle, Department of Engineering Graphics and Industrial Design, Politehnica University of Bucharest, Romania/INSA-LYON, LaMCos, France,

Ionel SIMION, Politehnica University of Bucharest

Director of Department, Politehnica University of Bucharest, Romania, Department of Engineering Graphics and Industrial Design.

Benyebka BOU-SAID, Universite de Lyon

Director TMI, Universite de Lyon, INSA-LYON, LaMCos, France.

References

1 H. Malchau, G. Garellick, P. Herberts, (2005). The Evidence from the Swedish Hip Register. In: The Well-Cemented Todal Hip Arthroplasty, Springer, Berlin, Heidelberg, ISBN 978-3-540-24197-3, pp. 291–299.
2 Jacqueline Finch, (2011). The ancient origins of prosthetic medicine, The Art of Medicine, Vol. 377, Issue 9765, pp. 548–549, February 12, 2011.
3 Hsin-Yi Kathy Cheng, Chun-Li Lin, Shih-Wei Chou, Yan-Ying Ju, Yin-Chou Lin, May-Kuen Wong (2007). The importance of the great toe in balance performance, Proceedings of the Fifth IASTED International Conference on Biomechanics, BioMech, Vol. 59–63.
4 Martin M. Malawer, Robert M. Henshaw, Kristen Kellar-Graney, (2009). Overview of Endoprosthetic Reconstruction, 13282_ON-3.qxd, available at: http://sarcoma.org/publications/OTOS_Book/13282_ON-3.pdf Accessed: 2019-01-03.
5 Richard A. Brand, Michael A. Mont, M. M. Manring (2011). Biographical Sketch: Themistocles Gluck (1853–1942), Clin Orthop Relat Res. 2011 Jun, Vol. 469(6), pp. 1525–1527.
6 Stephen Richard Knight, Randeep Aujla, Satya Prasad Biswas (2011). Total Hip Arthroplasty – over 100 years of operative history, Orthopaedic Reviews 2011, Vol. 3:e16, pp. 72–74.
7 Philippe Hernigou (2014). Smith–Petersen and early development of hip arthroplasty, Int Orthop., 2014 Jan., Vol. 38(1), pp. 193–198.
8 William Waugh (1990). John Charnley: The Man and The Hip, The New England Journal of Medicine, Aug. 23, 1990, Los Angeles, CA 90024, Vol. 323, No. 8, pp. 553–554.
9 Jianxi Lu, Orthopedic Bone Cements, (2016). Biomechanics and Biomaterials in Orthopedics, Springer, Editor Dominique G. Poitout, Springer-Verlag London, ISBN 978-1-84882-663-2, pp. 123–138.
10 C.J. Hedbeck, R. Blomfeldt, G. Lapidus, H. Törnkvist, S. Ponzer, J. Tidermark (2011). Unipolar hemiarthroplasty versus bipolar hemiarthroplasty in the most elderly patients with displaced femoral neck fractures: a randomised, controlled trial, Int. Orthop., Feb. 8, 2011, Vol. 35(11), pp. 1703–1711.
11 P. Babaniamansour, M. Ebrahimian Hosseinabadi, A. Zargar Kharazi (2017). Designing an Optimized Novel Femoral Stem, J Med Signals Sens., Jul-Sep 2017, Vol. 7(3), pp. 170–177.
12 Atesok K, Galos D, Jazrawi LM, Egol KA (2013). Preoperative Planning in Orthopaedic Surgery. Current Practice and Evolving Applications, Bull Hosp Jt Dis, Dec 2013, Vol. 73(4), pp. 257–268.
13 Sujit Kumar Tripathy, Tarun Goyal, Ramesh Kumar Sen (2015). Management of femoral head osteonecrosis: Current concepts, Indian J Orthop., Jan-Feb 2015, Vol. 49(1), pp. 28–45.
14 G. Schmidig, A. Patel, I. Liepins, M. Thakore, DC. Markel (2010). The effects of acetabular shell deformation and liner thickness on frictional torque in ultrahigh-molecular-weight polyethylene acetabular bearings, J Arthroplasty, Jun 2010, Vol. 25(4), pp. 644–653.
15 T. W. R. Briggs, S. A. Hanna, B. Kayani, S. Tai, R. C. Pollock, S. R. Cannon, G. W. Blunn, R. W. J. Carrington (2015). Metal-on-polyethylene versus metal-on-metal bearing surfaces in total hip arthroplasty, The Bone & Joint Journal, Sep 2015, Vol. 97(B), No. 9, pp. 1183–1191.
16 Andrew J. Ruys (2018). Alumina Ceramics: Biomedical and Clinical Applications, Woodhead Publishing Series in Biomaterials, ISBN 978-0-08-102443-0, pp. 151–152.
17 Xu Haiying, Zhang Wei, Fan Kai, Fu Pengfei (2017). TC4 Titanium Alloy Microstructure and Properties Influenced by High Frequency Scan of Electron Beam, Rare Metal Materials and Engineering, Vol. 46, Issue 6, pp. 1457–1462.
18 W.V. Christian, L.D. Oliver, D.J. Paustenbach, M.L. Kreider, B.L. Finley (2014). Toxicology-based cancer causation analysis of CoCr-containing hip implants: a quantitative assessment of genotoxicity and tumorigenicity studies, J Appl Toxicol., Vol. 34, Issue 9, pp. 939–967.
19 Orhun K. Muratoglu, Steven M. Kurtz (2002). Alternate Bearing Surface in Hip Replacement, Hip Replacement. Current Trends and Controversies, Editor Raj K. Sinha, ISBN 0-8247-0789-3, Issue 9, pp. 1–46.
20 S. Pramanik, A. K. Agarwal, K. N. Rai (2005). Chronology of Total Hip Joint Replacement and Materials Development, Trends Biomater. Artif. Organs, Vol. 19(1), pp. 15–25.
21 Shahryar Noordin, Bassam Masri (2012). Periprosthetic osteolysis: genetics, mechanisms and potential therapeutic interventions, Can J Surg., Dec 2012, Vol. 55(6), pp. 408–417.
22 Catarina A. Oliveira, Isabel S. Candelária, Pedro B. Oliveira, Antonio Figueiredo, Filipe Caseiro-Alves (2015). Metallosis: A diagnosis not only in patients with metal-on-metal, prostheses, Eur J Radiol Open., Vol. 2, pp. 3–6.
23 E. J. McPherson, L. D. Dorr, T. A. Gruen, M. T. Saberi (1995). Hydroxyapatite-Coated Proximal Ingrowth Femoral Stems, Clinical Orthopaedics, Vol. 315, pp. 223–230.
24 Miklós Szendrõi, Gergely Sztrinkai, Roland Vass, János Kiss (2006). The impact of minimally invasive total hip arthroplasty on the standard procedure, Int Orthop, Vol. 30(3), pp. 167–171.
25 T. Cheng, J. G. Feng, T. Liu, X. L. Zhang (2009). Minimally invasive total hip arthroplasty: a systematic review, Int Orthop, Vol. 33(6), pp. 1473–1481.
26 Osso VR Virtual Surgery. Real Results, at: http://ossovr.com/
Accessed: 2018-12-20.
27 Patricia Isabela Braileanu, Ionel Simion, Benyebka Bou- Said, Nicoleta Crisan (2018). Custom hip implant optimisation, Published in: 2018 19th International Conference on Research and Education in Mechatronics (REM), 7-8 June 2018, Delft, Netherlands.
28 Kim J. Chillag (2016). Hydroxyapatite-Coated Proximal Ingrowth Femoral StemGiants of Orthopaedic Surgery: Austin T. Moore MD, Clinical Orthop Relat Res., Dec 2016, Vol. 474(12), pp. 2606–2610.
29 Karthik Tappa, Udayabhanu Jammalamadaka (2018). Novel Biomaterials Used in Medical 3D Printing Techniques, Feb 7, 2018, J Funct Biomater., Vol. 9(1), pp. 1–7.
30 Michael C. Wyatt (2015). Custom 3D-printed acetabular implants in hip surgery – innovative breakthrough or expensive bespoke upgrade?, HIP Int, Vol. 25(4), pp. 375–379.
31 Fabrizio Matassi, Lorenzo Nistri, Diana Chicon Paez, Massimo Innocenti (2011). New biomaterials for bone regeneration, Jan-Apr 2011, Clin Cases Miner Bone Metab., Vol. 8(1), pp. 21–24.
32 Dylan Jack Richards, Yu Tan, Jia Jia, Hai Yao, Ying Mei (2013). 3D Printing for Tissue Engineering, Israel Journal of Chemestry, Vol. 53, pp. 805–814.
33 Ma Ruyu, Xue WendongWang Dongmei, Dai Kerong, Wang Chengtao (2005). Design and manufacture of custom hip prostheses based on standard X-ray films, The International Journal of Advanced Manufacturing Technology, Vol. 27, Issue 1–2, pp. 70–74.
Published
2019-05-12
How to Cite
BRAILEANU, P. I., SIMION, I., & BOU-SAID, B. (2019). RESEARCHING AND TRENDS IN OPTIMIZING HIP JOINT PROSTHESIS. Journal of Industrial Design and Engineering Graphics, 14(1), 221-226. Retrieved from http://www.sorging.ro/jideg/index.php/jid/article/view/427
Section
Articles