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Acta Orthopaedica Scandinavica Volume 46, 1975 - Issue 1
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Original Article

Characterization of Bone Cements

J. R. De Wijn The Institute of Dental Materials Science and Technology and the Department of Orthopaedics,Catholic University, Nijmegen, The Netherlands
,
T. J. J. H. Slooff The Institute of Dental Materials Science and Technology and the Department of Orthopaedics,Catholic University, Nijmegen, The Netherlands
&
F. C. M. Driessens The Institute of Dental Materials Science and Technology and the Department of Orthopaedics,Catholic University, Nijmegen, The Netherlands
Pages 38-51 | Accepted 17 Oct 1974, Published online: 08 Jul 2009

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M.A. Moharram, M.A. Fadel, H. Higazy & Safaa Khalil. (1993) Interaction of Acrylic Bone Cement with Bone Structure. Polymer-Plastics Technology and Engineering 32:5, pages 457-465.
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Ulf Lindén. (1988) Mechanical versus manual mixing of bone cement. Acta Orthopaedica Scandinavica 59:4, pages 400-402.
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Bengt Mjoberg. (1986) Loosening of the cemented hip prosthesis. Acta Orthopaedica Scandinavica 57:sup221, pages 3-40.
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Stephen C. Weber & William L. Bargar. (1983) A Comparison of the Mechanical Properties of Simplex, Zimmer, and Zimmer low Viscosity Bone Cements. Biomaterials, Medical Devices, and Artificial Organs 11:1, pages 3-12.
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R. Feith. (1975) Side-Effects of Acrylic Cement Implanted into Bone: A Histological, (Micro)Angiographic, Fluorescence-Microscopic and Autoradiographic Study in the Rabbit Femur. Acta Orthopaedica Scandinavica 46:sup161, pages 1-136.
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Articles from other publishers (47)

Luis Felipe Guilardi, Arie Werner, Niek de Jager, Gabriel Kalil Rocha Pereira, Cornelis Johannes Kleverlaan, Marilia Pivetta Rippe & Luiz Felipe Valandro. (2021) The influence of roughness on the resistance to impact of different CAD/CAM dental ceramics. Brazilian Dental Journal 32:6, pages 54-65.
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Tobias Ziegler & Raimund Jaeger. (2019) Fracture toughness and crack resistance curves of acrylic bone cements. Journal of Biomedical Materials Research Part B: Applied Biomaterials 108:5, pages 1961-1971.
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Sanaz Soleymani Eil Bakhtiari, Hamid Reza Bakhsheshi-Rad, Saeed Karbasi, Mohamadreza Tavakoli, Mahmood Razzaghi, Ahmad Fauzi Ismail, Seeram RamaKrishna & Filippo Berto. (2020) Polymethyl Methacrylate-Based Bone Cements Containing Carbon Nanotubes and Graphene Oxide: An Overview of Physical, Mechanical, and Biological Properties. Polymers 12:7, pages 1469.
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Khaled J. Saleh, Mouhanad M. El Othmani, Tony H. Tzeng, William M. Mihalko, Monique C. Chambers & Thomas M. Grupp. (2016) Acrylic bone cement in total joint arthroplasty: A review. Journal of Orthopaedic Research 34:5, pages 737-744.
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Shant Aghyarian, Lucas C Rodriguez, Jonathan Chari, Elizabeth Bentley, Victor Kosmopoulos, Isador H Lieberman & Danieli C Rodrigues. (2014) Characterization of a new composite PMMA-HA/Brushite bone cement for spinal augmentation. Journal of Biomaterials Applications 29:5, pages 688-698.
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N. Dunne, J. Clements & J-S. Wang. 2014. Joint Replacement Technology. Joint Replacement Technology 212 256 .
Masaaki Maruyama & William N. Capello. (2013) Biodegradation of Polymethylmethacrylate Bone Cement May Not Be a Serious Issue in Total Hip Arthroplasty—Retrieval Study for Knoop Hardness and Young’s Modulus. Open Journal of Orthopedics 03:06, pages 269-277.
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Klaus-Dieter KühnKlaus-Dieter Kühn. 2013. PMMA Cements. PMMA Cements 93 113 .
Klaus-Dieter KühnKlaus-Dieter Kühn. 2013. PMMA Cements. PMMA Cements 183 202 .
Samena Chaudhry & David Dunlop. (2012) Bone cement in arthroplasty. Orthopaedics and Trauma 26:6, pages 391-396.
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Matthew H. Pelletier, Lawrie Malisano, Peter J. Smitham, Koji Okamoto & William R. Walsh. (2009) The Compressive Properties of Bone Cements Containing Large Doses of Antibiotics. The Journal of Arthroplasty 24:3, pages 454-460.
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N. DUNNE. 2008. Orthopaedic Bone Cements. Orthopaedic Bone Cements 233 264 .
J-.S WANG & N DUNNE. 2008. Joint Replacement Technology. Joint Replacement Technology 212 251 .
David H. Kohn & Paul Ducheyne. 2006. Materials Science and Technology. Materials Science and Technology.
Isador H. Lieberman, Daisuke Togawa & Mark M. Kayanja. (2005) Vertebroplasty and kyphoplasty: filler materials. The Spine Journal 5:6, pages S305-S316.
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Klaus-Dieter Kuehn, Werner Ege & Udo Gopp. (2005) Acrylic bone cements: mechanical and physical properties. Orthopedic Clinics of North America 36:1, pages 29-39.
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C. Z. Liu, S. M. Green, N. D. Watkins, D. Baker & A. W. McCaskie. (2005) Dynamic creep and mechanical characteristics of SmartSet GHV bone cement. Journal of Materials Science: Materials in Medicine 16:2, pages 153-160.
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M. Zenios, L. Nokes & C. S. B. Galasko. (2004) Effect of a bisphosphonate, disodium pamidronate, on the quasi-static flexural properties of Palacos R acrylic bone cement. Journal of Biomedical Materials Research 71B:2, pages 322-326.
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M.K. Bhatnagar, S.K. Mathur, E. Cruz-Oliver & E. C?ceres. (2004) Vertebroplastia percut?nea para el tratamiento de las fracturas vertebrales por compresi?n de origen osteopor?tico. Revista Espa?ola de Cirug?a Ortop?dica y Traumatolog?a 48:3, pages 186-194.
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Daisuke Togawa, Thomas W. Bauer, Isador H. Lieberman & Satoshi Takikawa. (2003) Histologic Evaluation of Human Vertebral Bodies After Vertebral Augmentation With Polymethyl Methacrylate. Spine 28:14, pages 1521-1527.
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Frank R DiMaio. (2002) The Science of Bone Cement: A Historical Review. Orthopedics 25:12, pages 1399-1407.
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Alexander VaccaroJohn Kostuik. 2002. Fractures of the Cervical, Thoracic, and Lumbar Spine. Fractures of the Cervical, Thoracic, and Lumbar Spine 635 653 .
N.J Dunne & J.F Orr. (2001) Influence of mixing techniques on the physical properties of acrylic bone cement. Biomaterials 22:13, pages 1819-1826.
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A Bettencourt, A Calado, J Amaral, F.M Vale, J.M.T Rico, J Monteiro & M Castro. (2001) The influence of vacuum mixing on methylmethacrylate liberation from acrylic cement powder. International Journal of Pharmaceutics 219:1-2, pages 89-93.
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K.-D. Kühn. 2001. Bone Cements and Cementing Technique. Bone Cements and Cementing Technique 17 26 .
W. A. J. Higgs, P. Lucksanasombool, R. J. E. D. Higgs & M. V. Swain. (2001) A simple method of determining the modulus of orthopedic bone cement. Journal of Biomedical Materials Research 58:2, pages 188-195.
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D. Ikeda, M. Saito, A. Murakami, T. Shibuya, K. Hino & T. Nakashima. (2000) Mechanical evaluation of a bio-active bone cement for total hip arthroplasty. Medical & Biological Engineering & Computing 38:4, pages 401-405.
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Scott A. Yerby, Adam F. Paal, Phillip M. Young, Gary S. Beaupr�, Kevin L. Ohashi & Stuart B. Goodman. (2000) The effect of a silane coupling agent on the bond strength of bone cement and cobalt-chrome alloy. Journal of Biomedical Materials Research 49:1, pages 127-133.
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B Vázquez, M.P Ginebra, F.J Gil, J.A Planell, A López Bravo & J San Román. (1999) Radiopaque acrylic cements prepared with a new acrylic derivative of iodo-quinoline. Biomaterials 20:21, pages 2047-2053.
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L.E Jasper, H Deramond, J.M Mathis & S.M Belkoff. (1999) The effect of monomer-to-powder ratio on the material properties of cranioplastic. Bone 25:2, pages 27S-29S.
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S.M Belkoff, M Maroney, D.C Fenton & J.M Mathis. (1999) An in vitro biomechanical evaluation of bone cements used in percutaneous vertebroplasty. Bone 25:2, pages 23S-26S.
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Andreas H. Gomoll, Anuj Bellare, Wolfgang Fitz, Thomas S. Thornhill, Richard D. Scott, Peter R. Jemian & Gabrielle G. Long. (2011) A Nano-Composite Poly(Methyl-Methacrylate) Bone Cement. MRS Proceedings 581.
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B. Vazquez, J. San Roman, S. Deb & W. Bonfield. (1998) Application of long chain amine activator in conventional acrylic bone cement. Journal of Biomedical Materials Research 43:2, pages 131-139.
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M. A. Moharram, H. Higazy & S. Khalil. (1993) Infrared study of the interaction of acrylic bone cement with bone marrow. Journal of Materials Science 28:15, pages 4010-4014.
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Yasushi Taguchi, Takao Yamamuro, Takashi Nakamura, Naomi Nishimura, Tadashi Kokubo, Eiji Takahata & Satoru Yoshihara. (2004) A bioactive glass powder‐ammonium hydrogen phosphate composite for repairing bone defects. Journal of Applied Biomaterials 1:3, pages 217-223.
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Michael J. Askew, Mark F. Kufel, Paul R. Fleissner, Ivan A. Gradisar, Sara-Jane Salstrom & James S. Tan. (1990) Effect of vacuum mixing on the mechanical properties of antibiotic-impregnated polymethylmethacrylate bone cement2. Journal of Biomedical Materials Research 24:5, pages 573-580.
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C. T. Wang & R. M. Pilliar. (1989) Fracture toughness of acrylic bone cements. Journal of Materials Science 24:10, pages 3725-3738.
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P. Eyerer & R. Jin. (2004) Influence of mixing technique on some properties of PMMA bone cement. Journal of Biomedical Materials Research 20:8, pages 1057-1094.
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B. Pourdeyhimi, H. H. Robinson, P. Schwartz & H. D. Wagner. (1986) Fracture toughness of Kevlar 29/poly(methyl methacrylate) composite materials for surgical implantations. Annals of Biomedical Engineering 14:3, pages 277-294.
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W.L. Bargar, R.B. Martin, R. deJesus & M.T. Madison. (1986) The addition of tobramycin to contrast bone cement. The Journal of Arthroplasty 1:3, pages 165-168.
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O. Reiker�s. (1984) Mechanical effects of reaming and implantation of acrylic cement into the medullary cavity of bones. Archives of Orthopaedic and Traumatic Surgery 103:2, pages 120-124.
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S. Saha & S. Pal. (2004) Mechanical properties of bone cement: A review. Journal of Biomedical Materials Research 18:4, pages 435-462.
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Subrata Saha & Subrata Pal. (1984) Improvement of mechanical properties of acrylic bone cement by fiber reinforcement. Journal of Biomechanics 17:7, pages 467-478.
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P.C. Noble. (1983) Selection of acrylic bone cements for use in joint replacement. Biomaterials 4:2, pages 94-100.
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Subrata Palt & Subrata Saha. (1982) Stress relaxation and creep behaviour of normal and carbon fibre reinforced acrylic bone cement. Biomaterials 3:2, pages 93-96.
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Jürgen Rudigier & Ingo-Ernst Richter. (1977) Vergleichende Raster-Elektronenmikroskopische Untersuchungen von Knochenzementen mit unterschiedlichen KontrastmittelbeimengungenInfluence of X-ray contrast materials on the structure of bone cementsExpériences comparatives de ciments avec différents produits de contraste rajoutés, sous microscopie électronique. Unfallchirurgie 3:4, pages 233-242.
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H. U. Debrunner, A. Wettstein & P. Hofer. 1976. Engineering in Medicine. Engineering in Medicine 294 324 .

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