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Acta Orthopaedica Scandinavica Volume 59, 1988 - Issue 4
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Original Article

Effects of preparation techniques on the porosity of acrylic cements

B. Willem Schreurs Biomechanics Section, Department of Orthopedics, University of Nijmegen, The Netherlands
,
Pieter T. J. Spierings Biomechanics Section, Department of Orthopedics, University of Nijmegen, The Netherlands
,
Rik Huiskes Biomechanics Section, Department of Orthopedics, University of Nijmegen, The Netherlands
&
Tom J. J. H. Slooff Biomechanics Section, Department of Orthopedics, University of Nijmegen, The Netherlands
Pages 403-409 | Published online: 08 Jul 2009

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MatthewH. Pelletier, Matthew Waites, Abe Lau, Matthew Kostiainen, WarwickJ. Bruce, Nicky Bertollo & WilliamR. Walsh. (2013) Viscosity of Bone Cement Influences Effectiveness of Vacuum Mixing. International Journal of Polymeric Materials and Polymeric Biomaterials 62:2, pages 95-100.
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Hans Mau, Katrin Schelling, Christian Heisel, Jian-Shang Wang & Steffen Breusch. (2004) Comparison of various vacuum mixing systems and bone cements as regards reliability, porosity and bending strength. Acta Orthopaedica Scandinavica 75:2, pages 160-172.
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Dick Hansen & Jørgen Steen Jensen. (1992) Mixing does not improve mechanical properties of all bone cements. Acta Orthopaedica Scandinavica 63:1, pages 13-18.
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Masafumi Morita & Hiroshi Aritomi. (1991) Bone cement not weakened by cefuzonam powder. Acta Orthopaedica Scandinavica 62:3, pages 232-237.
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Articles from other publishers (35)

L.D.T. Topoleski & R. Rodriguez-Pinto. 2017. Comprehensive Biomaterials II. Comprehensive Biomaterials II 12 33 .
Yoshio Yamaga, Mitsugu Kanatani & Shuichi Nomura. (2015) Usefulness of a rotation–revolution mixer for mixing powder–liquid reline material. Journal of Prosthodontic Research 59:1, pages 71-78.
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Jörg Jerosch, Jürgen Heisel & Carsten O. TibeskuCarsten O. Tibesku. 2015. Knieendoprothetik. Knieendoprothetik 135 221 .
A. Sydney Gladman, Asha-Dee N. Celestine, Nancy R. Sottos & Scott R. White. (2015) Autonomic Healing of Acrylic Bone Cement. Advanced Healthcare Materials 4:2, pages 202-207.
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N. Dunne, J. Clements & J-S. Wang. 2014. Joint Replacement Technology. Joint Replacement Technology 212 256 .
Klaus-Dieter KühnKlaus-Dieter Kühn. 2013. PMMA Cements. PMMA Cements 93 113 .
S. Gravius, T. Randau & D.C. Wirtz. (2011) Was tun, wenn die H?ftendoprothese versagt?What can be done when hip prostheses fail?. Der Orthop?de 40:12, pages 1084-1094.
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M. BALEANI & M. VICECONTI. (2011) The effect of adding 10% of barium sulphate radiopacifier on the mechanical behaviour of acrylic bone cement. Fatigue & Fracture of Engineering Materials & Structures 34:5, pages 374-382.
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L.D.T. Topoleski & R. Rodriguez-Pinto. 2011. Comprehensive Biomaterials. Comprehensive Biomaterials 11 28 .
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 .
Jian-Sheng Wang & Steffen J. Breusch. 2005. The Well-Cemented Total Hip Arthroplasty. The Well-Cemented Total Hip Arthroplasty 113 118 .
Jian-Sheng Wang. 2005. The Well-Cemented Total Hip Arthroplasty. The Well-Cemented Total Hip Arthroplasty 107 112 .
Frank R DiMaio. (2002) The Science of Bone Cement: A Historical Review. Orthopedics 25:12, pages 1399-1407.
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William Macaulay, Christopher W. DiGiovanni, Andres Restrepo, Khaled J. Saleh, Heather Walsh, Lawrence S. Crossett, Margaret G.E. Peterson, Stephen Li & Eduardo A. Salvati. (2002) Differences in bone–cement porosity by vacuum mixing, centrifugation, and hand mixing. The Journal of Arthroplasty 17:5, pages 569-575.
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Gladius Lewis & Michael Carroll. (2002) Rheological properties of acrylic bone cement during curing and the role of the size of the powder particles. Journal of Biomedical Materials Research 63:2, pages 191-199.
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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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Rebecca Eveleigh. (2017) Mixing Systems: and the Effects of Vacuum Mixing on Bone Cement. British Journal of Perioperative Nursing (United Kingdom) 11:3, pages 132-140.
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Mitchell H. Geiger, E. Michael Keating, Merrill A. Ritter, Jeffrey A. Ginther, Philip M. Faris & John B. Meding. (2001) The Clinical Significance of Vacuum Mixing Bone Cement. Clinical Orthopaedics and Related Research 382, pages 258-266.
Crossref
Jian-Sheng Wang & Fred Kjellson. 2001. Bone Cements and Cementing Technique. Bone Cements and Cementing Technique 81 95 .
K.-D. Kühn. 2001. Bone Cements and Cementing Technique. Bone Cements and Cementing Technique 17 26 .
B.A.O McCormack & P.J Prendergast. (1999) Microdamage accumulation in the cement layer of hip replacements under flexural loading. Journal of Biomechanics 32:5, pages 467-475.
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B.R. Furman & S. Saha. (1997) The mechanical properties of bone cement as controlled by processing technique: a critical review of the literature. The mechanical properties of bone cement as controlled by processing technique: a critical review of the literature.
STAFFAN SMEDS, DARRELL GOERTZEN & INGEMAR IVARSSON. (1997) Influence of Temperature and Vacuum Mixing on Bone Cement Properties. Clinical Orthopaedics and Related Research 334, pages 326???334.
Crossref
Gladius Lewis, Jeffry S. Nyman & Hai H. Trieu. (1997) Effect of mixing method on selected properties of acrylic bone cement. Journal of Biomedical Materials Research 38:3, pages 221-228.
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Gladius Lewis. (1997) Properties of acrylic bone cement: State of the art review. Journal of Biomedical Materials Research 38:2, pages 155-182.
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N.M.G. Kurdy, J.P. Hodgkinson & R. Haynes. (1996) Acrylic bone—cement. The Journal of Arthroplasty 11:7, pages 813-819.
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Scott G. Smith, J. Michael Kabo & Douglas J. Kilgus. (1996) Effects of distal femoral centralizers on bone—cement in total hip arthroplasty. The Journal of Arthroplasty 11:6, pages 687-692.
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Ekkehard W. Fritsch. (1996) Static and fatigue properties of two new low-viscosity PMMA bone cements improved by vacuum mixing. Journal of Biomedical Materials Research 31:4, pages 451-456.
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BAO McCormack, PJ Prendergast & DG Gallagher. (1996) An experimental study of damage accumulation in cemented hip prostheses. Clinical Biomechanics 11:4, pages 214-219.
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Jian‐Sheng Wang, Herbert Franzén, Søren Toksvig‐Larsen & Lars Lidgren. (2004) Does vacuum mixing of bone cement affect heat generation? Analysis of four cement brands. Journal of Applied Biomaterials 6:2, pages 105-108.
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Ture Kindt‐Larsen, Daniel B. Smith & Jørgen Steen Jensen. (2004) Innovations in acrylic bone cement and application equipment. Journal of Applied Biomaterials 6:1, pages 75-83.
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R. Huiskes. (1993) Mechanical failure in total hip arthroplasty with cement. Current Orthopaedics 7:4, pages 239-247.
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B. W. Schreurs, A. F. Bierkens, R. Huiskes, A. J. M. Hendrikx & T. J. J. H. Slooff. (2004) The effect of the extracorporeal shock wave lithotriptor on bone cement. Journal of Biomedical Materials Research 25:2, pages 157-164.
Crossref
Lars Lidgren, Sten Bengtson, Rolf Önnerfält, Elvira Dingeldein & Helmut Wahlig. 1990. Pathogenesis of Wound and Biomaterial-Associated Infections. Pathogenesis of Wound and Biomaterial-Associated Infections 493 500 .

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