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Influence of three different preservative techniques on the mechanical properties of the ovine cortical bone

Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: Preservative treatments are necessary for disinfection and long term storage when dealing with biological tissue. Freezing is a gold standard but infectious risk can only be eliminated by using chemical fluids that may alter the mechanical properties, depending on their composition. Therefore, we experimentally evaluated the influence of freezing and of two commonly used preservative fluids (formalin and alcohol) on the intrinsic mechanical properties of ovine cortical bone samples, compared to purely fresh samples. Methods: Prismatic specimens were prepared from the sheep’s metacarpal bones and were divided into four groups (fresh, fresh-frozen, formalin and alcohol). All samples underwent four-point-bending; fresh samples were tested immediately, preserved samples were tested after 14 days. Bending modulus, bending strength, yield strength and energy absorption for the elastic and plastic region were determined. Results: Significant differences were found for the plastic energy absorption for formalin (–41%) and alcohol (+37%) preservation compared to fresh samples. Formalin preservation revealed embrittlement of the cortical bone samples and alcohol preservation revealed higher ability of plastic energy absorption. Conclusions: Our results indicate that freezing has no influence on the mechanical properties of the ovine cortical bone. Preservation with chemical fluids (formalin and alcohol) showed no influence on the elastic properties but it was observed for the ability of plastic energy absorption. Therefore, these methods seem to be suitable for preservation without evident altering of the elastic mechanical properties.
Rocznik
Strony
137--146
Opis fizyczny
Bibliogr. 18 poz., rys., tab., wykr.
Twórcy
autor
  • Biomechanics and Implant Technology Research Laboratory, Department of Orthopaedics, University Medicine Rostock, Germany
autor
  • Biomechanics and Implant Technology Research Laboratory, Department of Orthopaedics, University Medicine Rostock, Germany
autor
  • Department of Anatomy, University Medicine Rostock, Germany
autor
  • Department of Anatomy, University Medicine Rostock, Germany
Bibliografia
  • [1] ATHANASIOU K.A., ZHU C.F., LANCTOT D.R., AGRAWAL C.M., WANG X., Fundamentals of biomechanics in tissue engineering of bone, Tissue Engineering, 2000, 6(4), 361–381.
  • [2] BURKHART K.J., NOWAK T.E., BLUM J., KUHN S., WELKER M., STERNSTEIN W. et al., Influence of formalin fixation on the biomechanical properties of human diaphyseal bone, Biomed. Tech. (Berl.), 2010, 55(6), 361–365.
  • [3] CURREY J.D., BREAR K., ZIOUPOS P., REILLY G.C., Effect of formaldehyde fixation on some mechanical properties of bovine bone, Biomaterials, 1995, 16(16), 1267–1271.
  • [4] GOH J.C., ANG E.J., BOSE K., Effect of preservation medium on the mechanical properties of cat bones, Acta Orthop. Scand., 1989, 60(4), 465–467.
  • [5] HAMER A.J., STRACHAN J.R., BLACK M.M., IBBOTSON C.J., STOCKLEY I., ELSON R.A., Biochemical properties of cortical allograft bone using a new method of bone strength measurement. A comparison of fresh, fresh-frozen and irradiated bone, J. Bone Joint Surg. Br., 1996, 78(3), 363–368.
  • [6] KAYE B., RANDALL C., WALSH D., HANSMA P., The effects of freezing on the mechanical properties of bone, Open Bone J., 2012, 4(1), 14–19.
  • [7] KIKUGAWA H., ASAKA T., Effect of long-term formalin preservation on bending properties and fracture toughness of bovine compact bone, Materials Transactions, 2004, 45(10), 3060–3064.
  • [8] KUNINORI M., KIKUGAWA H., ASAKA T., KASUYA H., Effect of Different Preservative Methods on Fracture Behavior of Bovine Cortical Bone, Materials Transactions, 2009, 50(2), 305–312.
  • [9] LINDE F., SORENSEN H.C., The effect of different storage methods on the mechanical properties of trabecular bone, J. Biomech., 1993, 26(10), 1249–1252.
  • [10] MATTER H.P., GARREL T.V., BILDERBEEK U., MITTELMEIER W., Biomechanical examinations of cancellous bone concerning the influence of duration and temperature of cryopreservation, J. Biomed. Mater. Res., 2001, 55(1), 40–44.
  • [11] MCELHANEY J., FOGLE J., BYARS E., WEAVER G., Effect of embalming on the mechanical properties of beef bone, J. Appl. Physiol., 1964, 19, 1234–1236.
  • [12] NAZARIAN A., HERMANNSSON B.J., MULLER J., ZURAKOWSKI D., SNYDER B.D., Effects of tissue preservation on murine bone mechanical properties, J. Biomech., 2009, 42(1), 82–86.
  • [13] NYMAN J.S., ROY A., SHEN X., ACUNA R.L., TYLER J.H., WANG X., The influence of water removal on the strength and toughness of cortical bone, J. Biomech, 2006, 39(5), 931–938.
  • [14] OHMAN C., DALL’ARA E., BALEANI M., VAN SINT J.S., VICECONTI M., The effects of embalming using a 4% formalin solution on the compressive mechanical properties of human cortical bone, Clin. Biomech. (Bristol, Avon.), 2008, 23(10), 1294–1298.
  • [15] TOPP T., MULLER T., HUSS S., KANN P.H., WEIHE E., RUCHHOLTZ S., ZETTL R.P., Embalmed and fresh frozen human bones in orthopedic cadaveric studies: which bone is authentic and feasible? Acta Orthop., 2012, 83(5), 543–547.
  • [16] TURNER C.H., BURR D.B., Basic Biomechanical Measurements of Bone – A Tutorial, Bone, 1993, 14(4), 595–608.
  • [17] UNGER S., BLAUTH M., SCHMOELZ W., Effects of three different preservation methods on the mechanical properties of human and bovine cortical bone, Bone, 2010, 47(6), 1048–1053.
  • [18] VAN HAAREN E.H., VAN DER ZWAARD B.C., VAN DER VEEN A.J., HEYLIGERS I.C., WUISMAN P.I., SMIT T.H., Effect of longterm preservation on the mechanical properties of cortical bone in goats, Acta Orthop., 2008, 79(5), 708–716.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3e1b09e1-22e9-4997-96d5-bec4bbf91df1
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