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World's Poultry Science Journal Volume 61, 2005 - Issue 4
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Articles

Design of non-destructive methodologies to assess skeletal integrity in laying hens

M.A. Martínez-CummerDepartment of Animal & Poultry Science, University of Guelph, GuelphON, Canada
&
S. LeesonDepartment of Animal & Poultry Science, University of Guelph, GuelphON, CanadaCorrespondence[email protected]
Pages 583-598 | Received 05 Mar 2005, Accepted 18 Jul 2005, Published online: 23 Sep 2019

References

  • ABENDSCHEIN, W.F. and HYATT, G.W. (1970) Ultrasonics and selected physical properties of bone. Clinical Orthopedics 69: 294–301.
  • ABENDSCHEIN, W.F. and HYATT, G.W. (1972) Ultrasonics and the physical properties of healing bone. Journal of Trauma 12: 297–301.
  • AKPE, M.P., WAIBEL, P.E., LARNTZ, K., METZ, A.L., NOLL, S.L. and WALSER, M.M. (1987) Phosphorus availability bioassay using bone ash and bone densitometry as response criteria. Poultry Science 66: 713–720.
  • ASHMAN, R.B., COWIN, S.C., VAN BUSKIRK, W.C. and RICE, J.C. (1984) A continuous wave technique for the measurement of the elastic properties of cortical bone. Journal of Biomechanics 17: 349–361.
  • BARAN, D.T., FAULKNER, K.G. and GENANT, H.K. (1997) Diagnosis and measurement of osteoporosis: Guidelines for the utilization of bone densitometry. Calcified Tissue International 61: 433–440.
  • BARKMANN, R., KANTOROVICH, E., SINGAL, C., HANS, D., GENANT, H.K., HELLER, M. and GLÜER, C.C. (2000) A new method for quantitative ultrasound measurement at multiple skeletal sites. Journal of Clinical Densitometry 3: 1–7.
  • BROWN, S.A. and MAYOR, M.B. (1976) Ultrasonic assessment of early callus formation. Biomedical Engineering 11: 124–127.
  • BRUNTON, J.A., BAYLEY, H.S. and ATKINSON, S.A. (1993) Validation and application of dual energy x-ray absorptiometry to measure bone mass and body composition in small infants. American Journal of Clinical Nutrition 58: 839–845.
  • BUCHMAN, S.R. (1998) Use of micro-computed tomography scanning as a new technique for the evaluation of membranous bone. Journal of Craniofacial Surgery 9: 48–54.
  • CARSTANJEN, B., LEPAGE, O.M. and LANGLOIS, P. (1999) Quantitative ultrasound: a non-invasive method for bone assessment in Thoroughbred horses. Journal of Equine Veterinary Science 19: 556.
  • CRENSHAW, T.D., PEO, E.R. JR., LEWIS, A.J. and MOSER, B.D. (1981) Bone strength as a trait for assessing mineralization in swine: A critical review of techniques involved. Journal of Animal Science 53: 827–838.
  • CURREY, J. (1964) Three analogies to explain the mechanical properties of bone. Biorheology 2: 1–10.
  • DEDRICK, D.K. (1993) A longitudinal study of subchondral plate and trabecular bone in cruciate-deficient dogs with osteoarthritis followed up to 54 months. Arthritis and Rheumatology 36: 1460–1467.
  • ELAROUSSI, M.A., FORTE, L.R., EBER, S.L. and BIELLIER, H.V. (1994) Calcium homeostasis in the laying hen. 1. Age and dietary calcium effects. Poultry Science 73: 1581–1589.
  • FELDKAMP, L.A., GOLDSTEIN, S.A., PARFITT, A.M. JESION, G. and KLEEREKOPER, M. (1989) The direct examination of three dimensional bone architecture in vitro by computed tomography. Journal of Bone Mineral Research 4:3–11.
  • FLEMING, R.H., KORVER, D., MCCORMACK, H.A. and WHITEHEAD, C.C. (2004) assessing bone mineral density in vivo: digitized fluoroscopy and ultrasound. Poultry Science 83: 207–214.
  • FLEMING, R.H., MCCORMACK, H.A., MCTEIR, L. and WHITEHEAD, C.C. (1998) Medullary bone and humeral breaking strength in laying hens. Research in Veterinary Science 64: 63–67.
  • FLEMING, R.H., MCCORMACK, H.A. and WHITEHEAD, C.C. (2000) Prediction of breaking strength in osteoporotic avian bone using digitized fluoroscopy, a low cost radiographic technique. Calcified Tissue International 67: 309–313.
  • FLORIANI, L.P., NEILSON, M.D., DEBEVOISE, T. and HYATT, G.W. (1967) Mechanical properties of healing bone by the use of ultrasound. Surgery Forum 18: 468–470.
  • FOLDES, A.J., RIMON, A., KEINAN, D.D. and POPOVITZER, M.M. (1995) Quantitative ultrasound of the tibia: a novel approach for assessment of bone status. Bone 17: 363–376.
  • GENANT, H.K., LANG, T.F., ENGELKE, L.K., FUERST T., GLÜER, C.C., MAJUMDAR, S. and JERGAS, M.M. (1996) Advances in the non invasive assessment of bone density, quality, and structure. Calcified Tissue International 59: S10.
  • GERLANC, M., HADDAD, D., HYATT, G.W., LANGLOH, J.T. and ST. HILAIRE, P. (1975) Ultrasonic study of normal and fractured bone. Clinical Orthopaedics 111: 175–180.
  • GILL, P.J., KERNOHAN, G., MAWHINNEY, I.N., MOLLAN, R.A.B. and MCILHAGGER, R. (1989) Investigation of the mechanical properties of bone using ultrasound. Proceedings of the Institution of Mechanical Engineers. Part H. 203: 61–63.
  • GLÜER, C.C., WU, C.Y., JERGAS, M.H., GOLDSTEIN, S.A. and GENANT, H.K. (1993) Three quantitative ultrasound parameters reflect bone structure. Calcified Tissue International 55: 46–52.
  • GREENFIELD, M.A., CRAVEN, D.J., WISHKO, D.S., HUDDLESTON, A., FRIEDMAN, R. and STERN, R. (1975) The modulus of elasticity of human cortical bone: An in vivo measurement of bone using ultrasonography and its clinical applications. Radiology 115: 163–166.
  • GREENFIELD, M.A., CRAVEN, D.J., HUDDLESTON, A., KEHRER, M.L., WISHKO, D. and STERN, R. (1981) Measurement of the velocity in human cortical bone in vivo. Radiology 138: 701–710.
  • GREGG, E.W., KRISKA, A.M., SALAMONE, L.M., ROBERTS, M.M., ANDRESON, S.J., FERELL, R.E., KULLER, L.H. and CAULEY, J.A. (1997) The epidemiology of quantitative ultrasound: a review of relationships with bone mass, osteoporosis and fracture risk. Osteoporosis International 7: 89–99.
  • HANS, D., WU, C., NJEH, C.F., ZHAO, S., AUGAT, P., NEWITT, D., LINK, T., LU, Y., MAJUMDAR, S. and GENANT, H.K. (1999) Ultrasound velocity of trabecular cubes reflects mainly bone density and elasticity. Calcified Tissue International 64: 18–23.
  • HANS, D., FUERST, T. and DUBOEUF, F. (1997) Quantitative ultrasound bone measurement. European Radiology 7: S43–S50.
  • HANS, D., SCHOTT, A.M. and MEUNIER, P.J. (1993) Ultrasonic assessment of bone: a review. European Journal of Medicine 2: 157–163.
  • HEANEY, R.P., AVIOLI, L.V., CHESNUT, C.H., LAPPE, C.H., LAPPE, J., RECKER, R.R. and BRANDENBURGER, G.H. (1989) Osteoporotic bone fragility. Detection by ultrasound transmission velocity. Journal of the American Medical Association 261: 2986–2990.
  • HESTER, P.Y., SCHREIWEIS, M.A., ORBAN, J.L., MAZZUCO, H., KOPKA, M.N., LEDUR, M.C. and MOODY, D.E. (2004) Assessing bone mineral density in vivo: Dual energy xray absorptiometry. Poultry Science 83: 215–221.
  • HOLDSWORTH, D.W. and THORNTON, M.M. (2002) Micro-CT in small animal and specimen imaging. Trends in Biotechnology 20 (Supplement 8): S34–39.
  • ITO, M., NAKAMURA, T., MATSUMOTO, T., TSURUSAKI, K. and HAYASHI, K. (1998) Analysis of trabecular micro-architecture of human iliac bone using micro-computed tomography in patients with hip arthrosis with or without vertebral fracture. Bone 23: 163–169.
  • JEFFCOTT, L.B. and MCCARTHY, R.N. (1985) Ultrasound as a tool for assessment of bone quality in horses. Veterinary Record 116: 337–342.
  • KANN, P., SCHULZ, U., KLAUS, D., PIEPKORN, B. and BEYER, J. (1995) In vivo investigation of material quality of bone tissue by measuring apparent phalangeal ultrasound transmission velocity. Clinical Rheumatology 14: 26–34.
  • KAUFMAN, J.J. and EINHORN, T.A. (1993) Ultrasound assessment of bone. Journal of Bone and Mineral Research 8: 517–525.
  • KETCHAM, R.A. and CARLSON, W.D. (2001) Acquisition, optimization and interpretation of X-ray computed tomographic imagery: Applications to the geosciences. Computers & Geosciences 27: 381–400.
  • KORVER, D.R., SAUNDERS-BLADES, J.L. and NADEAU, K.L. (2004) Assessing bone mineral density in vivo. Quantitative Computed Tomography 83: 222–229.
  • KURTH, A.A. and MÜLLER R. (2001) The effect of an osteolytic tumour on the three dimensional trabecular bone morphology in an animal model. Skeletal Radiology 30: 94–98.
  • LANG, S.B. (1970) Ultrasonic method for measuring elastic coefficients of bone and results on fresh and dried bovine bones. IEEE Trans. Biomechanical Engineering 17: 101–105.
  • LANGTON, C.M., ALI, A.V., RIGGS, C.M., EVANS, G.P. and BONFIELD, W. (1990) A contact method for the assessment of ultrasonic velocity and attenuation in cortical and cancellous bone. Clinical Physics and Physiological Measurements 11: 243–249.
  • LEES, S. and DAVIDSON, C.L. (1977) The role of collagen in the elastic properties of calcified tissues. Journal of Biomechanics 10: 473–486.
  • LEPAGE, O.M., CARSTANJEM, B. and UEBELEHART, D. (2001) Non-invasive assessment of equine bone: an update. The Veterinary Journal 161: 10–23.
  • LILBURN, M.S. (1994) Skeletal growth of commercial poultry species. Poultry Science 73: 897–903.
  • LOWET, G. (1993) Vibration and ultrasound propagation analysis in long bones, Application to the monitoring of fracture healing and detection of osteoporosis, PhD Dissertation, K.U. Leuven, Belgium, September.
  • LOWET, G., RÜEGSEGGER, P., WEINANAS, H. and MEUNIER, A. (1997) In vivo and in vitro measurement of ultrasound velocity in cortical bone, in: Studies in Health Technology and Informatics (Lowet, G. P Rüegsegger. H Weinans. and A Meunier. eds) Vol. 40, IOS Press, Amsterdam, The Netherlands.
  • LOWET, G. and VAN DER PERRE, G. (1992) Monitoring of bone consolidation by ultrasound velocity measurement, Proc. of 14th Annual Conference of the IEEE Engineering in Medicine and Biology Society, pp 2129–2130 November, Paris, France.
  • LOWET, G. and VAN DER PERRE, G. (1996) Ultrasound velocity measurement in long bones: Measurement method and simulation of ultrasound wave propagation. Journal of Biomechanics 29: 1255–1262.
  • MARKEL, M.D., MORIN, R.L., WIKENHEISER, M.A., ROBB, R.A. and CHAO, E.Y.S. (1991) Multiplanar quantitative computed tomography for bone mineral analysis. American Journal of Veterinary Research 52: 1479–1483.
  • MITCHELL, R.W., ROSEBROUGH, R.W. and CONWAY, J.M. (1997) Body composition analysis of chickens by duel energy x-ray absorptiometry. Poultry Science 76: 1746–1752.
  • MÜLLER, R. and RÜEGSEGGER, P. (1997) Micro-tomographic imaging for the non-destructive evaluation of trabecular bone architecture, in: Bone Research in Biomechanics (G. Lowet, P. Rüegsegger, H. Weinans and A. Meunier eds) pp 61–80, IOS Press, Amsterdam, Netherlands.
  • NEWMAN, S. and LEESON, S. (1998) Effect of housing birds in cages or an aviary system on bone characteristics. Poultry Science 77: 1492–1496.
  • NJEH, C.F., BOIVIN, C.M. and LANGTON, C.M. (1997) The role of ultrasound in the assessment of osteoporosis: a review. Osteoporosis International 7: 7–22.
  • NJEH, C.F., HANS, D., WU, C., KANTOROVICH, E., SISTER, M., FUERST, T. and GENANT, H.K. (1999) An in vitro investigation of the dependence on sample thickness of the speed of sound along the specimen. Medical Engineering & Physics 21: 651–659.
  • ODGAARD, A. (1997) Three-dimensional methods for quantification of cancellous bone architecture. Bone 20: 315–328.
  • PACIFICI, R., RUPICH, R., GRIFFIN, M., CHINES, A., SUSMAN, N. and AVIOLI, L. (2000) Dual energy radiography versus quantitative for the diagnosis of osteoporosis. Journal of Clinical Endocrinology 70: 705–710.
  • PIERRET, A., CAPOWIEZ, Y., BELZUNCES, L. and MORAN, C.J. (2002) 3D reconstruction and quantification of macropores using X-ray computed tomography and image analysis. Geoderma 106: 247–271.
  • RICH, C., KLINIK, E., SMITH, R. and GRAHAM, B. (1966) Measurement of bone mass from ultrasonic transmission time. Proceedings of the Society for Experimental Biology and Medicine 123: 282.
  • ROWLAND, L.O. JR. and HARMS, R.H. (1972) Time required to develop bone fragility in laying hens. Poultry Science 51: 1339–1341.
  • ROWLAND, L.O. JR., HARMS, R.H., WILSON, H.R., ROSS, I.J. and FRY, J.L. (1967) Breaking strength of chick bones as an indication of dietary calcium and phosphorus adequacy. Proceedings of the Society for Experimental Biology and Medicine 126: 399–401.
  • RÜEGSEGGER, P., KOLLER, B. and MÜLLER, R. (1996) A micrographic system for the non-destructive evaluation of bone architecture. Calcified Tissue International 58: 24–29.
  • SAULGOZIS, J., PONTAGA, I., LOWET, G. and VAN DER PERRE, G. (1996) The effect of fracture and fracture fixation on ultrasonic velocity and attenuation. Physiological Measurements 17: 201–211.
  • SCHREIWEIS, M.A., ORBAN, J.I., LEDUR, M.C. and HESTER, P.Y. (2003) The use of densitometry to detect differences in bone mineral density and content of live white leghorns fed varying levels of dietary calcium. Poultry Science 82: 1292–1301.
  • SIEGEL, I.M., ANAST, G.T. and FIELDS, T. (1958) The determination of fracture healing by measurement of sound velocity across the fracture site. Surgical Gynecology & Obstetrics 107: 327–332.
  • STUART, A.J. (1991) Bone healing in the bird: A histological and radiological study of the humerus after osteotomy and fracture repair. M.Sc. Dissertation, p 149, Guelph, ON Canada.
  • TURNER, C.H. and EICH, M. (1991) Ultrasonic velocity as a predictor of strength in bovine cancellous bone. Calcified Tissue International 49: 116–119.
  • VAN BURSKIRK, W.C., COWIN, S.C. and WARD, R.N. (2000) Ultrasonic measurements of orthotropic elastic constants of bovine femoral bone. Journal of Biomechanical Engineering 103: 67–71.
  • VAN DER PERRE, G. and LOWET, G. (1996) In vivo assessment of bone mechanical properties by vibration and ultrasonic wave propagation analysis. Bone 18: 29S–35S.
  • WEISS, M., BEN-SHLOMO, A., HAGAG, P. and ISH-SHALOM, S. (2000) Discrimination of proximal hip fracture by quantitative ultrasound measurement at the radius. Osteoporosis International 11: 411–416.
  • WHITEHEAD, C.C. and FLEMING, R.H. (2000) Osteoporosis in cage layers. Poultry Science 79: 1033–1041.
  • YANG, R.S., LIN, C.H., HUANG, T.H. and LIN, S.J. (2001) Prediction of fracture load: A chicken tibia model of impending pathological fracture using ultrasound densitometry. Bone 28: S181.
  • YOON, H.S. and KATZ, J.L. (1976a) Ultrasonic wave propagation in human cortical bone I. Theoretical considerations for hexagonal symmetry. Journal of Biomechanics 9: 407–412.
  • YOON, H.S. and KATZ, J.L. (1976b) Ultrasonic wave propagation in human cortical bone. II. Measurement of elastic properties and microhardness. Journal of Biomechanics 9: 459–464.
  • ZERAHN, B., BORGWARDT, A., HEJSGARD, C. and LEMSER, T. (1996) Ultrasound and BMD measurements of the os calcis in normal Danish adults. European Journal of Experimental Musculoskeletal Research 4: 154–159.

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