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LITERATURE CITED

  • Alberts B,Johnson A,Lewis J,Raff M,Roberts K,Walter P. 2002. Molecular biology of the cell, 4th ed. New York: Garland Science.
  • Anderson AE,Medin DE,Bowden DC. 1974. Growth and morphometry of the carcass, selected bones, organs and glands of mule deer. Wildlife Monogr 39: 1122.
  • Banks EM. 1964. Some aspects of sexual behaviour in domestic sheep, Ovis aries. Behaviour 23: 249279.
  • Bertram JEA,Biewener AA. 1988. Bone curvature: sacrificing strength for load predictability? J Theor Biol 131: 7592.
  • Bertram JE,Swartz SM. 1991. The “law of bone transformation”: a case of crying Wolff? Biol Rev Camb Philos Soc 66: 245273.
  • Biewener AA,Swartz SM,Bertram JEA. 1986. Bone modeling during growth: dynamic strain equilibrium in the chick tibiotarsus. Calcif Tissue Int 39: 390395.
  • Biewener AA,Bertram JEA. 1993. Mechanical loading and bone growth in vivo. In: HallBK, editor. Bone, vol. 7: bone growth, B. Boca Raton, FL: CRC Press. p 136.
  • Boyce TM,Fyhrie DP,Glotkowski MC,Radin EL,Schaffler MB. 1998. Damage type and strain mode associations in human compact bone bending fatigue. J Orthop Res 16: 322329.
  • Burger E,Klein-Nulend J,Smit T. 2003. Strain-derived canalicular fluid flow regulates osteoclast activity in a remodelling osteon: a proposal. J Biomech 36: 14531459.
  • Burr DB. 2002. Targeted and nontargeted remodeling. Bone 30: 24.
  • Carrier DR. 1983. Postnatal ontogeny of the musculo-skeletal system in the black-tailed jack rabbit (Lepus californicus). J Zool Lond 201: 2755.
  • Carter DR,Hayes WC. 1977. Compact bone fatigue damage: a microscopic examination. Clin Orthop 127: 265274.
  • Carter DR,Wong M. 1988. Mechanical stresses and endochondral ossification in the chondroepiphysis. J Orthop Res 6: 148154.
  • Carter DR,van der Meulen MCH,Beaupré GS. 1996. Mechanical factors in bone growth and development. Bone 18: 5S10S.
  • Carter DH,Beaupré GS. 2001. Skeletal function and form: mechanobiology of skeletal development, aging, and regeneration. Cambridge: University of Cambridge.
  • Colopy SA,Benz-Dean J,Barrett JG,Sample SJ,Lu Y,Danova NA,Klalscheur VL,Vanderby RJr,Markel MD,Muir P. 2004. Response of the osteocyte syncytium adjacent to and distant from linear microcracks during adaptation to cyclic fatigue loading. Bone 35: 881891.
  • Currey JD. 2002. Bones: structure and mechanics. Princeton, NJ: Princeton University Press.
  • Currey JD. 2003. The many adaptations of bone. J Biomech 36: 14871495.
  • Dayton MR,Skedros JG,Bloebaum RD,Bachus KN. 1997. Investigation of the objectives of adaptation of a cortical tension/compression system through mechanical testing. Trans Orthop Res Soc 22: 817.
  • de Margerie E,Robin JP,Verrier D,Cubo J,Groscolas R,Castanet J. 2004. Assessing a relationship between bone microstructure and growth rate: a fluorescent labelling study in the king penguin chick (Aptenodytes patagonicus). J Exp Biol 207: 869879.
  • Dempster WT,Liddicoat RT. 1952. Compact bone as a non-isotropic material. Am J Anat 91: 331362.
  • Ehrlich PJ,Lanyon LE. 2002. Mechanical strain and bone cell function: a review. Osteoporos Int 13: 688700.
  • Ferretti M,Muglia MA,Remaggi F,Canè V,Palumbo C. 1999. Histomorphometric study on the osteocyte lacuno-canalicular network in animals of different species: II, parallel-fibered and lamellar bones. Ital J Anat Embryol 104: 121131.
  • Grubb P. 1974. The rut and behaviour of Soay rams. In: JewellPA,BoydeJM, editors. Island survivors. London: Athlone Press. p 195223.
  • Gunasekaran B,Constantz BR,Monjazeb M,Skedros JG,Bloebaum RD. 1991. An effective way of assessing crosslinks of collagenous proteins in biomaterials and tissues. Trans Soc Biomater 14: 139.
  • Hall BK. 1985. Introduction. In: MurrayPDF, editor. Bones. New York: Cambridge University Press. p 1132.
  • Heinrich RE,Ruff CB,Adamczewski JZ. 1999. Ontogenetic changes in mineralization and bone geometry in the femur of muskoxen (Ovibos moschatus). J Zool Lond 247: 215223.
  • Henderson JH,Carter DR. 2002. Mechanical induction in limb morphogenesis: the role of growth-generated strains and pressures. Bone 31: 645653.
  • Hiller LP,Stover SM,Gibson VA,Gibeling JC,Prater CS,Hazelwood SJ,Yeh OC,Martin RB. 2003. Osteon pullout in the equine third metacarpal bone: effects of ex vivo fatigue. J Orthop Res 21: 481488.
  • Holliday R. 1987. The inheritance of epigenetic defects. Science 238: 163.
  • Jones PA,Baylin SB. 2002. The fundamental role of epigenetic events in cancer. Nat Rev Genet 3: 415428.
  • Kassem M,Melton LJ,Riggs BL. 1996. The type I type II mode for involutional osteoporosis. In: MarcusR,FeldmanD,KelsayJ, editors. Osteoporosis. New York: Academic Press. p 691702.
  • Lanyon LE. 1974. Experimental support for the trajectorial theory of bone structure. J Bone Joint Surg 56B: 160166.
  • Les CM,Spence CA,Vance JL,Christopherson GT,Patel B,Turner AS,Divine GW,Fyhrie DP. 2004. Determinants of ovine compact bone viscoelastic properties: effects of architecture, mineralization, and remodeling. Bone 35: 729738.
  • Lieberman DE,Pearson OM,Polk JD,Demes B,Crompton AW. 2003. Optimization of bone growth and remodeling in response to loading in tapered mammalian limbs. J Exp Biol 206: 31253138.
  • Lovejoy CO,Heiple KG,Meindl RS,Ohman JC,White TD. 2002. The Maka femur and its bearing on the antiquity of human walking: applying contemporary concepts of morphogenesis to the human fossil record. Am J Phys Anthrop 119: 97133.
  • Lovejoy CO, Conn MJ, White TD. 2000. The evolution of mammalian morphology: a developmental perspective, chapter 3. In: Develpment, Growth and Evolution: Implications for the study of the hominid skeleton, eds. O'Higgins P and Cohn MJ, Academic press, NewYork, pgs 4155.
  • Lovejoy CO,McCollum MA, Reno PL,Rosenman BA. 2003. Developmental biology and human evolution. Ann Rev Anthropol 32: 85109.
  • Martin RB,Burr DB. 1989. Structure, function and adaptation of compact bone. New York: Raven Press.
  • Martin RB,Gibson VA,Stover SM,Gibeling JC,Griffin LV. 1996a. Osteonal structure in the equine third metacarpus. Bone 19: 165171.
  • Martin RB,Mathews PV,Lau ST,Gibson VA,Stover SM. 1996b. Collagen fiber organization is related to mechanical properties and remodeling in equine bone: a comparison of two methods. J Biomech 29: 15151521.
  • Martin RB,Gibson VA,Stover SM,Gibeling JC,Griffin LV. 1997. Residual strength of equine cortical bone is not reduced by intense fatigue loading: implications for stress fracture. J Biomech Eng 30: 109114.
  • Martin RB,Burr DB,Sharkey NA. 1998. Skeletal tissue mechanics. New York: Springer-Verlag.
  • Moehrle A,Paro R. 1994. Spreading the silence: epigenetic transcriptional regulation during Drosophila development. Dev Genet 15: 478484.
  • Moss ML. 1997. The functional matrix hypothesis revisited: I, the role of mechanotransduction. Am J Orthod Dentofac Orthop 112: 811.
  • Murray PDF. 1936. Bones: a study of the development and structure of the vertebrate skeleton. Cambridge: Cambridge University Press.
  • Newman E,Turner AS,Wark JD. 1995. The potential of sheep for the study of osteopenia: current status and comparison with other animal models. Bone 16: 277S284S.
  • Pearson OM,Lieberman DE. 2004. The aging of Wolff's law: ontogeny and responses to mechanical loading in cortical bone. Yrbk Phys Anthropol 47: 6399.
  • Reilly DT,Burstein AH. 1975. The elastic and ultimate properties of compact bone tissue. J Biomech 8: 393405.
  • Reilly GC,Currey JD. 1999. The development of microcracking and failure in bone depends on the loading mode to which it is adapted. J Exp Biol 202: 543552.
  • Reilly GC,Currey JD. 2000. The effects of damage of microcracking on the impact strength of bone. J Biomech 33: 337343.
  • Riggs CM,Lanyon LE,Boyde A. 1993. Functional associations between collagen fibre orientation and locomotor strain direction in cortical bone of the equine radius. Anat Embryol 187: 231238.
  • Rodriguez JI,Palacios J,Ruiz A,Sanchez M,Alvarez I,Demiguel E. 1992. Morphological changes in long bone development in fetal akinesia deformation sequence: an experimental study in curarized rat fetuses. Teratology 45: 213221.
  • Rodriguez EK,Munasinghe J,Snyder B. 2003. Dependence of joint development on limb motion: an in-vitro model of knee morphogenesis in the chick embryo. Trans Orthop Res Soc 28: 475.
  • Ruff C,Holt B,Trinkaus E. 2006. Who's afraid of the big bad Wolff? “Wolff's law” and bone functional adaptation. Am J Phys Anthropol 129: 484498.
  • Ryan TM,Krovitz GE. 2006. Trabecular bone ontogeny in the human proximal femur. J Hum Evol 51: 591602.
  • Schaffler MB,Burr DB,Jungers WL,Ruff CB. 1985. Structural and mechanical indicators of limb specialization in primates. Folia Primatol Basel 45: 6175.
  • Skedros JG,Mason MW,Nelson MC,Bloebaum RD. 1996. Evidence of structural and material adaptation to specific strain features in cortical bone. Anat Rec 246: 4763.
  • Skedros JG,Su SC,Bloebaum RD. 1997. Biomechanical implications of mineral content and microstructural variations in cortical bone of horse, elk, and sheep calcanei. Anat Rec 249: 297316.
  • Skedros JG,Kuo TY. 1999. Ontogenetic changes in regional collagen fiber orientation suggest a role for variant strain stimuli in cortical bone construction. J Bone Miner Res 14: S441.
  • Skedros JG,Mason MW,Bloebaum RD. 2001. Modeling and remodeling in a developing artiodactyl calcaneus: a model for evaluating Frost's mechanostat hypothesis and its corollaries. Anat Rec 263: 167185.
  • Skedros JG,Sybrowsky CL,Dayton MR,Bloebaum RD,Bachus KN. 2003. The role of osteocyte lacuna population density on the mechanical properties of cortical bone. Trans Orthop Res Soc 28: 414.
  • Skedros JG,Hunt KJ,Bloebaum RD. 2004. Relationships of loading history and structural and material characteristics of bone: development of the mule deer calcaneus. J Morphol 259: 281307.
  • Skedros JG,Dayton MR,Sybrowsky CL,Bloebaum RD,Bachus K. 2006a. The Influence of collagen fiber orientation and other histocompositional characteristics on the mechanical properties of equine cortical bone. J Exp Biol 209: 30253042.
  • Skedros JG,Mendenhall SD,Anderson WE,Gubler KE,Hoopes JV,Sorenson SM. 2006b. Osteon phenotypic morphotypes: a new characteristic for interpreting bone quality in cortical bone. Chicago, Illinois: 52nd annual meeting of the Orthopaedic Research Society. p 1600.
  • Skedros JG,Sorenson SM,Takano Y,Turner CH. 2006c. Dissociation of mineral and collagen orientations may differentially adapt compact bone for regional loading environments: results from acoustic velocity measurements in deer calcanei. Bone 39: 143151.
  • Skedros J,Baucom S. 2007. Mathematical analysis of trabecular “trajectories” in apparent trajectorial structures: the unfortunate historical emphasis on the human proximal femur. J Theor Biol 244: 1545.
  • Skerry TM,Bitensky L,Chayen J,Lanyon LE. 1988. Loading-related reorientation of bone proteoglycan in vivo: strain memory in bone tissue? J Orthop Res 6: 547551.
  • Skerry T,Suswillo R,El Hay AJ,Ali NN,Dodds RA,Lanyon LE. 1990. Load-induced proteoglycan orientation in bone tissue in vivo and in vitro. Calcif Tiss Int 46: 318326.
  • Skerry TM,Lanyon LE. 1995. Interruption of disuse by short duration walking exercise does not prevent bone loss in the sheep calcaneus. Bone 16: 269274.
  • Skerry T. 2000. Biomechanical influences on skeletal growth and development. In: O'HigginsP,CohnMJ, editors. Development, growth, and evolution: implications for the study of the hominid skeleton. San Diego, CA: Academic Press. p 2940.
  • Starck JM,Chinsamy A. 2002. Bone microstructure and developmental plasticity in birds and other dinosaurs. J Morphol 254: 232246.
  • Su S. 1998. Microstructure and mineral content correlations to strain parameters in cortical bone of the artiodactyl calcaneus. Salt Lake City, UT: University of Utah.
  • Su SC,Skedros JG,Bachus KN,Bloebaum RD. 1999. Loading conditions and cortical bone construction of an artiodactyl calcaneus. J Exp Biol 202 Pt 22: 32393254.
  • Suzuki S,Renfree MB,Pask AJ,Shaw G,Kobayashi S,Kohda T,Kaneko-Ishino T,Ishino F. 2005. Genomic imprinting of IGF2, p57(KIP2) and PEG1/MEST in a marsupial, the tammar wallaby. Mech Dev 122: 213222.
  • Szczesniak AM,Gilbert RW,Mukhida M,Anderson GI. 2005. Mechanical loading modulates glutamate receptor subunit expression in bone. Bone 37: 6373.
  • Takano Y,Turner CH,Owan I,Martin RB,Lau ST,Forwood MR,Burr DB. 1999. Elastic anisotropy and collagen orientation of osteonal bone are dependent on the mechanical strain distribution. J Orthop Res 17: 5966.
  • Tanck E,Hannink G,Ruimerman R,Buma P,Burger EH,Huiskes R. 2006. Cortical bone development under the growth plate is regulated by mechanical load transfer. J Anat 208: 7379.
  • Thomas T,Vico L,Skerry TM,Caulin F,Lanyon LE,Alexandre C,Lafage MH. 1996. Architectural modifications and cellular response during disuse-related bone loss in calcaneus of the sheep. J Appl Physiol 80: 198202.
  • van der Meulen MCH,AshfordJr.MW,Kiratli BJ,Bachrach LK,Carter DR. 1996. Determinants of femoral geometry and structure during adolescent growth. J Orthop Res 14: 2229.
  • Wolpert L,Beddington R,Brockes J,Jessell T,Lawrence P,Meyerowitz E. 2002. Principles of development. Oxford: Oxford University Press.
  • Wong M. 1992. The role of mechanical loading in early long bone osteogenesis: an in vivo approach. In: CarlsonDS,GoldsteinSA, editors. Bone eiodynamics in orthodontic and orthopaedic treatment. Ann Arbor, MI: Center for Human Growth and Development. pgs 111121.