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  • Amprino R, Godina G (1947) La struttura delle osssa nei vertebrati: ricerche comparative negli anfibi e negli amnioti. Comment de Pontific Acad Scient 11, issue 9.
  • Arsenault AL (1990) Vascular canals in bovine cortical bone studied by corrosion casting. Calcif Tissue Int 47, 320325.
  • Ascenzi A, Bonucci E (1967) The tensile properties of single osteons. Anat Rec 158, 375386.
  • Ascenzi A, Bonucci E (1968) The compressive properties of single osteons. Anat Rec 161, 377392.
  • Bentolila V, Boyce TM, Fyhrie DP, Drumb R, Skerry TM, Schaffler MB (1998) Intracortical remodeling in adult rat long bones after fatigue loading. Bone 23, 275–281.
  • Biewener AA (1991) Musculoskeletal design in relation to body size. J Biomech 24, 1929.
  • Biewener AA (1992) Overview of structural mechanics. In Biomechanics – Structures and Systems (ed. BiewenerAA), pp. 120. Oxford: Oxford University Press.
  • Bolter DR, Zihlman AL (2003) Morphometric analysis of growth and development in wild-collected vervet monkeys (Cercopithecus aethiops), with implications for growth patterns in Old World monkeys, apes and humans. J Zool London 260, 99110.
  • Bouvier M, Hylander WL (1981) Effect of bone strain on cortical bone structure in macaques (Macaca mulatta). J Morphol 167, 112.
  • Bouvier M, Hylander WL (1996) The mechanical or metabolic function of secondary osteonal bone in the monkey Macaca fascicularis. Arch Oral Biol 41, 941950.
  • Boyde A, Riggs CM (1990) The quantitative study of the orientation of collagen in compact bone slices. Bone 11, 3539.
  • Bridgeman G, Brookes M (1996) Blood supply to the human femoral diaphysis in youth and senescence. J Anat 188 (Pt 3), 611621.
  • Bromage TG (1992) Microstructural organization and biomechanics of the macaque circumorbital region. In Structure, Function and Evolution of Teeth (eds SmithP, TchernovE), pp. 257272. London: Freund Publishing House Ltd.
  • Bromage TG, Boyde A (1998) Intracortical remodeling and growth of the macaque mandible. Scanning 20, 240.
  • Bromage TG, Boyde A (unpublished data) Preferential intracortical remodeling and growth of the macaque mandible: developmental constraints on growth and adaptation of bone.
  • Burr DB (1992) Estimated intracortical bone turnover in the femur of growing macaques: implications for their use as models in skeletal pathology. Anat Rec 232, 180189.
  • Burr DB (1993) Remodeling and the repair of fatigue damage. Calcif Tissue Int 53 (Suppl. 1), S7580; discussion S80–81.
  • Burr DB (2002) Targeted and nontargeted remodeling. Bone 30, 24.
  • Burr DB, Hirano T, Turner CH, Hotchkiss C, Brommage R, Hock JM (2001) Intermittently administered human parathyroid hormone(1–34) treatment increases intracortical bone turnover and porosity without reducing bone strength in the humerus of ovariectomized cynomolgus monkeys. J Bone Miner Res 16, 157165.
  • Burr DB, Martin RB (1993) Calculating the probability that microcracks initiate resorption spaces. J Biomech 26, 6136.
  • Burr DB, Martin RB, Schaffler MB, Radin EL (1985) Bone remodeling in response to in vivo fatigue microdamage. J Biomech 18, 189200.
  • Burr DB, Nishikawa RY, Van Gerven D (1989) Bone growth and remodeling in Cayo Santiago – derived Macaca mulatta. P R Health Sci J 8, 191196.
  • Burton P, Nyssen-Behets C, Dhem A (1989) Haversian bone remodelling in the human fetus. Acta Anat 135, 171175.
  • Carpenter CR (1940) A field study in Siam of the behavior and social relations of the gibbon (Hylobates lar). Comp Psychol Monogr 16, 1206.
  • Carter DR, Caler WE, Spengler DM, Frankel VH (1981) Fatigue behavior of adult cortical bone: the influence of mean strain and strain range. Acta Orthop Scand 52, 481490.
  • Compston JE (2002) Bone marrow and bone: a functional unit. J Endocrinol 173, 387394.
  • Currey JD (2002) Bones: Structure and Mechanics. Princeton: Princeton University Press.
  • Currey JD (2003) The many adaptations of bone. J Biomech 36, 14871495.
  • Demes B, Larson SG, Stern JTJ, Jungers WL, Biknevicius AR, Schmitt D (1994) The kinetics of primate quadrupedalism: ‘hindlimb drive’ reconsidered. J Hum Evol 26, 353374.
  • Doran DM (1996) Comparative positional behavior of the African apes. In Great Ape Societies (eds McgrewWC, MarchantLF, NishidaT), pp. 213224. Cambridge: Cambridge University Press.
  • Doran DM, Hunt KD (1994) Comparative locomotor behavior of chimpanzees and bonobos: Species and habitat differences. In Chimpanzee Cultures (eds WranghamRW, McgrewWC, De WaalFBM, HeltnePG), pp. 93108. Cambridge, MA: Harvard University Press.
  • Van Dyke D (1967) Similarity in distribution of skeletal blood flow and erythropoietic marrow. Clin Orthop Relat Res 52, 3751.
  • Enlow DH (1962a) A study of the post-natal growth and remodeling of bone. Am J Anat 110, 79101.
  • Enlow DH (1962b) Functions of the Haversian system. Am J Anat 110, 269305.
  • Enlow DH (1963) Principles of Bone Remodeling: An Account of Postnatal Growth and Remodeling Processes in Long Bones and the Mandible. Springfield: Charles C Thomas.
  • Enlow DH (1976) The remodeling of bone. Yearbook Phys Anthropol 20, 1934.
  • Enlow DH, Brown SO (1958) A comparative histological study of fossil and recent bone tissues. Part III. Tex J Sci 10, 187230.
  • Enlow DH, Hans MG (1996) Essentials of Facial Growth. Philadelphia: W.B. Saunders Company.
  • Feik S, Thomas CDL, Bruns R, Clement JG (2000) Regional variations in modeling in the femoral mid-shaft: sex and age differences. Am J Phys Anthropol 112, 191206.
  • Fleagle JG (1980) Locomotion and posture. In Malayan Forest Primates. Ten Year's Study in Tropical Rain Forest (ed. ChiversDJ), pp. 191207. New York: Plenum Press.
  • Francillon-Vieillot H, De Buffrenil V, Castanet J, et al . (1990) Microstructure and mineralization of vertebrate skeletal tissues. In Skeletal Biomineralization: Patterns, Processes and Evolutionary Trends (ed. CarterJG), pp. 471530. New York: Van Nostrand Reinhold.
  • Frost HM (1960) Presence of microscopic cracks in vivo in bone. Henry Ford Hosp Med Bull 8, 2535.
  • Frost HM (1986) Intermediary Organization of the Skeleton. Boca Raton: CRC Press.
  • Frost HM (1990) Skeletal structural adaptations to mechanical usage (SATMU): 2. Redefining Wolff's law: The remodeling problem. Anat Rec 226, 414422.
  • Frost HM (1998) On rho, a marrow mediator, and estrogen: their roles in bone strength and ‘mass’ in human females, osteopenias, and osteoporoses – insights from a new paradigm. J Bone Miner Metab 16, 113123.
  • Goldman HM, Kindsvater J, Bromage TG (1999) Correlative light and backscattered electron microscopy of bone – Part I: Specimen preparation methods. Scanning 21, 4043.
  • Goldman HM, Bromage TG, Thomas CDL, Clement JG (2003) Preferred collagen fiber orientation in the human mid-shaft femur. Anat Rec 272A, 434445.
  • Goldman HM, McFarlin SC, Cooper D, Thomas C, Clement JG (In press) Ontogenetic patterning of cortical bone microstructure and geometry at the human mid-shaft femur. Anat Rec.
  • Havill LM (2004) Osteon remodeling dynamics in Macaca mulatta: normal variation with regard to age, sex, and skeletal maturity. Calcif Tissue Int 74, 95102.
  • Kacena MA, Gundberg CM, Horowitz MC (2006) A reciprocal regulatory interaction between megakaryocytes, bone cells, and hematopoietic stem cells. Bone 39, 978984.
  • Kerley ER (1966) Skeletal age changes in the chimpanzee. Tulane Stud Zool 13, 7182.
  • Kimura T (1985) Bipedal and quadrupedal walking of primates: comparative dynamics. In Primate Morphophysiology, Locomotor Analyses and Human Bipedalism (ed. KondoS), pp. 81104. Tokyo: University of Tokyo Press.
  • Kimura T (1992) Hindlimb dominance during primate high-speed locomotion. Primates 33, 465476.
  • Kimura T, Okada M, Ishida H (1979) Kinesiological characteristics of primate walking: its significance in human walking. In Environment, Behavior, and Morphology: Dynamic Interactions in Primates (eds MorbeckME, PreuschoftH, GombergN), pp. 297311. New York: Gustav Fischer.
  • Lanyon LE, Magee PT, Baggott DG (1979) The relationship of functional stress and strain to the processes of bone remodelling. An experimental study on the sheep radius. J Biomech 12, 593600.
  • Lanyon LE, Goodship AE, Pye CJ, MacFie JH (1982) Mechanically adaptive bone remodelling. J Biomech 15, 141–154.
  • Lee TC, Staines A, Taylor D (2002) Bone adaptation to load: microdamage as a stimulus for bone remodelling. J Anat 201, 437–446.
  • 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, 31253135.
  • Main RP (2007) Ontogenetic relationships between in vivo strain environment, bone histomorphometry and growth in the goat radius. J Anat 210, 272–293.
  • Marotti G, Zallone AZ (1980) Changes in the vascular network during the formation of Haversian systems. Acta Anat 106, 84100.
  • Martin RB (2003) Fatigue microdamage as an essential element of bone mechanics and biology. Calcif Tissue Int 73, 101107.
  • Martin RB (2007) Targeted bone remodeling involves BMU steering as well as activation. Bone 40, 15741580.
  • Martin RB, Burr DB, Sharkey NA (1998) Skeletal Tissue Mechanics. New York: Springer.
  • McFarlin SC (2006) Ontogenetic variation in long bone microstructure in catarrhines and its significance for life history research. Anthropology. New York: City University of New York.
  • McMahon JM, Boyde A, Bromage TG (1995) Pattern of collagen fiber orientation in the ovine calcaneal shaft and its relation to locomotor-induced strain. Anat Rec 242, 147158.
  • Mori S, Burr DB (1993) Increased intracortical remodeling following fatigue damage. Bone 14, 103109.
  • Mulhern DM, Ubelaker DH (2003) Histologic examination of bone development in juvenile chimpanzees. Am J Phys Anthropol 122, 127133.
  • Mulhern DM, Ubelaker DH (2006) Bone microstructure in chimpanzees. Am J Phys Anthropol 129, 135.
  • Newell-Morris L, Sirianni JE (1982) Parameters of bone growth in the fetal and infant macaque (Macaca nemestrina) humerus as documented by trichromatic bone labels. In Factors and Mechanisms Influencing Bone Growth. New York: Alan R. Liss, Inc.
  • Paine RR (1994) Primate bone histomorphology and its relationship to biomechanical forces. In Anthropology. Amherst: University of Massachusettes Amherst.
  • Paine RR, Godfrey LR (1997) The scaling of skeletal microanatomy in non-human primates. J Zool London 241, 803821.
  • Parfitt AM (1994a) Osteonal and hemi-osteonal remodeling: the spatial and temporal framework for signal traffic in adult human bone. J Cell Biochem 55, 273286.
  • Parfitt AM (1994b) The two faces of growth: benefits and risks to bone integrity. Osteoporos Int 4, 382398.
  • Parfitt AM (2001) Skeletal heterogeneity and the purposes of bone remodeling: implications for the understanding of osteoporosis. In Osteoporosis (eds MarcusR, FeldmanD, KelseyJ), pp. 433447. 2nd edn. San Diego: Academic Press.
  • Parfitt AM (2002a) Misconceptions (2): turnover is always higher in cancellous than in cortical bone. Bone 30, 807809.
  • Parfitt AM (2002b) Targeted and nontargeted bone remodeling: relationship to basic multicellular unit organization and progression. Bone 30, 57.
  • Parfitt AM (2003) Misconceptions (3): calcium leaves bone only by resorption and enters only by formation. Bone 33, 259263.
  • Pearson OM, Lieberman DE (2004) The aging of Wolff's ‘law’: Ontogeny and responses to mechanical loading in cortical bone. Am J Phys Anthropol Suppl 39, 6399.
  • Pfeiffer S, Lazenby R, Chiang J (1995) Brief communication: cortical remodeling data are affected by sampling location. Am J Phys Anthropol 96, 8992.
  • Portigliatti Barbos M, Bianco P, Ascenzi A, Boyde A (1984) Collagen orientation in compact bone: II. Distribution of lamellae in the whole of the human femoral shaft with reference to its mechanical properties. Metab Bone Dis Relat Res 5, 309315.
  • Reynolds TR (1985) Stresses on the limbs of quadrupedal primates. Am J Phys Anthropol 67, 351362.
  • Rhinelander FW (1968) The normal microcirculation of diaphyseal cortex and its response to fracture. J Bone Joint Surg 50 A, 784800.
  • Ricqlès AD (1993) Some remarks on palaeohistology from a comparative evolutionary point of view. In Histology of Ancient Human Bone: Methods and Diagnosis (eds GrupeG, GarlandAN), pp. 3777. Berlin: Springer-Verlag.
  • 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.
  • Rose MD (1979) Positional behavior of natural populations: some quantitative results of a field study of Colobus guereza and Cercopithecus aethiops. In Environment, Behavior, and Morphology: Dynamic Interactions in Primates (eds MorbeckME, PreuschoftH & GombergN), pp. 7593. New York: Gustav Fischer.
  • Schaffler MB, Burr DB (1984) Primate cortical bone microstructure: Relationship to locomotion. Am J Phys Anthropol 65, 191197.
  • Schaffler MB, Burr DB, Jungers WL, Ruff CB (1985) Structural and mechanical indicators of limb specialization in primates. Folia Primatol 45, 6175.
  • Schaffler MB, Radin EL, Burr DB (1989) Mechanical and morphological effects of strain rate on fatigue of compact bone. Bone 10, 207214.
  • Schaffler MB, Radin EL, Burr DB (1990) Long-term fatigue behavior of compact bone at low strain magnitude and rate. Bone 11, 321–326.
  • Schmitt D, Hanna JB (2004) Substrate alters forelimb to hindlimb peak force ratios in primates. J Hum Evol 46, 239–254.
  • Skawina A, Gorczyca W (1984) The role of nutrient and periosteal blood vessels in the vascularization of the cortex of shafts of the long bones in human fetuses. Folia Morphol 43, 159164.
  • Skawina A, Litwin JA, Gorczyca J, Miodonski AJ (1994) The vascular system of human fetal long bones: a scanning electron microscope study of corrosion casts. J Anat 185 (Pt 2), 369376.
  • 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, 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, 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.
  • Smith JW (1960) Collagen fibre patterns in mammalian bone. J Anat 94, 329344.
  • Smith RJ, Jungers WL (1997) Body mass in comparative primatology. J Hum Evol 32, 523559.
  • Sokal RR, Rohlf FJ (1995) Biometry. New York: W.H. Freeman and Company.
  • Trias A, Fery A (1979) Cortical circulation of long bones. J Bone Joint Surg 61 A, 10521059.
  • Verborgt O, Gibson GJ, Schaffler MB (2000) Loss of osteocyte integrity in association with microdamage and bone remodeling after fatigue in vivo. J Bone Miner Res 15, 6067.
  • Warshaw J (2007) Primate bone microstructural variability: relationships to life history, mechanical adaptation and phylogeny. In Anthropology. New York: City University of New York.
  • Watts ES (1990) Evolutionary trends in primate growth and development. In Primate Life History and Evolution (ed. DerousseauCJ), pp. 89104. New York: Wiley-Liss, Inc.