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  • Abzhanov A, Rodda SJ, McMahon AP, Tabin CJ. 2007. Regulation of skeletogenic differentiation in cranial dermal bone. Development 134:31333144.
  • Al-Aql ZS, Alagl AS, Graves DT, Gerstenfeld LC, Einhorn TA. 2008. Molecular mechanisms controlling bone formation during fracture healing and distraction osteogenesis. J Dent Res 87:107118.
  • Amizuka N, Hasegawa T, Oda K, Luiz de Freitas P, Hoshi K, Li M, Ozawa H. 2012. Histology of epiphyseal cartilage calcification and endochondral ossification. Front Biosci 4:20852100.
  • Aronson J, Good B, Stewart C, Harrison B, Harp J. 1990. Preliminary studies of mineralization during distraction osteogenesis. Clin Orthopaed Relat Res 250:4349.
  • Aronson J. 1994. Temporal and spatial increases in blood flow during distraction osteogenesis. Clin Orthopaed Relat Res 301:124131.
  • Balczerski B, Zakaria S, Tucker A, Borycki A, Koyama E, Pacifici M, Francis-West P. 2012. Distinct spatiotemporal roles of hedgehog signalling during chick and mouse cranial base and axial skeleton development. Dev Biol 371:203214.
  • Bloom W, Fawcett DW. 1994. A Textbook of Histology. New York, NY: Chapman & Hall.
  • Bouletreau PJ, Warren SM, Spector JA, Peled ZM, Gerrets RP, Greenwald JA, Longaker MT. 2002. Hypoxia and VEGF up-regulate BMP-2 mRNA and protein expression in microvascular endothelial cells: implications for fracture healing. Plast Reconstruct Surg 109:23842397.
  • Boyde A, Shapiro IM. 1987. Morphological observations concerning the pattern of mineralization of the normal and the rachitic chick growth cartilage. Anat Embryol 175:457466.
  • Brandi ML, Collin-Osdoby P. 2006. Vascular biology and the skeleton. J Bone Miner Res 21:183192.
  • Brookes M, Revell WJ. 1998. Blood supply of bone. London: Springer.
  • Caplan AI, Syftestad G, Osdoby P. 1983. The development of embryonic bone and cartilage in tissue culture. Clin Orthopaed Relat Res 174:243263.
  • Choi IH, Ahn JH, Chung CY, Cho TJ. 2000. Vascular proliferation and blood supply during distraction osteogenesis: a scanning electron microscopic observation. J Orthopaed Res 18:698705.
  • Choi IH, Chung CY, Cho TJ, Yoo WJ. 2002. Angiogenesis and mineralization during distraction osteogenesis. J Kor Med Sci 17:435447.
  • Chun Y, Kim M, Park J. 2002. Oxygen-dependent and -independent regulation of HIF-1alpha. J Kor Med Sci 17:581588.
  • Collin-Osdoby P. 1994. Role of vascular endothelial cells in bone biology. J Cell Biochem 55:304309.
  • Colnot C. 2009. Skeletal cell fate decisions within periosteum and bone marrow during bone regeneration. J Bone Miner Res 24:274282.
  • Colnot C, Lu C, Hu D, Helms JA. 2004. Distinguishing the contributions of the perichondrium, cartilage, and vascular endothelium to skeletal development. Dev Biol 269:5569.
  • Colnot C, De la Fuente L, Huang S, Hu D, Lu C, St-Jacques B, Helms JA. 2005. Indian hedgehog synchronizes skeletal angiogenesis and perichondrial maturation with cartilage development. Development 132:10571067.
  • Colnot C, Zhang X, Tate MLK. 2012. Current insights on the regenerative potential of the periosteum: Molecular, cellular, and endogenous engineering approaches. J Orthopaed Res 30:18691878.
  • Dai J, Rabie A. 2007. VEGF: an essential mediator of both angiogenesis and endochondral ossification. J Dent Res 86:937950.
  • Delloye C, Delefortrie G, Coutelier L, Vincent A. 1990. Bone regenerate formation in cortical bone during distraction lengthening: an experimental study. Clin Orthopaed Relat Res 250:3442.
  • Depew MJ, Tucker AS, Sharpe PT. 2002. Craniofacial development. In: Rossant J, Tam PPL, editors. Mouse development, patterning, morphogenesis, and organogenesis. San Diego: Academic Press. p 421498.
  • De Spiegelaere W, Cornillie P, Casteleyn C, Burvenich C, Van Den Broeck W. 2010. Detection of hypoxia inducible factors and angiogenic growth factors during foetal endochondral and intramembranous ossification. Anatomia, Histologia, Embryologia 39:376384.
  • Dietrich EM, Antoniades K. 2012. Bone-vasculature interactions in the mandible: Is bone an angiogenic tissue? Medical Hypotheses 79:582584.
  • Drushel RF, Pechak DG, Caplan AI. 1985. The anatomy, ultrastructure and fluid dynamics of the developing vasculature of the embryonic chick wing bud. Cell Differ 16:1328.
  • Eames BF, Helms JA. 2004. Conserved molecular program regulating cranial and appendicular skeletogenesis. Dev Dyn 231:413.
  • Eames BF, De La Fuente L, Helms JA. 2003. Molecular ontogeny of the skeleton. Birth Defects Rest A 69:93101.
  • Eghbali-Fatourechi GZ, Mödder UIL, Charatcharoenwitthaya N, Sanyal A, Undale AH, Clowes JA, Tarara JE, Khosla S. 2007. Characterization of circulating osteoblast lineage cells in humans. Bone 40:13701377.
  • Enlow D. 2000. Normal craniofacial growth. In: Cohen Jr MM, MacLean RE, editors. Craniosynostosis: diagnosis, evaluation, and management. 2nd ed. New York: Oxford University Press. p 3547.
  • Eriksen EF, Eghbali-Fatourechi GZ, Khosla S. 2007. Remodeling and vascular spaces in bone. J Bone Miner Res 22:16.
  • Eshkar-Oren I, Viukov SV, Salameh S, Krief S, Oh C, Akiyama H, Gerber HP, Ferrara N, Zelzer E. 2009. The forming limb skeleton serves as a signaling center for limb vasculature patterning via regulation of Vegf. Development 136:12631272.
  • Fang TD, Salim A, Xia W, Nacamuli RP, Guccione S, Song HJM, Carano RA, Filvaroff EH, Bednarski MD, Giaccia AJ, Longaker MT. 2005. Angiogenesis is required for successful bone induction during distraction osteogenesis. J Bone Miner Res 20:11141124.
  • Feinberg RN, Latker CH, Beebe DC. 1986. Localized vascular regression during limb morphogenesis in the chicken embryo. I. Spatial and temporal changes in the vascular pattern. Anat Rec 214:405409.
  • Fujikawa Y, Quinn J, Sabokbar A, McGee J, Athanasou N. 1996. The human osteoclast precursor circulates in the monocyte fraction. Endocrinology 137:40584060.
  • Gerber HP, Vu TH, Ryan AM, Kowalski J, Werb Z, Ferrara N. 1999. VEGF couples hypertrophic cartilage remodeling, ossification and angiogenesis during endochondral bone formation. Nature Med 5:623628.
  • Grellier M, Bordenave L, Amedee J. 2009. Cell-to-cell communication between osteogenic and endothelial lineages: implications for tissue engineering. Trends Biotechnol 27:562571.
  • Hall BK. 2005. Bones and cartilage: developmental and evolutionary skeletal biology. New York: Academic Press.
  • Hansen ES. 1993. Microvascularization, osteogenesis, and myelopoiesis in normal and pathological conditions. In: Schoutens A, Arlet J, Gardeniers JWM, Hughes SPF, editors. Bone circulation and vascularization in normal and pathological conditions. NATO ASI Series A: Life Sciences. New York: Plenum Press. p 2942.
  • Heaney RP. 2008. Calcium. In: Principles of bone biology, Vol.2, 3rd ed. San Diego: Academic Press. p 16971710.
  • Hunter WL, Arsenault AL, Hodsman AB. 1991. Rearrangement of the metaphyseal vasculature of the rat growth plate in rickets and rachitic reversal: a model of vascular arrest and angiogenesis renewed. Anat Rec 229:453461.
  • Iseki S, Wilkie A, Heath J, Ishimaru T, Eto K, Morriss-Kay G. 1997. Fgfr2 and osteopontin domains in the developing skull vault are mutually exclusive and can be altered by locally applied FGF2. Development 124:33753384.
  • Jiang X, Iseki S, Maxson RE, Sucov HM, Morriss-Kay GM. 2002. Tissue origins and interactions in the mammalian skull vault. Dev Biol 241:106116.
  • Jourdeuil K, Franz-Odendaal TA. 2012. Vasculogenesis and the induction of skeletogenic condensations in the avian eye. Anat Rec 295:691698.
  • Kanczler J, Oreffo R. 2008. Osteogenesis and angiogenesis: the potential for engineering bone. Eur Cells Mater 15:100114.
  • Karaplis AC. 2008. Embryonic development of bone and regulation of intramembranous and endochondral bone formation. In: Bilezikian JP, Raisz LG, Martin TJ, editors. Principles of bone biology, Vol.1, 3rd ed. New York: Academic Press. p 5384.
  • Kawaguchi H, Nakamura K, Tabata Y, Ikada Y, Aoyama I, Anzai J, Nakamura T, Hiyama Y, Tamura M. 2001. Acceleration of fracture healing in nonhuman primates by fibroblast growth factor-2. J Clin Endocrinol Metab 86:875880.
  • Kish PE, Bohnsack BL, Gallina D, Kasprick DS, Kahana A. 2011. The eye as an organizer of craniofacial development. Genesis 49:222230.
  • Komori T, Yagi H, Nomura S, Yamaguchi A, Sasaki K, Deguchi K, Shimizu Y, Bronson R, Gao Y-H, Inada M, Sato M, Okamoto R, Kitamura Y, Yoshiki S, Kishimoto T. 1997. Targeted disruption of Cbfa1 results in a complete lack of bone formation owing to maturational arrest of osteoblasts. Cell 89:755764.
  • Kronenberg HM. 2003. Developmental regulation of the growth plate. Nature 423:332336.
  • Kuettner KE, Pauli BU, Hall BK. 1983. Vascularity of cartilage. In: Cartilage. Vol.1. New York: Academic Press. p 281312.
  • Lana-Elola E, Rice R, Grigoriadis AE, Rice DPC. 2007. Cell fate specification during calvarial bone and suture development. Dev Biol 311:335346.
  • Langenfield EM, Langenfield J. 2004. Bone morphogenetic protein-2 stimulates angiogenesis in developing tumors. Mol Cancer Res 2:141149.
  • Levin M, Ewald AJ, McMahon M, Werb Z, Mostov K. 2007. A model of intussusceptive angiogenesis. In: Chadwick DJ, Goode J, editors. Vascular development. Chichster, UK: John Wiley and Sons. p 3745.
  • Lewinson D, Silbermann M. 1992. Chondroclasts and endothelial cells collaborate in the process of cartilage resorption. Anat Rec 233:504514.
  • Liu Y, Tang Z, Kundu RK, Wu L, Luo W, Zhu D, Sangiorgi F, Snead ML, Maxson Jr RE. 1999. Msx2 gene dosage influences the number of proliferative osteogenic cells in growth centers of the developing murine skull: a possible mechanism for MSX2-mediated craniosynostosis in humans. Dev Biol 205:206274.
  • Liu Z, Lavine KJ, Hung IH, Ornitz DM. 2007. FGF18 is required for early chondrocyte proliferation, hypertrophy and vascular invasion of the growth plate. Dev Biol 302:8091.
  • Mackie E, Ahmed Y, Tatarczuch L, Chen KS, Mirams M. 2008. Endochondral ossification: how cartilage is converted into bone in the developing skeleton. Int J Biochem Cell Biol 40:4662.
  • Maes C, Kobayashi T, Selig MK, Torrekens S, Roth SI, Mackem S, Carmeliet G, Kronenberg HM. 2010. Osteoblast precursors, but not mature osteoblasts, move into developing and fractured bones along with invading blood vessels. Dev Cell 19:329344.
  • Marks SC, Odgren PR. 2002. Structure and development of the skeleton. In: Bilezikian JP, Raisz LG, Rodan GA, editors. Principles of bone biology. San Diego: Academic Press. p 316.
  • Matsubara H, Hogan DE, Morgan EF, Mortolock DP, Einhorn TA, Gerstenfeld LC. 2012. Vascular tissues are a primary source of BMP2 expression during bone formation induced by distraction osteogenesis. Bone 51:168180.
  • McBratney-Owen B, Iseki S, Bamforth SD, Olsen BR, Morriss-Kay GM. 2008. Development and tissue origins of the mammalian cranial base. Dev Biol 322:121132.
  • Murray PDF. 1985. Bones: a study of the development and structure of the vertebrate skeleton. Cambridge, UK: Cambridge University Press.
  • Nakamura H, Yukita A, Ninomiya T, Hosoya A, Hiraga T, Ozawa H. 2010. Localization of Thy-1–positive cells in the perichondrium during endochondral ossification. J Histochem Cytochem 58:455462.
  • Noden DM, Trainor PA. 2005. Relations and interactions between cranial mesoderm and neural crest populations. J Anat 207:575601.
  • Opperman LA, Rawlins JT. 2005. The extracellular matrix environment in suture morphogenesis and growth. Cells Tissues Organs 181:127135.
  • Otto F, Thornell AP, Crompton T, Denzel A, Gilmour KC, Rosewell IR, Stamp GW, Beddington RS, Mundlos S, Olsen BR, Selby PB, Owen MJ. 1997. Cbfa1, a candidate gene for cleidocranial dysplasia syndrome, is essential for osteoblast differentiation and bone development. Cell 89:765771.
  • Parfitt A. 2000. The mechanism of coupling: a role for the vasculature. Bone 26:319323.
  • Parfitt A. 2001. The bone remodeling compartment: a circulatory function for bone lining cells. J Bone Miner Res 16:15831585.
  • Patel J, Landers K, Mortimer R, Richard K. 2010. Regulation of hypoxia inducible factors (HIF) in hypoxia and normoxia during placental development. Placenta 31:951957.
  • Percival CJ. 2013. The influence of angiogenesis on craniofacial development and evolution. PhD dissertation. University Park, PA: Penn State University.
  • Pignolo RJ, Kassem M. 2011. Circulating osteogenic cells: implications for injury, repair, and regeneration. J Bone Miner Res 26:16851693.
  • Pugh CW, Ratcliffe PJ. 2003. Regulation of angiogenesis by hypoxia: role of the HIF system. Nature medicine 9:677684.
  • Rankin EB, Giaccia AJ, Schipani E. 2011. A central role for hypoxic signaling in cartilage, bone, and hematopoiesis. Curr Osteoporosis Rep 9:4652.
  • Rice D, Aberg T, Chan Y, Tang Z, Kettunen PJ, Pakarinen L, Maxson R, Thesleff I. 2000. Integration of FGF and TWIST in calvarial bone and suture development. Development 127:18451855.
  • Rice R, Rice DPC, Olsen BR, Thesleff I. 2003. Progression of calvarial bone development requires Foxc1 regulation of Msx2 and Alx4. Dev Biol 262:7587.
  • Richtsmeier JT, Flaherty K. 2013. Hand in glove: brain and skull in development and morphogenesis. Acta Neuropathol 125:469489.
  • Saadeh PB, Mehrara BJ, Steinbrech DS, Spector JA, Greenwald JA, Chin GS, Ueno H, Gittes GK, Longaker MT. 2000. Mechanisms of fibroblast growth factor-2 modulation of vascular endothelial growth factor expression by osteoblastic cells. Endocrinology 141:20752083.
  • Shapiro IM, Golub EE, Chance B, Piddington C, Oshima O, Tuncay OC, Haselgrove JC. 1988. Linkage between energy status of perivascular cells and mineralization of the chick growth cartilage. Dev Biol 129:372379.
  • Sims NA, Clément-Lacroix P, Da Ponte F, Bouali Y, Binart N, Moriggl R, Goffin V, Coschigano K, Gaillard-Kelly M, Kopchick J, Baron R, Kelly PA. 2000. Bone homeostasis in growth hormone receptor-null mice is restored by IGF-I but independent of Stat5. J Clin Invest 106:10951103.
  • Sorescu GP, Sykes M, Weiss D, Platt MO, Saha A, Hwang J, Boyd N, Boo YC, Vega JD, Taylor WR, Jo H. 2003. Bone morphogenic protein 4 produced in endothelial cells by oscillatory shear stress stimulates an inflammatory response. J Biol Chem 278:3112831135.
  • Streeten EA, Brandi ML. 1990. Biology of bone endothelial cells. Bone and Mineral 10:8594.
  • Takai S, Tokuda H, Hanai Y, Harada A, Yasuda E, Matsushima-Nishiwaki R, Kato H, Ogura S, Ohta T, Kozawa O. 2007. Negative regulation by p70 S6 Kinase of FGF-2–stimulated VEGF release through stress-activated protein kinase/c-Jun N-terminal kinase in osteoblasts. J Bone Miner Res 22:337346.
  • Takimoto A, Nishizaki Y, Hiraki Y, Shukunami C. 2009. Differential actions of VEGF-A isoforms on perichondrial angiogenesis during endochondral bone formation. Dev Biol 332:196211.
  • Thiriet M. 2008. Biology and mechanics of blood flows. New York: Springer.
  • Thoma R. 1913. Untersuchungen über das schädelwachstum und seine störungen. 2. Das fetale wachstum. Virchows Archiv für Pathologische Anatomie und Physiologie und für Klinische Medizin 212:1.
  • Thompson TJ, Owens PD, Wilson DJ. 1989. Intramembranous osteogenesis and angiogenesis in the chick embryo. J Anat 166:5565.
  • Ting M-C, Wu NL, Roybal PG, Sun J, Liu L, Yen Y, Maxson RE. 2009. EphA4 as an effector of Twist1 in the guidance of osteogenic precursor cells during calvarial bone growth and in craniosynostosis. Development 136:855864.
  • Tomlinson RE, McKenzie JA, Schmieder AH, Wohl GR, Lanza GM, Silva MJ. 2013. Angiogenesis is required for stress fracture healing in rats. Bone 52:212219.
  • Towler DA. 2008. Vascular endothelial growth factor and osteogenic-angiogenic coupling. In: Bilezikian JP, Raisz LG, Martin TJ, editors. Principles of bone biology, Vol.2, 3rd ed. Academic Press. p 11331144.
  • Trueta J. 1963. The role of the vessels in osteogenesis. J Bone Joint Surg 45:402418.
  • Usami K, Mizuno H, Okada K, Narita Y, Aoki M, Kondo T, Mizuno D, Mase J, Nishiguchi H, Kagami H, Ueda M. 2009. Composite implantation of mesenchymal stem cells with endothelial progenitor cells enhances tissue-engineered bone formation. J Biomed Materials Res A 90:730741.
  • Von Schroeder H, Veillette C, Payandeh J, Qureshi A, Heersche J. 2003. Endothelin-1 promotes osteoprogenitor proliferation and differentiation in fetal rat calvarial cell cultures. Bone 33:673684.
  • Wang Y, Wan C, Deng L, Liu X, Cao X, Gilbert SR, Bouxsein ML, Faugere M, Guldberg RE, Gerstenfeld LC, Haase VH, Johnson RS, Schipani E, Clemens TL. 2007. The hypoxia-inducible factor alpha pathway couples angiogenesis to osteogenesis during skeletal development. J Clin Invest 117:16161626.
  • Wohl GR, Towler DA, Silva MJ. 2009. Stress fracture healing: fatigue loading of the rat ulna induces upregulation in expression of osteogenic and angiogenic genes that mimic the intramembranous portion of fracture repair. Bone 44:320330.
  • Yamaguchi A, Komori T, Suda T. 2000. Regulation of osteoblast differentiation mediated by bone morphogenetic proteins, hedgehogs, and Cbfa1. Endocrine Rev 21:393411.
  • Yin M, Pacifici M. 2001. Vascular regression is required for mesenchymal condensation and chondrogenesis in the developing limb. Dev Dyn 222:522533.
  • Yoshida T, Vivatbutsiri P, Morriss-Kay G, Saga Y, Iseki S. 2008. Cell lineage in mammalian craniofacial mesenchyme. Mech Dev 125:797808.
  • Yu JC, Lucas JH, Fryberg K, Borke JL. 2001. Extrinsic tension results in FGF-2 release, membrane permeability change, and intracellular Ca++ increase in immature cranial sutures. J Craniofac Surg 12:391398.
  • Zelzer E, Olsen BR. 2004. Multiple roles of vascular endothelial growth factor (VEGF) in skeletal development, growth, and repair. Curr Topics in Dev Biol 65:169187.
  • Zelzer E, McLean W, Ng YS, Fukai N, Reginato AM, Lovejoy S, D'Amore PA, Olsen BR. 2002. Skeletal defects in VEGF120/120 mice reveal multiple roles for VEGF in skeletogenesis. Development 129:18931904.
  • Zernik J, Twarog K, Upholt WB. 1990. Regulation of alkaline phosphatase and alpha2 (I) procollagen synthesis during early intramembranous bone formation in the rat mandible. Differentiation 44:207215.