Acción de la rhBMP-2 en la diferenciación ósea temprana del proceso mandibular
| dc.contributor.advisor | Sanz Casado, José Vicente | |
| dc.contributor.advisor | Martínez Campos, Enrique | |
| dc.contributor.author | Díaz López, Carlos | |
| dc.date.accessioned | 2023-06-19T16:07:34Z | |
| dc.date.available | 2023-06-19T16:07:34Z | |
| dc.date.issued | 2013 | |
| dc.description.department | Depto. de Anatomía y Embriología | |
| dc.description.faculty | Fac. de Medicina | |
| dc.description.refereed | FALSE | |
| dc.description.status | unpub | |
| dc.eprint.id | https://eprints.ucm.es/id/eprint/22546 | |
| dc.identifier.uri | https://hdl.handle.net/20.500.14352/36304 | |
| dc.language.iso | spa | |
| dc.page.total | 56 | |
| dc.rights.accessRights | open access | |
| dc.subject.cdu | 611.716.4 | |
| dc.subject.keyword | Mandíbula | |
| dc.subject.keyword | Crecimiento | |
| dc.subject.keyword | Mandible | |
| dc.subject.keyword | Growth | |
| dc.subject.ucm | Cirugía bucofacial | |
| dc.title | Acción de la rhBMP-2 en la diferenciación ósea temprana del proceso mandibular | |
| dc.type | master thesis | |
| dcterms.references | Abarrategi A, Moreno-Vicente C, Martínez-Vázquez FJ, Civantos A, Ramos V, Sanz-Casado JV, Martínez-Corriá́ R, Perera FH, Mulero F, Pedro Miranda P, López-Lacomba JL. Biological Properties of Solid Free Form Designed Ceramic Scaffolds with BMP‐2: In Vitro and In Vivo Evaluation. PLoS ONE. 2012; 7(3): e34117 Aberg T, Wozney J, Thesleff I. Expression patterns of bone morphogenetic proteins (Bmps) in the developing mouse tooth suggest roles in morphogenesis and cell differentiation. Dev Dyn. 1997; 210:383‐396. Arnaout MA, Goodman SL, Xiong JP. Coming to grips with integrin binding to ligands. Curr Opin Cell Biol 2002;14:641–51. Barlow AJ, Francis‐West PH. Ectopic application of recombinant BMP‐2 and BMP‐4 can change patterning of developing chick facial primordia. Development 1997; 124:391‐398. Berton G, Lowell CA. Integrin signalling in neutrophils and macrophages. Cell Signal 1999;11:621. Bitgood, M.J. and McMahon, AP. Hedgehog and BMP genes are coexpressed at many diverse sites of cell‐cell Interaction in the mouse embryo Dev. Biol. 1995; 172: 126‐138. Boone, M. A. A method of growing chick embryos in vitro. Poultry Science. 1963; 42:916–921. Bränemark PI. Osseointegration and its experimental studies. J Prosthet Dent 1983;50:399–410. Bränemark PI. Vital microscopy of bone marrow in rabbit. Scand J Clin Lab Invest 1959;11(Suppl 38):1–82. Burke, B. R., R. Narbaitz, and S. Tolnaiz. Abnormal characteristics of blood from chick embryos maintained in shell‐less culture. Revue Canadienne de Biologie. 1979; 63‐66. Busch C, Krochmann J, Drews U. The chick embryo as an experimental system for melanoma cell invasion. PLoS One. 2013;8(1). Castellot, J. J., Jr., A. M. Kambe, D. E. Dobson, and D. M. Spiegelman. Heparin potentiation of 3‐T‐3‐adipocyte stimulated angiogenesis: Mechanism of actions on endotelial cells. Journal of Cell Physiology. 1986; 127:323–329. Castellot, J. J., Jr., M. T. Karnovsky, and B. M. Spiegelman. Differentiation‐dependent stimulation of neo‐vascularization and endothelial cell chemotaxis by 3‐T‐3‐adipocytes. Proceedings of the National Academy of Sciences. 1982; 79:5597–5601. Champagne CM, Takebe J, Offenbacher S, et al. Macrophage cell lines produce osteoinductive signals that include bone morphogenetic protein‐2. Bone 2002; 30:26. Chapman SC, Collignon J, Schoenwolf GC, Lumsden A. Improved method for chick whole‐ embryo culture using a filter paper carrier. Dev Dyn. 2001; 220:284‐289 Chiu‐Jou Wu, Hsein‐Kun Lu. Smad signal pathway in BMP‐2‐induced osteogenesis a mini review. J Dent Sci 2008; 3(1):13–21. Couly GF, Coltey PM, Le Douarin NM. The developmental fate of the cephalic mesoderm in quail‐chick chimeras. Development. 1992; 114:1‐15. Couly GF, Coltey PM, Le Douarin NM. The triple origin of skull in higher vertebrates: a study in quail‐chick chimeras. Development. 1993; 117:409‐429. Couly G, Grapin‐Botton A, Coltey P, Le Douarin NM. The regeneration of the cephalic neural crest, a problem revisited: the regenerating cells originate from the contralateral or from the anterior and posterior neural fold. Development. 1996; 122:3393‐3407. Couly G, Grapin‐Botton A, Coltey P, Ruhin B, Le Douarin NM. Determination of the identity of the derivatives of the cephalic neural crest: incompatibility between Hox gene expression and lower jaw development. Development. 1998; 125:3445‐3459. Crane GM, Ishaug SL, Mikos AG. Nat. Med. 1 (1995) 1322–1324. Cunningham NS, Paralkar V, Reddi AH. Osteogenin and recombinant bone morphogenetic protein 2B are chemotactic for human monocytes and stimulate transforming growth factor B1 mRNS expression. Proc Natl Acad Sci U S A 1992; 89:11740–4. Davies J, Hosseini MM. Histodynamics of endosseous wound healing. In: Davies JE, editor. Bone engineering. Toronto (Ontario): Em squared; 2000. p. 1. Deckers MM, van Bezooijen RL, van der Horst G, et al. Bone morphogenetic proteins stimulate angiogenesis through osteoblast‐derived vascular endothelial growth factor A. Endocrinology 2002;143(4):1545–53. Dobson, D. E., A. M. Kambe, E. Block, T. Dion, H. Lu, J. J. Castellot, Jr., and D. M. Spiegelman. 1‐Butyryl‐glycerol: A novel angiogenesis factor secreted by differentiating adipocytes. Cell. 1990; 61:223–230. Dunn, B. E., and M. A. Boone. Growth of the chick embryo in vitro. Poultry Science. 1976; 55:1967–1981. Dunn, B. E., T. P. Fitzharris, and B. D. Barnett. Effects of varying chamber construction and embryo pre‐incubation age on survival and growth of chick embryos in shell‐less culture. The Anatomical Record. 1981; 199:33–43. Dunn, B. E., J. S. Graves, and T. P. Fitzharris. Active calcium transport in the chick chorioallantoic membrane requires interaction with the shell membranes and/or shell calcium. Developmental Biology. 1981; 88:259–268. Edwards RG. A burgeoning science of embryological genetics demands a modern ethics. Reprod Biomed Online. 2007 Sep; 15Suppl 1:34‐40. Ekanayake S, Hall BK. The in vivo and in vitro effects of bone morphogenetic protein‐2 on the development of the chick mandible. Int J Dev Biol. 1997; 41:67‐81. Fiedler J, Ro ̈derer G, Günther KP, et al. BMP‐2, BMP‐4, and PDGF‐bb stimulate chemotactic migration of primary human mesenchymal progenitor cells. J Cell Biochem 2002;87:305–12. Francis‐West PH, Tatla T, Brickell PM. Expression pat‐ terns of the bone morphogenetic protein genes Bmp‐4 and Bmp‐2 in the developing chick face suggest a role in out‐ growth of the primordia. Dev Dyn. 1994; 201:168‐178. Glowacki J, Rey C, Glimcher MJ, et al. A role of osteocalcin in osteoclast differentiation. J Cell Biochem 1991;45:1. Gong P, Yang YP, Yang Y, Feng YP, Li SJ, Peng XL, Gong YZ. Different gene transfer methods at the very early, early, late and whole embryonic stages in chicken. Acta Biol Hung. 2012 Dec;63(4):453‐62. Greenwald AS, Boden SD, Goldberg VM, Khan Y, Laurencin CT, Rosier RN. J. Bone Joint Surg. Am. 83 (2001) 98–103. Hacker A, Guthrie S. A distinct developmental pro‐ gramme for the cranial paraxial mesoderm in the chick embryo. Development. 1998; 125:3461‐3472. Hackman RH.Chitin 3. Adsorption of Protein to Chitin. Aust J Biol Sci. 1955; 8, 530‐536. Hackman RH. Y Goldberg M. J Insect Phisiol. 1958; 2, 221. Hackman RH. Aust J Biol Sci. 1960; 13, 598 Hall, B.K. Developmental and Cellular Skeletal Biology. Academic Press, New York. 1978. Hall, B.K. Tissue interactions in the development and evolution of the vertebrate head. In Developmental and Evolutionary Aspects of the Neural Crest (ED. P.F.A Maderson). Wiley Inlerscience, New York. 1987b; pp. 215.259. Hall, B.K. The embryonic development of bone. Am. SCi. 1988a; 76: 174‐181. Hall BK, Coffin‐Collins PA. Reciprocal interactions between epithelium, mesenchyme, and epidermal growth factor (EGF) in the regulation of mandibular mitotic activity in the embryonic chick. J Craniofac Genet Dev Biol. 1990; 10:241‐261. Hall, B.K. and Ekanayake, S. Effects of growth tactors on the dlfferentiation of neural cresl cells and neural crest cell‐derivatives. Int. J. Dell. Biol. 1991; 35: 367‐ 387. Hall BK. Embryonic bone formation with special reference to epithelial‐mesenchymal Interactions and growth factors. In Bone, Volume 8: Mechanisms of Bone Development and Growth, CRC Press, Boca Raton. 1994; pp. 137‐192. Hamburger V, Hamilton HL. A series of normal stages in the development of the chick embryo. 1951. Dev Dyn. 1992 Dec;195(4):231‐72. Hawley, SH.B., Wünnenberg‐Stapleton, K., Hashimoto, C., Laurent, M.N, Watabe, T., Blumberg, BW. and Cho, KW.Y. Disruption of BMP signals in embryonic Xenopus ectoderm leads to direct neural induction. Genes Dev. 1995; 9: 2923‐2935. Hollister MC, Weintraub JA. The association of oral status with systemic health, quality of life, and economic productivity. J Dent Educ 1993;57(12):901–12. Horstadius S, Sellman S. Experimentelle Untersuchungen uber die Determination des knorpeligen Kopfskelettes bei Urodelen. Nov Act Reg Soc Scient Ups (Ser IV). 1946; 13:1‐170. Hunt P, Gulisano M, Cook M, Sham MH, Faiella A, Wilkinson D, et al. A distinct Hox code for the branchial region of the vertebrate head. Nature. 1991a; 353:861‐864. Hunt P, Wilkinson D, Krumlauf R. Patterning the vertebrate head: murine Hox 2 genes mark distinct subpopulations of premigratory and migrating cranial neural crest. Development. 1991b; 112:43‐50. Hunt P, Clarke JD, Buxton P, Ferretti P, Thorogood P. Stability and plasticity of neural crest patterning and branchial arch Hox code after extensive cephalic crest rotation. Dev Biol. 1998; 198:82‐104. Hunt S. Polysaccharide‐Protein Complexes in Invertebrates. (Academic Press, Londres, 1970) p.129. Ito K, Yamada Y, Naiki T, Ueda M. Clin. Oral Implants Res. 17 (2006) 579–586. Jeuniaux C. Arch Int Physiol Biochem. 1959; 67, 516. Jiang X, Int. J. Prosthodont. 25 (2012) 132–134. Jones C.M, Lyons, K,M and Hogan, B.L.M. involvement of bone morphogenitic proteína‐4 (BMP‐4) and Vgr‐1 in morphogenesis and neurogénesis in the Mouse. Development. 1991; 111:531‐542. Jones. C.M., Lyons. K.M., Lapan. P.M., Wright, C. V. E, and Hogan. B.LM. DVR‐4(bone morphogenetic protein‐4) as a posterior‐ventralizing factor in Xenopus mesodermn induction. Development. 1992; 115: 639‐647. Kontges G, Lumsden A. Rhombencephalic neural crest segmentation is preserved throughout craniofacial ontogeny. Development. 1996; 122:3229‐3242. Krumlauf R. Hox genes in vertebrate development. Cell. 1994; 78:191‐201. Le Douarin NM, Dupin E, Ziller C. Genetic and epigenetic control in neural crest development. Curr Opin Genet Dev. 1994; 4:685‐695. Le Douarin NM, Catala M, Batini C. Embryonic neural chimeras in the study of vertebrate brain and head development. Int Rev Cytol. 1997; 175:241‐309. Li G, Cui Y, McIlmurray L, et al. rhBMP‐2, rhVEGF165, rhPTN and thrombin‐related peptide, TP508 induce chemotaxis of human osteoblasts and microvas‐cular endothelial cells. J Orthop Res 2005;23:680–5. Liem, K.F.. Tremmi, G., Roelink, H. and Jessell, T.M. Dorsal differentiation of neural plate cells induced by BMP‐mediated signals from epidermal ectoderm. Cell. 1995; 82: 969‐979. Limura T, Pourquié O. Manipulation and electroporation of the avian segmental plate and somites in vitro. Methods Cell Biol. 2008;87:257‐70. Lincks J, Boyan BD, Blanchard CR, et al. Response of MG63 osteoblast‐like cells to titanium and titanium alloy is dependent on surface roughness and composi‐ tion. Biomaterials 1998;19:2219–32. Lópiz-Morales Y, Abarrategi A, Ramos V, Moreno-Vicente C, López-Durán L, López-Lacomba JL and Marco F. In vivo comparison of the effects of rhBmp-2 and rhBmp-4 in osteochondral tissue regeneration. European Cells and Materials. 2010; Vol. 20 (367‐378). Lumsden A, Sprawson N, Graham A. Segmental origin and migration of neural crest cells in the hindbrain region of the chick embryo. Development. 1991; 113:1281‐1291. Lyons. K.M., Pelton. R.W. and Hogan, BLM. Organogenesis and pattern formation in the mouse: RNA distribution patterns suggest a role for Bone morphogenetic protein‐2a (BMP‐2a). Development. 1990; 109:833‐844. Martin JY, Schwartz Z, Hummert TW, et al. Effect of titanium surface roughness on proliferation, differentiation, and protein synthesis of human osteoblast‐like cells (MG63). J Biomed Mater Res 1995;29:389–401. Masuda T, Salvi GE, Offenbacher S, et al. Cell and matrix reactions at titanium implants in surgically prepared rat tibiae. Int J Oral Maxillofac Implants 1997; 12:472. McGonnell IM, Clarke JD, Tickle C. Fate map of the developing chick face: analysis of expansion of facial pri‐ mordia and establishment of the primary palate. Dev Dyn. 1998; 212:102‐118. McKee MD, Nanci A. Secretion of osteopontin by macrophages and its accumu‐lation at tissue surfaces during wound healing in mineralized tissues: a potential requirement for macrophage adhesion and phagocytosis. Anat Rec 1996;245: 394. Mina M, Upholt WB, Kollar EJ. Enhancement of avian mandibular chondrogenesis in vitro in the absence of epithelium. Arch Oral Biol. 1994; 39:551‐562. Mina M, Gluhak J, Upholt WB, Kollar EJ, Rogers B. Experimental análisis of Msx‐I and Msx‐2 gene expression during chick mandibular morphogenesis. Dev Dyn. 1995; 202:195‐214. Mina M. Regulation of mandibular growth and morfogenasis. Crit Rev Oral Biol Med. 2001. 12(4):276‐300 Mina M, Wang YH, Ivanisevic AM, William B. Upholt and Rodgers. Region‐ and Stage‐Specific Effects of FGFs and BMPs in Chick Mandibular Morphogenesis. 2002. Development Dynamics 223:333–352. Morrison AD. 1 + 1 = r4 and much much more. Bioessays. 1998; 20:794‐797. Murray, P.D.F. Advenlitlous (secondary) cartilage in the chick embryo and the development of certain bones and articulations in the chick skull. Aust, J. Zoot. 1963; 11: 368‐430. Nakashima K, Zhou X, Kunkel G, et al. The novel zinc finger‐containing transcription factor Osterix is required for osteoblast differentiation and bone formation. Cell 2002;108:17–29. Nakijama M, Atsumi K y Kifume K. Development of Absorbable Sutures from Chitin. Chitin, Chitosan and Related Enzimes. Hacourt Brace Janovich, Nueva York. 1984; p. 407. Narbaitz, R., and S. S. Jande. Ultrastructural observations on the chorionic epithelium, parathyroid glands and bones from chick embryos developed in shell‐less culture. Journal of Embryology and Experimental Morphology. 1978; 45:1–12. Noden DM. The role of the neural crest in patterning of avian cranial skeletal, connective, and muscle tissues. Dev Biol. 1983a; 96:144‐165. Noden DM. The embryonic origins of avian cephalic and cervical muscles and associated connective tissues. Am J Anat. 1983b; 168:257‐276. Noden DM. Patterning of avian craniofacial muscles. Dev Biol. 1986; 116:347‐356. Noden DM. Interactions and fates of avian craniofacial mesenchyme. Development. 1988; 103(Suppl):121‐140. Osborn JF, Newesely H. Dynamic aspects of the implant–bone interface. In: Heimke G, editor. Dental implants: materials and systems. Mu ̈nchen (Germany): Carl Hanser Verlag; 1980. p. 111. Osumi‐Yamashita N, Ninomiya Y, Eto K. Mammalian craniofacial embryology in vitro. Int J Dev Biol. 1997; 41:187‐194 Park JY, Davies JE. Red blood cell and platelet interactions with titanium implant surfaces. Clin Oral Implants Res 2000;11:530. Park J, Gemmell CH, Davies JE. Platelet interactions with titanium: modulation of platelet activity by surface topography. Biomaterials 2001;19:2671. Parr BA, McMahon AP. Dorsalizing signal Wnt‐7a required for normal polarity of D‐V and A‐P axes of mouse limb. Nature. 1995; 374:350‐353. Phippard, D.J., Weber‐Hall, S.J., Sharpe, P.T., Naylor, M.S., Jayatalake, H., Maas, R., Woo, I., Roberts‐Clark, D., Francis‐West, PH, liu, Y‐ H.. Maxson. R., Hill. R.E. and Dale, T.C. Regulation of Msx‐1, Msx‐ 2, BMP‐2 and BMP‐4 during foetal and postnatal mammary gland development. Development. 1996; 122: 2729‐2737. Pourquié O. The chick embryo: a leading model in somitogenesis studies. Mech Dev. 2004 Sep;121(9):1069-79. Prince V, Lumsden A. Hoxa‐2 expression in normal and transposed rhombomeres: independent regulation in the neural tube and neural crest. Development. 1994; 120:911‐923. Quisenberry, J. H., and E. J. Dillon. Growing chick embryos in plastic shells. Poultry Science. 1962; 41:1675. Ramsey, J. B., Jr., and M. A. Boone. Incubator for growing chick embryos in vitro and in ova. Poultry Science. 1972; 51:707–709. Reisine S, Locker D. Social, psychological, and economic impacts of oral condi‐ tions and treatments. In: Cohen LK, Gift HC, editors. Disease prevention and oral health promotion: socio‐dental sciences in action. Copenhagen (Denmark): Munksgaard and la Federation Dentaire Internationale; 1995. p. 33–71. Reissmann, E., Ernsberger, U., Francis‐West, P.H., Rueger, D., Brickell, P.M. and Rohrer. H. Involvement of bone morphogenetic proteln‐4 and bone morphogenetic protein‐7 in the differentiation of the adrenergic phenotype in developing sympathetic neurons. Development. 1996; 122: 2079‐2088. Rezania A, Healy KE. Integrin subunits responsible for adhesion of human osteoblast‐like cells to biomimetic peptide surfaces. J Orthop Res 1999;17:615–23. Richman JM, Tickle C. Epithelia are interchangeable between facial primordia of chick embryos and morphogenesis is controlled by the mesenchyme. Dev Biol. 1989; 136:201‐210. Romanoff, AL. The Avian Embryo, Structural and Functional Development. The Macmillan Company, 1960; New York. Saldivar JR, Krull CE, Krumlauf R, Ariza‐McNaughton L, Bronner‐Fraser M Rhombomere of origin determines autonomous versus environmentally regulated expression of Hoxa‐3 in the avian embryo. Development. 1996; 122:895‐904. Saldivar JR, Sechrist JW, Krull CE, Ruffins S, Bronner‐Fraser M. Dorsal hindbrain ablation results in rerouting of neural crest migration and changes in gene expression, but normal hyoid development. Development. 1997; 124:2729‐2739. Sano H, Shibasaki K, Matsukubo T y Takaesu Y. Effect of chitosan Rinsing on Reduction of dental plaque formation, Bull. Tokio Dent Coll. 2003; 44 (1), 9‐16. Schaub RG, Wozney J. Novel agents that promote bone regeneration. Curr Opin Biotechnol 1991;2:868–71. Schilling TF. Genetic analysis of craniofacial development in the vertebrate embryo. Bioessays. 1997; 19:459‐468. Schneider GB, Zaharias R, Seabold D, et al. Differentiation of preosteoblasts is affected by implant surface microtopographies. J Biomed Mater Res A 2004; 69:462–8. Semba I, Nonaka K, Takahashi I, Takahashi K, Dashner R, Shum L, et al. Positionally‐dependent chondrogenesis induced by BMP4 is co‐regulated by sox9 and msx2. Dev Dyn. 2000; 217:401‐414. Serbedzija GN, Bronner‐Fraser M, Fraser SE. Vital dye analysis of cranial neural crest cell migration in the mouse embryo. Development. 1992; 116:297‐307 Shah, N.M., Groves, A.K. and Anderson, D.J. Alterna!e neural crest cell fates are instructively promoied by TGFO superfamily members. Cell. 1996; 85: 331‐343. Sherer, G. K., and G. H. Dostal. Influence of medroxy‐progesterone, an inhibitor of vascularization, on hepatic morphogenesis. Journal of Cell Biology. 1982; 95:187a Solloway MJ, Robertson EJ. Early embryonic lethality in Bmp5;Bmp7 double‐mutant mice suggests functional redundancy within the 60A subgroup. Development. 1999; 126:1753‐1768. Susan Standring Gray's Anatomy, The Anatomical Basis of Clinical Practice.40th Ed. Churchill Livingstone 2008. Teillet MA, Ziller C, Le Douarin NM. Quail‐chick chimeras. Meth Mol Biol. 1999; 97:305‐318. Trainor PA, Tan SS, Tam PP. Cranial paraxial mesoderm: regionalisation of cell fate and impact on craniofacial development in mouse embryos. Development. 1994; 120:2397‐2408. Trainor PA, Tam PP. Cranial paraxial mesoderm and neural crest cells of the mouse embryo: co‐distribution in the craniofacial mesenchyme but distinct segregation in branchial arches. Development. 1995; 121:2569‐2582. Tuan, R. S. Calcium transport and related functions in the chorioallantoic membrane of cultured shell‐less chick embryos. Developmental Biology. 1980; 74: 196–204. Tucker AS, Al Khamis A, Sharpe PT. Interactions between Bmp‐4 and Msx‐1 act to restrict gene expression to odontogenic mesenchyme. Dev Dyn. 1998a; 212:533‐539. Vanio S, Karavanova, I., Jowett, A. and Thesleff ,I. ldentllication of BMP‐4 as a signal mediating secondary induction between epithelial and mesenchymal tissues during earty tooth development. Cell. 1993; 75: 45‐58. Wagner G. Die Bedeutung der Neuralleiste fur die kopfgestaltung der Amphibienlarven. Rev Suisse Zool. 1949; 56:519‐620. Wang EA, Israel DI, Kelly S, et al. Bone morphogenetic protein‐2 causes commit‐ ment and differentiation in C3Hl0T1/2 and 3T3 cells. Growth Factors 1993;9:57–71. Wang YH, Upholt WB, Sharpe PT, Kollar EJ, Mina M. Odontogenic epithelium induces similar molecular responses in chick and mouse mandibular mesenchyme. Dev Dyn. 1998b; 213:386‐397. Wang YH, Rutherford B, Upholt WB, Mina M. Effects of BMP‐7 on mouse tooth mesenchyme and chick mandibular mesenchyme. Dev Dyn. 1999; 216:320‐335. Wedden SE. Epithelial‐mesenchymal interactions in the development of chick facial primordia and the target of retinoid action. Development. 1987; 99:341‐351. Weintraub JA, Burt BA. Oral health status in the United States: tooth loss and edentulism. J Dent Educ 1985;49:368–78. Whisteler RL. Polysaccharide Chemistry. Academic Press, Nueva York. 1983; p. 395. Wilkinson DG. Genetic control of segmentation in the vertebrate hindbrain. Perspect Dev Neurobiol. 1995; 3:29‐38. Wilkinson DG, Bhatt S, Cook M, Boncinelli E, Krumlauf R. Segmental expression of Hox‐2 homeobox‐ containing genes in the developing mouse hindbrain. Nature. 1989; 341:405‐409. Worthington P. History, development, and current status of osseointegration as revealed by experience in craniomaxillofacial surgery. Bränemark P I, Rydevik B L, Skalak R, editors. Osseointegration in skeletal reconstruction and joint replace‐ ment. Carol Stream (IL): Quintessence Publishing Co; 1997. p. 25–44. Wozney JM. Bone morphogenetic proteins. Prog Growth Factor Res 1989;1: 267–80. Wozney JM, Rosen V, Byrne M, et al. Growth factors influencing bone development. J Cell Sci Suppl 1990;13:149–56. Wozney JM. The bone morphogenetic protein family and osteogenesis. Mol Re‐ prod Dev 1992;32:160–7. Wozney JM. The bone morphogenetic protein family: multifunctional cellular regulators in the embryo and adult. Eur J Oral Sci 1998;106(Suppl 1):160–6. Xia L, Zeng D, Sun X, Xu Y, Xu L, Ye D ,Zhang X Jiang X, Zhang Z. Engineering of bone using rhBMP‐2‐loaded mesoporous silica bioglass and bone marrow stromal cells for oromaxillofacial bone regeneration. Microporous and Mesoporous Materials. 2013; 173, 155–165 Yalpani M, Johnson F y Robinson LE. Chitin, Chitosan: Sources, Chemistry, Biochemistry, Physical Properties and Applications. 1992; Elsevier, Amsterdam. Zareen N, Khan MY, Minhas LA. 'Histological stages of retinal morphogenesis in chicken’ ‐ a descriptive laboratory research. Italian Journal of Zoology. 2011; 78: 45‐52. Zhao J, Zhang Z, Wang S, Sun X, Zhang X, Chen J, Kaplan DL, Jiang X. Bone. 2009; 45, 517–527. Zhou H, Hammonds R Jr, Findlay DM, et al. Differential effects of transforming growth factor‐beta 1 and bone morphogenetic protein 4 on gene expression and differentiated function of preosteoblasts. J Cell Physiol 1993;155:112–9 | |
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