Principles, Applications, and Technology of Craniofacial Bone Engineering
| dc.Affiliation | October University for modern sciences and Arts (MSA) | |
| dc.contributor.author | Marei M.K. | |
| dc.contributor.author | Alkhodary M.A. | |
| dc.contributor.author | Elbackly R.M. | |
| dc.contributor.author | Zaky S.H. | |
| dc.contributor.author | Eweida A.M. | |
| dc.contributor.author | Gad M.A. | |
| dc.contributor.author | Abdel-Wahed N. | |
| dc.contributor.author | Kadah Y.M. | |
| dc.contributor.other | Tissue Engineering Laboratories | |
| dc.contributor.other | Alexandria University | |
| dc.contributor.other | Egypt; Alexandria University | |
| dc.contributor.other | Egypt; Tissue Engineering Research Team | |
| dc.contributor.other | Tissue Engineering Laboratories | |
| dc.contributor.other | Alexandria University | |
| dc.contributor.other | Egypt; University of Pittsburgh | |
| dc.contributor.other | Center for Craniofacial Regeneration | |
| dc.contributor.other | United States; Head and Neck Surgery | |
| dc.contributor.other | University of Alexandria | |
| dc.contributor.other | Egypt; Oral Radiology Department | |
| dc.contributor.other | Cairo University | |
| dc.contributor.other | Egypt; Faculty of Dentistry | |
| dc.contributor.other | October University for Modern Science and Arts | |
| dc.contributor.other | Cairo | |
| dc.contributor.other | Egypt; Biomedical Engineering Department | |
| dc.contributor.other | Cairo University | |
| dc.contributor.other | Egypt | |
| dc.date.accessioned | 2020-01-25T19:58:27Z | |
| dc.date.available | 2020-01-25T19:58:27Z | |
| dc.date.issued | 2012 | |
| dc.description | Scopus | |
| dc.description.abstract | Currently, there are increasingly urgent demands for various biom�dical bone implants to repair craniofacial bone defects, damages caused by bone fractures, bone cancer, infections, and other injuries. However, conventional tissue replacement, such as autografts and allografts cannot meet the quantity and performance needed, and remain an issue of legitimate concern which could lead to patient dissatisfaction. Treatments directed to enhanced bone healing and restoration of function benefit from the effort of tissue engineering strategies that combine the three main components of natural bone: cells, growth factors and scaffold. Increasingly, experimental evidence supports the notion that stem cells can adjust their properties according to their surrounding and select specific lineages according to the cues they receive from their niche. It is apparent that the complexity of biological processes dwarfs the sophistication of the current generation of therapy intended to direct, accelerate, repair, and regenerate tissues. For this reason, the present strategies of tissue engineering are focused on recapitulating the cascade of embryonic tissue development, with a particular interest in the growth of a robust blood vessel network within the new tissues. Decades of contemporary biom�dical research have focused primarily on understanding the mechanisms of biological functions in health and disease. This is a departure from conventional therapy toward strategic tissue engineering for craniofacial bone, and extends beyond to a new concept of healing for clinical practice. In this chapter, we will engineer the strategy, the roadmapping, and the principle of craniofacial bone therapy. The concept of this novel approach is discussed from a basic and clinical point of view. The auspice of regenerative dental therapy has relied on the interdisciplinary fields by its nature to make it feasible for mankind. � 2012 Scrivener Publishing LLC. All rights reserved. | en_US |
| dc.identifier.doi | https://doi.org/10.1002/9781118371183.ch9 | |
| dc.identifier.isbn | 9.78E+12 | |
| dc.identifier.other | https://doi.org/10.1002/9781118371183.ch9 | |
| dc.identifier.uri | https://cutt.ly/0r1sRC3 | |
| dc.language.iso | English | en_US |
| dc.publisher | John Wiley and Sons | en_US |
| dc.relation.ispartofseries | Integrated Biomaterials in Tissue Engineering | |
| dc.subject | Bone strength | en_US |
| dc.subject | Congenital anomalies | en_US |
| dc.subject | Craniofacial bone engineering | en_US |
| dc.subject | Regenerative medicine | en_US |
| dc.subject | Surface biomimetism | en_US |
| dc.title | Principles, Applications, and Technology of Craniofacial Bone Engineering | en_US |
| dc.type | Book Chapter | en_US |
| dcterms.isReferencedBy | Rahimi, S.Y., McDonnell, D.E., Ahmadian, A., Vendar, J.R., Medieval neurosurgery: contributions from the Middle East, Spain, and Persia (2007) Neurosurg Focus, 23; Li, J., Rowe, W., Maxillofacial Injuies: Applied Surgical Anatomy (1994), New York, Churchill Livingstone Press; Dechow, P.C., Wang, Q., Peterson, J., (2010) The Anatomical Record, 239, p. 618; Garza, J.R., Trauma: Mandibular fractures (2009) Facial Plastic and Reconstructive Surgery, p. 1001. , I.D. Papel, ed, New York, Thieme Medical Publisher; Friedman, C.D., Trauma: Basic principles of craniofacial bone healing and repair (2009) Facial Plastic and Reconstructive Surgery, p. 920. , I.D. Papel, ed, New York, Thieme Medical Publisher; Sakai, N., Matsushim, N., Ikawa, T., Yamamura, H., Fukuda, A., (1989) J Biomech, 22, p. 157; Heaney, R.P., (2003) Osteoporosis International, 14 (5 SUPPL), p. 512; Hylander, W.L., Picq, P.G., Johnson, K.R., (1991) Am J Phys Anthropol, 86, p. 1; Schwartz-Dabney, C.L., Dechow, P.C., Variations in cortical material properties throughout the human dentate mandible (2003) Am J Phys Anthropol, 120, p. 252; Gerber, H.P., Ferrara, N., (2000) Trends Cardiovasc. Med, 10, p. 223; Carano, R.A.D., Ellen, F.H., (2003) Drug Discovery Today, 8, p. 980; Fries, P.D., Katowitz, J.A., (1990) Surv Ophthalmol, 35, p. 87; Slater, B.J., (2008) Plast Reconstr Surg, 121, p. 170; Zuk, P.A., (2008) P�diatrie Research, 63, p. 5; Thomas, D., Hill, M., Etiology and changing patterns of maxillofacial trauma (1999) Maxillofacial Surgery, pp. 3-10. , P. W. Booth, S. Schendel, J. Hausamen, eds., London, Churchill Livingstone Press; Cierny, G., Mader, J.T., Penninck, J.J., (2003) Clinical Orthopedics and Related Research, 414, pp. 7-24; Pincus, D.J., Armstrong, M.B., Thaller, S.R., (2009) Seminars in Plastic Surgery, 23 (2), pp. 73-79; (2007), http://www.oralcancerfoundation.org/facts/index.htm, The Oral Cancer Foundation [on-line]. Available at, accessed December 12; Einhorn, T.A., Basic science of bone graft substitutes (2007) paper presented at the Annual Meeting of the Orthopaedic Trauma Association, , www.hwbf.org/ota/am/ota03/bssf/OTA03BGl.htm, October 8,2003, Salt Lake City [on-line]. Available at, accessed December 12; Reuther, T., Schuster, T., Mende, U., Kubler, A., (2003) Int J Oral Maxillofac Surg, 32, pp. 289-295; Eweida, A., Nabawi, M.A., Marei, M., Khalil, H.M.R., Elhammady, H., (2011) Annals of Surgical Innovation and Research, 5 (2), pp. 2-5; Marei, M., Nouh, S., Saad, M., Ismail, N., (2005) Tissue Eng, 11, pp. 751-767; Kinoshita, Y., (2008) Int J Oral Maxillofac Surg, 37, pp. 275-281; Kim, S.H., (2009) J Periodontol, 80, pp. 1815-1823; Zmystowska, E., Ledzion, S., Jedrzejewski, K., (2007) Folia Morphol, 66, p. 364; Herring, S.W., Ochareon, P., (2005) Orthod Craniofac Res, 8, p. 174; Hylander, W.L., Johnson, K.R., (1997) Am J Phys Anthropol, 102, p. 203; Mao, J.J., Giannobile, W.V., Helms, W.V., Hollister, S.J., Krebsbach, S.J., Longaker, M.T., Shi, S., (2006) J Dent Res, 85, p. 966; Akintoye, S.O., Lam, T., Shi, S., Brahim, J., Collins, M.T., Robey, P.G., (2006) Bone, 38, p. 758; Cancedda, R., Giannoni, P., Mastrogiacomo, M., (2007) Biomaterials, 28, p. 4240; Giesen, E.B., Ding, M., Dalstra, M., van Eijden, T.M., (2004) J Dent Res, 83, p. 255; Hutmacher, D.W., Cool, S., (2007) J Cell Mol Med, 11, p. 654; Adachi, T., Osako, Y., Tanaka, M., Hojo, M., Hollister, S.J., (2006) Biomaterials, 27, p. 3964; Zaky, S.H., Cancedda, R., (2009) J Dent Res, 88, p. 1077; Colnot, C., De La Fuente, L., Huang, S., Hu, D., Lu, C., St-Jacques, B., Helms, J.A., (2005) Development, 132, p. 1057; Sacchetti, B., Funari, A., Michienzi, S., Di Cesare, S., Piersanti, S., Saggio, I., Tagliafico, E., Bianco, P., (2007) Cell, 131, p. 324; Johnson, E.O., Troupis, T., Soucacos, P.N., Microsurgery, 31, p. 2011; Viateau, V., Guillemin, G., Calando, Y., Logeart, D., Oudina, K., Sedel, L., Hannouche, D., Petite, H., (2006) Vet Surg, 35, p. 445; Potier, E., Ferreira, E., Meunier, A., Sedel, L., Logeart-Avramoglou, D., Petite, H., (2007) Tissue Eng, 13, p. 1325; Hollister, S.J., (2005) Nat Mater, 4, p. 518; Sicchieri, L.G., Crippa, L.G., de Oliveira, P.T., Beloti, M.M., Rosa, M.M., (2011) J Tissue Eng Regen Med; Jones, A.C., Arns, C.H., Sheppard, A.P., Hutmacher, D.W., Milthorpe, B.K., Knackstedt, M.A., (2007) Biomaterials, 28, p. 2491; Warnke, P.H., Wiltfang, J., Springer, I., Acil, Y., Bolte, H., Kosmahl, H., Russo, P.A., Terheyden, H., (2006) Biomaterials, 27, p. 3163; Barber, R.W., Emerson, D.R., Altern Lab Anim, 38, p. 2010; Red-Horse, K., Crawford, Y., Shojaei, F., Ferrara, N., (2007) Dev Cell, 12, p. 181; Schonmeyr, B., Clavin, N., Avraham, T., Longo, V., Mehrara, B.J., (2009) Tissue Eng Part A, 15, p. 1833; Aguirre, A., Planeil, J.A., Engel, E., Biochem Biophys Res Commun, 400, p. 2010; Hofmann, A., Ritz, U., Verrier, S., Eglin, D., Alini, M., Fuchs, S., Kirkpatrick, C.J., Rommens, P.M., (2008) Biomaterials, 29, p. 4217; Kneser, U., Polykandriotis, E., Ohnolz, J., Heidner, K., Grabinger, L., Euler, S., Amann, K.U., Horch, R.E., Engineering of vascularized transplantable bone tissue: induction of axial vascularization in an osteoconductive matrix using an arterio-venous loop (2006) Tissue Eng, 12, pp. 1721-1731; Laschke, M.W., Rucker, M., Jensen, G., Carvalho, C., Mulhaupt, R., Gellrich, N.C., Menger, M.D., (2008) Ann Surg, 248, p. 939; Kokemueller, M., Spalthoff, S., Nolff, M., Tavassol, F., Essig, F., Stuehmer, C., Bormann, K.H., Gellrich, N.C., (2010) Int J Oral Maxillo Fac Surg, 39, p. 379; Gong, Z., Niklason, L.E., (2008) FASEB, 22, p. 1635; Agrawal, V., Johnson, S.A., Reing, J., Zhang, L., Totty, S., Wang, G., Hirschi, K.K., Badylak, S.F., (2010) Pro Natl Acad Sei A, 107, p. 3351; Khaldoyanidi, S., (2008) Cell Stem Cell, 2, p. 198; Kim, K., Lee, C.H., Kim, B.K., Mao, J.J., J Dent Res, 89, p. 2010; Terheyden, H., Warnke, P., Dunsche, A., Jepsen, A., Brenner, W., Palmie, S., Toth, C., Rueger, D.R., (2001) Int J Oral Maxillofac Surg, 30, p. 469; Kaigler, D., Avila, G., Wisner-Lynch, L., Nevins, M.L., Nevins, M., Rasperini, G., Lynch, S.E., Giannobile, W.V., Expert Opin Biol Ther, 11, p. 2010; Kim, J.Y., Xin, X., Moioli, E.K., Chung, J., Lee, C.H., Chen, M., Fu, S.Y., Mao, J.J., (2010) Tissue Eng Part A, 16, p. 3023; Badylak, S.F., Taylor, D., Uygun, K., (2010) Annu Rev Biomed Eng; Huang, S., Zhang, Y., Tang, L., Deng, Z., Lu, W., Feng, F., Xu, X., Jin, Y., (2009) Tissue Eng Part A, 15, p. 2617; Badylak, S.F., Hoppo, T., Nieponice, A., Gilbert, T.W., Da Vison, J.M., Jobe, B.A., (2011) Tissue Eng Part A; Roh, J.D., Sawh-Martinez, R., Brennan, M.P., Jay, S.M., Devine, L., Rao, D.A., Yi, T., Breuer, C.K., (2010) Proc Natl Acad Sei USA, 107, p. 4669; Granger, D.N., Kubes, P., (1994) J Leukoc Biol, 55, p. 662; Backly, R.M., Cancedda, R., (2010) Adv Biochem Eng Biotechnol, 123, p. 265; Burdick, J.A., Vunjak-Novakovic, G., (2009) Tissue Eng Part A, 15, p. 205; Sacchetti, B., (2007) Cell, 131, p. 324; Mankani, M.H., Kuznetsov, S.A., Robey, P.G., (2007) Exp Hematol, 35, p. 995; Moioli, E.K., (2008) PLoS One, 3. , e3922; Dominici, M., (2006) Cytotherapy, 8, p. 315; Charbord, P., (2010) Hum Gene Ther, 21, p. 1045; Tasso, R., (2009) Tissue Eng Part A, 15, p. 2203; Tasso, R., Fais, F., Reverberi, D., Tortelli, F., Cancedda, R., (2010) Biomaterials, 31, p. 2121; Tortelli, F., Tasso, R., Loiacono, F., Cancedda, R., (2010) Biomaterials, 31, p. 242; Filho Cerruti, H., (2007) Artif Organs, 31, p. 268; Yamada, Y., (2008) Tissue Eng Part A, 14, p. 1699; Shayesteh, Y.S., (2008) Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 106, p. 203; Behnia, H., (2009) Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 108, pp. el; Meijer, G.J., de Bruijn, J.D., Koole, R., van Blitterswijk, C.A., (2008) Biomaterials, 29, p. 3053; Dawson, J.I., Oreffo, R.O., (2008) Arch Biochem Biophys, 473, p. 124; Rickert, D., (2010) Clin Oral Implants Res, 21, pp. 1242-1250; Gutwald, R., (2009) Br J Oral Maxillofac Surg, 48, p. 285; Sauerbier, S., Tissue Eng Part C Methods, 16, p. 1033; Jiang, X., (2009) Bone, 46, p. 1156; Li, J., (2010) J Biomed Mater Res A, 95, p. 973; Steinhardt, Y., (2008) Tissue Eng Part A, 14, p. 1763; Chadipiralla, K., (2010) Cell Tissue Res, 340, p. 323; d'Aquino, R., (2009) Eur Cell Mater, 18, p. 75; Zheng, Y., (2009) J Dent Res, 88, p. 249; Yamada, Y., Ito, K., Nakamura, S., Ueda, M., Nagasaka, T., (2010) Cell Transplant; Lin, L., (2009) Calcif Tissue Int, 85, p. 55; Cui, L., (2007) Biomaterials, 28, p. 5477; Pieri, F., (2010) Biomaterials, 31, p. 3527; Bueno, D.F., (2009) Tissue Eng Part A, 15, p. 427; Kaigier, D., Mooney, D., Tissue Engineering's Impact on Dentistry Journal of Dental Education, 65, pp. 456-462; Ma, P.X., Choi, J.-W., (2001) Tissue Engineering, 7. , Number 1; Alhadlaq, A., Elisseeff, J.H., Hong, L., Williams, C.G., Caplan, A.I., Sharma, B., (2004) Ann Biomed Eng, 32, pp. 911-923; Chan, W.D., Perinpanayagam, H., Goldberg, H.A., Hunter, G.K., Dixon, S.J., Santos Jr., G.C., Rizkalla, A.S., (2009) JCDA, 75 (5). , www.cda-adc.caJjcda; Hwang, C.M., Xu, W., Shiner, T., Atala, A., Yoo, J.J., Lee, S.J., (2010) Tissue Engineered Vascularized Soft Tissue for Craniofacial Reconstruction, , 27th Army Science Conference; Moreira-Gonzalez, A., Papay, F.E., Zins, J.E., (2006) Plast Reconstr Surg, 117, pp. 1964-1971; Valentini, V., (2009) J Craniofac Surg, 20, pp. 1125-1131; Thomas, A., (1999) Plast Reconstr Surg, 104, pp. 368-78; Yilmaz, M., Vayvada, H., Menderes, A., Demirdover, C., Kizilkaya, A., (2008) J Craniofac Surg, 19, pp. 227-234; Papadopulos, N.A., (2008) Injury, 39. , S75-S82; Hartman, E.H.M., Spauwen, P.H.M., Jansen, J.A., (2002) JInvest Surg, 15, pp. 185-197; Lucaciu, O., Baciut, M., Baciut, G., Cambian, R., Soritau, O., Bran, S., Crisan, B., Crisan, L., (2010) Rom J Morphol Embryol, 51, pp. 129-136; Aisberg, E., Hill, E.E., Mooney, E.E., (2001) Crit Rev Oral Med Biol, 12, pp. 64-75; Kretlow, J.D., Young, S., Klouda, L., Wong, M., Mikos, A.G., (2009) Adv Mater, 21, pp. 3368-3393; Schek, R.M., Taboas, R.M., Hollister, S.J., Krebsbach, P.H., (2005) Orthodontics &Craniofacial Research, 8, pp. 313-319; Sheikh, B.Y., (2006) Surg Neurol, 65, pp. 63-66; Park, H.K., Dujivny, M., Agner, C., Diaz, E.G., (2001) Neurol Res, 23, pp. 267-276; Chiarini, L., Figurelli, S., Pollastri, G., Torcia, E., Ferarri, F., Albanese, M., Nocine, P.F., (2004) J Cranio-Maxillofacial Surgery, 32, pp. 5-9; Raja, A.I., Linskey, M.E., (2005) Br. J. Neurosurg, 19, pp. 416-419; Joffe, J., McDermott, P., Linney, A., Mosse, C., Harris, M., (1992) Br J Neurosurg, 6, pp. 343-350; Arriaga, M.A., Chen, D.A., (2002) Otolaryngol Head Neck Surg, 126, pp. 512-517; Brandt, M.T., Haug, R.H., (2002) J Oral and Maxillofac Surg, 60, pp. 337-338; Hwang, C.M., Xu, W., Shiner, T., Atala, A., Yoo, J.J., Lee, S.J., (2010) Tissue Engineered Vascularized Soft Tissue for Craniofacial Reconstruction, , 27th Army Science Conference; Fang, Z., Starly, B., Sun, W., (2005) Computer-Aided Design, 37, pp. 65-72; Tirri, T., Rich, J., Walke, J., Sepala, J., Urpo, A., Narhi, A., (2008) J Mater Sei: Mater Med, 19, pp. 2919-2923; Wang, S., Falk, M.M., Rashad, A., Saad, M.M., Marques, A.C., Almeida, R.M., Marei, M.K., Jain, H., (2011) J mater Sei: Mater Med, 22, pp. 1195-1203; Chen, J., Bly, R.A., Saad, M.M., AlKhodary, M.A., El-Backly, R.M., Cohen, D.J., Kattamis, N., Soboyejo, W.O., (2011) Materials Science and Engineering C., 31, pp. 826-832; Dimitriou, R., Babis, G.C., (2007) J Musculoskelet Neuronal Interact, 7, pp. 253-265; Abramson, Z.R., Chang, P.C., Giannobile, W.V., (2007) European Cells and Materials, 13, p. 43; Dunn, C.A., Jin, Q., Giannobile, W.V., (2005) Mol Ther, 11, pp. 294-299; Oh, S., Daraio, C., Chen, L.H., (2006) Journal of Biom�dical Materials Research, 10, pp. 97-103; Popat, K.C., Leoni, L., Grimes, C.A., (2007) Biomaterials, 28, pp. 3188-3197; Soboyejo, W.O., Mercer, C., Allameh, S., (2001) Key Engineering Materials, 198-199, p. 203; Soboyejo, W.O., Nemetski, B., Allameh, S., (2002) J Biomed Mater Res, 62, p. 56; Chen, J., Mwenifumbo, S., Soboyejo, W.O., (2006) Journal of Biom�dical Materials Research Part B: Applied Biomaterials, 82 B, p. 360; Mwenifumbo, S., Li, M., Soboyejo, W.O., (2007) Journal of Materials Science: Materials in Medicine, 18, p. 9; Josse, S., Faucheux, C., Soueidan, A., (2004) Adv Mater, 16, pp. 423-427; Meraw, S.J., Reeve, C.M., Wollan, P.C., (1999) J Periodontol, 70, pp. 151-158; Yoshinari, M., Oda, Y., Ueki, H., Yokose, H., (2001) Biomaterials, 22, pp. 709-715; Kajiwara, H., Yamaza, T., Yoshinari, M., (2005) Biomaterials, 26, pp. 581-587; Peter, B., Pioletti, D.P., Laib, S., (2005) Bone, 36, pp. 52-60; Euingsen, J.E., Johansson, C.B., Wennerberg, A., (2004) Int J Oral Maxillofac Implants, 19, pp. 659-666; Cooper, L.F., Takabe, J., Guo, J., (2006) Biomaterials, 27, pp. 926-936; Yokoyama, K., Ichikawa, T., Murakami, H., (2002) Biomaterials, 23, pp. 2459-2465; Roach, P., Eglin, D., Rohde, K., (2007) J Mater Sei, 18, pp. 1263-1277; Cameron, J., Wilson, B.E., Richard, E., (2005) Tissue Engineering, 11, pp. 1-17; Kroese-Deutman, H.C., Van Den Dolder, J., Spauwen, P.H.M., (2005) Tissue Engineering, 11, pp. 1867-1875; Benesch, J., Mano, J., Reis, R., (2008) Tissue Engineering, 14, pp. 433-445; Schwartz, J., Avaltroni, M.J., Danahy, M.P., (2003) Materials Science and Engineering, 23, pp. 395-400; D'Urso, P.S., Atkinson, R.L., Lanigan, M.W., Earwaker, W.J., Bruce, I.J., Holmes, A., Barker, T.M., Thompson, R.G., (1998) British Journal of Plastic Surgery, 51, pp. 522-530; Moioli, E.K., Clark, P.A., Xin, X., Lai, X., Mao, J.J., (2007) Advanced Drug Delivery Reviews, 59, pp. 308-324; Limbert, G., van Lierde, C., Muraru, O.L., Walboomers, X.F., Frank, M., Hansson, S., Middleton, J., Jaecques, S., (2010) Journal of Biomechanics, 43, pp. 1251-1261; Lina, D., Lia, Q., Lia, W., Swain, M., (2009) Journal of the Mechanical Behavior of Biom�dical Materials, 2, pp. 410-432; Eufinger, H., Wehm, M., Machtens, E., Heuser, L., H�rders, L., Kruse, D., (1995) Journal ofCranio Maxillo-Facial Surgery, 23, pp. 175-181; Smith, M.H., Flanagan, C.L., Kemppainen, J.M., Sack, J.A., Chung, H., Das, S., Hollister, S.J., Feinberg, S.E., (2007) Int J Med Robotics Comput Assist Surg, 3, pp. 207-216; Mastrogiacomo, M., Muraglia, A., Komlev, V., Peyrin, F., Rustichelli, F., Crovace, A., Cancedda, R., (2005) Orthod Craniofacial Res, 8, pp. 277-284; Hollister, S.J., Lin, C.Y., Saito, E., Schek, R.D., Taboas, R.D., Williams, J.M., Partee, B., Krebsbach, P.H., (2005) Orthod Craniofacial Res, 8, pp. 162-173; Schek, R.M., Taboas, J.M., Hollister, J.M., Krebsbach, P.H., (2005) Orthod Craniofacial Res, 8, pp. 313-319; Ebina, H., Hatakeyama, J., Onodera, M., Honma, T., Kamakura, S., Shimauchi, H., Sasano, Y., (2009) Oral Diseases, 15, pp. 273-280; Chang, S.C.-N., Chuang, H., Chen, Y.-R., Yang, L.-C., Chen, J.-K., Mardini, S., Chung, H.-Y., Lou, J., (2004) Journal of Surgical Research, 119, pp. 85-91; Nolff, M.C., (2010) Journal of Cranio-Maxillofacial Surgery, 38, pp. 38-46; Chidiac, J.J., Shofer, E.S., Al-Kutoubi, A., Laster, L.L., Ghafari, J., (2002) Orthod. Craniofacial Res, 5, pp. 104-113; Mah, J., Hatcher, D., (2004) Am J Orthod Dentofacial Orthop, 126, pp. 308-309; Loubele, M., Van Assche, N., Carpentier, K., Maes, F., Jacobs, R., van Steenberghe, D., Suetens, P., (2008) Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 105, pp. 512-518; Olszewski, R., Zech, F., Cosnard, G., Nicolas, V., Macq, B., Reychler, H., (2007) Int J Oral Maxillofac Surg, 36, pp. 828-833; Canceddaa, R., Cedolab, A., Giulianic, A., Komlev, V., Lagomarsinob, S., Mastrogiacomoa, M., Peyrine, F., Rustichellic, F., (2007) Biomaterials, 28, pp. 2505-2524; Cevidanes, L.H.S., Franco, A.A., Gerig, G., Proffit, W.R., Slice, D.E., Enlow, D.H., Yamashita, D.H., Vigoritoj, J.W., (2005) Am J Orthod Dentofacial Orthop, 128, pp. 16-26; Hilldore, A., Wojtowicz, A., Johnson, A.W., (2007) J Biomed Mater Res, 82 A, pp. 1012-1021; Hollister, S.J., Levy, R.A., Chu, T.-M., Halloran, J.W., Feinberg, S.E., (2000) Int. J. Oral Maxillofac Surg, 29, pp. 67-71; Lu, M., Rabie, A.B.M., (2004) Int. J. Oral Maxillofac Surg, 33, pp. 369-376; Neovius, E., Engstrand, T., (2010) J Plast Reconstr Aesthet Surg, 63, pp. 1615-1623; Chim, H., Gosain, A.K., (2009) J Craniofac Surg, 20, pp. 29-33; Ilizarov, G.A., (1989) Clin Orthop Relat Res, 238, pp. 249-281; Ilizarov, G.A., (1989) Clin Orthop Relat Res, 239, pp. 263-285; Ilizarov, G.A., (1990) Clin Orthop Relat Res, 250, pp. 8-26; McCarthy, J.G., Schreiber, J., Karp, N., Thome, C.H., Grayson, B.H., (1992) Plast Reconstr Surg, 89, pp. 1-8; Ko, E.W., Hung, K.F., Huang, C.S., Chen, R.K., (2004) Cleft Palate Craniofac J, 41, pp. 5-12; Shetye, R.R., Grayson, B.H., Mackool, R.J., McCarthy, J.G., (2006) Plast Reconstr Surg, 118, pp. 985-995; Figueroa, A.A., Polley, J.W., (2007) Orthod Craniofac Res, 10, pp. 167-179; Iseri, H., Kisnisci, R., Altug-Atac, A.T., (2008) Am J Orthod Dentofacial Orthop, 134, pp. 296-304; Bouletreau, R.J., Warren, S.M., Longaker, M.T., (2002) J Craniomaxillofac Surg, 30 (1), pp. 1-11; Hopper, R.A., Altug, A.T., Grayson, B.H., Barillas, I., Sato, Y., Cutting, C.B., (2003) Cleft Palate Craniofac J, 40, pp. 233-240; Huang, C.S., Harikrishnan, P., Liao, Y.F., Ko, E.W., Liou, E.J., Chen, R.K., (2007) Cleft Palate Craniofac J, 44, pp. 274-277; Altug-Atac, A.T., Grayson, B.H., McCarthy, J.G., (2008) Plast Reconstr Surg, 121, pp. 1751-1759; Troulis, M.J., Kaban, L.B., (2003) Oral Maxillofac Surg Clin North Am, 15, pp. 251-264; Hurmerinta, K., Peltomaki, T., Hukki, J., (2004) Scand J Plast Reconstr Surg Hand Surg, 38, pp. 209-214; Thompson, R., Wake, M.C., Yaszemski, M., Mikos, A.G., (1995) Adv Polym Sei, 122, pp. 247-274; Middleton, J.C., Tipton, A.J., (2000) Biomaterials, 21, pp. 2335-2346; Murphy, W.L., Simmons, C.A., Kaigler, D., Mooney, D.J., (2004) J Dent Res, 83, pp. 204-210; Khademhosseini, A., Langer, R., Borenstein, J., Vacanti, J.R., (2006) PNAS, 103, pp. 2480-2487; Ueda, H., Hong, L., Yamamoto, M., Shigeno, K., Inoue, M., Toba, T., (2002) Biomaterials, 23, pp. 1003-1010; Park, Y.J., Lee, Y.M., Park, S.N., Sheenb, S.Y., Chungb, C.P., Lee, S.J., (2000) Biomaterials, 21, pp. 153-159; Eslaminejad, M.B., Bagheri, F., (2009) Yakhteh Medical Journal, 11, pp. 263-272; Marier, J.J., Upton, J., Langer, R., Vacanti, J.R., (1998) Adv Drug Deliver Rev, 33, pp. 165-182; Meyer, U., Joos, U., Wiesmann, H.R., (2004) Int J Oral MaxillofacSurg, 33, pp. 325-332; Das, D.B., (2007) Chem Eng Sei, 62, pp. 3627-3639; Kasper, C., Suck, C., Anton, F., (2007) Tissue Engineering, 3, pp. 1-15; Bancroft, G.N., Sikavitsas, V.I., Mikos, A.G., (2003) Tissue Engineering, 9, pp. 549-554; Wood, B.D., Quintard, M., Whitaker, S., (2002) Biotech Bioeng, 77, pp. 283-598; Abdullah, N.S., Das, D.B., Ye, H., Cui, Z.F., (2006) M J Artif Organs, 29, pp. 841-851; Graysona, W.L., Fr�hlicha, M., Yeagera, K., (2010) PNAS, 107, pp. 3299-3304; Franceschi, R.T., (2005) J Dent Res, 84, p. 1093; Guldberg, R.E., Oest, M., Lin, A.S.P., Ito, H., Chao, X., Gromov, K., Goater, J.J., Zhang, X., (2004) Musculoskel Neuron Interact, 4, pp. 399-400; Wolfinbarger Jr., L., (2011) Asian Biomedicine, 5, pp. 1-12; Schmelzeisen, R., Schimming, R., Sittinger, M., (2003) Journal of Cranio-Maxillofacial Surgery, 31, pp. 34-39; Ryan, G.E., Pandit, A.S., Apatsidis, D.P., (2008) Biomaterials, 29, pp. 3625-3635; Damron, T.A., (2007) Nanomedicine, 2, pp. 763-775; Thomas, M.V., Puleo, D.A., (2009) J Biomed Mater Res B Appl Biomater, 88, pp. 597-610; von Stechow, D., Rauschmann, M.A., (2009) Eur Surg Res, 43, pp. 298-305; Jung, R.E., Windisch, S.I., Eggenschwiler, A.M., Thoma, D.S., Weber, R.E., H�mmerle, C.H., (2009) Clin Oral Implants Res, 20, pp. 660-666; De Vicente, J.C., Hern�ndez-Vallejo, G., Brana-Abascal, P., Pefia, I., (2010) Clin Oral Implants Res, 21, pp. 430-438; Ferreira, C.E., Novaes, A.B., Haraszthy, V.L., Bittencourt, M., Martinelli, C.B., Luczyszyn, S.M., A clinical study of 406 sinus augmentations with 100% anorganic bovine bone (2009) J Periodontol, 80, pp. 1920-1927; Stavropoulos, A., Karring, T., (2010) J Clin Periodontol, 37, pp. 200-210 | |
| dcterms.source | Scopus |
Files
Original bundle
1 - 1 of 1
Loading...
- Name:
- avatar_scholar_256.png
- Size:
- 6.31 KB
- Format:
- Portable Network Graphics
- Description: