Biomedical Engineering Reference
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Oilo, M., Hardang, A.D., Ulsund, A.H., Gjerdet, N.R., 2014. Fractographic features of glass-ceramic and zirconia-
based dental restorations fractured during clinical function. Eur J Oral Sci 122(3), 238-244.
Park, S.H., Wang, H.L., 2007. Clinical signiicance of incision location on guided bone regeneration: human study.
J Periodontol 78, 47-51 .
Probst, F.A., Hutmacher, D.W., Muller, D.F., Machens, H.G., Schantz, J.T., 2010. [Calvarial reconstruction by
customized bioactive implant]. Handchir Mikrochir Plast Chir 42, 369-373 .
Rahaman, M.N., Mao, J.J., 2005. Stem cell-based composite tissue constructs for regenerative medicine. Biotechnol
Bioeng 91, 261-284 .
Reinisch, J.F., Li, W.-Y., 2014. Abstract 2: medpor ear reconstruction: a twenty-three year experience with 1042 ears.
Plastic and reconstructive surgery 133, 974-1974 .
Risbud, M.V., Shapiro, I.M., 2005. Stem cells in craniofacial and dental tissue engineering. Orthod Craniofac Res 8,
54-59 .
Rosa, V., Della Bona, A., Cavalcanti, B.N., Nor, J.E., 2012. Tissue engineering: from research to dental clinics.
Dent Mater 28, 341-348 .
Saad, A., Winters, R., Wise, M.W., Dupin, C.L., Hilaire, St., H., 2013. Virtual surgical planning in complex
composite maxillofacial reconstruction. Plastic and Reconstructive Surgery 132, 626-633 .
Salgado, A.J., Coutinho, O.P., Reis, R.L., 2004. Bone tissue engineering: state of the art and future trends.
Macromol Biosci 4, 743-765 .
Sanchez-Lara, P.A., Warburton, D., 2012. Impact of stem cells in craniofacial regenerative medicine. Front Physiol
3, 188 .
Sanchez-Lara, Pedro A., Zhao S Hu, Bajpai S Ruchi, Abdelhamid, Alaa I., Warburton, David, 2011. Impact of stem
cells in craniofacial regenerative medicine. Frontiers in Physiology 3, 188-188 .
Schaefer, O., Kuepper, H., Thompson, G.A., Cachovan, G., Hefti, A.F., Guentsch, A., 2013. Effect of CNC-milling
on the marginal and internal it of dental ceramics: a pilot study. Dent Mater 29, 851-858 .
Schantz, J.T., Hutmacher, D.W., Lam, C.X., Brinkmann, M., Wong, K.M., Lim, T.C., Chou, N., Guldberg, R.E.,
Teoh, S.H., 2003. Repair of calvarial defects with customised tissue-engineered bone grafts II. Evaluation of
cellular eficiency and eficacy in vivo. Tissue Eng 9 (Suppl 1), S127-139 .
Schmitz, J.P., Hollinger, J.O., 1986. The critical size defect as an experimental model for craniomandibulofacial
nonunions. Clin Orthop Relat Res, 299-308 .
Smucker, J.D., Rhee, J.M., Singh, K., Yoon, S.T., Heller, J.G., 2006. Increased swelling complications associated
with off-label usage of rhBMP-2 in the anterior cervical spine. Spine (Phila Pa 1976) 31, 2813-2819 .
Song, R.Y., Gao, Y.Z., Song, Y.G., Yu, Y.S., Song, Y.L., 1982. THE FOREARM FLAP. Clinics in Plastic Surgery
9, 21-26 .
Stephan, S.J., Tholpady, S.S., Gross, B., Petrie-Aronin, C.E., Botchway, E.A., Nair, L.S., Ogle, R.C., Park, S.S.,
2010. Injectable tissue-engineered bone repair of a rat calvarial defect. Laryngoscope 120, 895-901 .
Sutradhar, A., Paulino, G.H., Miller, M.J., Nguyen, T.H., 2010. Topological optimization for designing patient-
speciic large craniofacial segmental bone replacements. Proc Natl Acad Sci U S A 107, 13222-13227 .
Syed-Picard, F.N., Ray, Jr., H.L., Kumta, P.N., Sfeir, C., 2014. Scaffoldless tissue-engineered dental pulp cell
constructs for endodontic therapy. J Dent Res 93, 250-255 .
Taylor, G.I., 1983. THE CURRENT STATUS OF FREE VASCULARIZED BONE-GRAFTS. Clinics in Plastic
Surgery 10, 185-209 .
Taylor, G.I., Miller, G.D.H., Ham, F.J., 1975. FREE VASCULARIZED BONE GRAFT - CLINICAL EXTENSION
OF MICROVASCULAR TECHNIQUES. Plastic and Reconstructive Surgery 55, 533-544 .
Taylor, G.I., Townsend, P., Corlett, R., 1979. SUPERIORITY OF THE DEEP CIRCUMFLEX ILIAC VESSELS
AS THE SUPPLY FOR FREE GROIN FLAPS - CLINICAL-WORK. Plastic and Reconstructive Surgery 64,
745-759 .
Temple, J.P., Yeager, K., Bhumiratana, S., Vunjak-Novakovic, G., Grayson, W.L., 2014. Bioreactor Cultivation of
Anatomically Shaped Human Bone Grafts. Methods Mol Biol 1202, 57-78.
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