Research 11, 1264–1273.
• Chehroudi, B., Gould, T.R.L & Burnette, D.M. (1990) T- tanium-coated
micromachined grooves of different di mensions affect epithelial and connective tissue cells differently in vivo. Journal of Biomedical Materials Research 24, 1203-1219.
• Chen, Q., Kinch, M.S., Lin, T.H., Burridge, K. & Juliano, R.L (1994) Integrin-mediated cell adhesion activates mitogen-activated protein kinases. Journal of Biological Chemistry 269, 26602-26605. Chicurel, M.E., Singer, R.H., Meyer, C.J. & Ingber, D.E. (1998) Integrin binding and mechanical tension induce movement of MRNA and ribosomes to focal adhesions. Nature 392, 730-733.
Cochran, D.L., Simpson, J., Weber, H. & Buser, D. (1994) Attachment and growth of periodontal cells on smooth and rough titanium. International Journal of Oral and Maxillofacial Implants 9, 289-297.
• Davies, J.E., Lowenberg, B. & Shiga, A. (1990) The bone-titanium interface in vitro. Journal of Biomedical Materials Research 24, 1289-1306.
• DePalma, V.A. (1976) Correlation of surface electrical properties with initial events in bioadhesion (doctoral dissertation). State University of New York at Buffalo.
• DePalma, V.A. & Baier, R.E. (1978) Microfouling of metallic and coated metallic flow surfaces in model heat exchange cells. In: Proceedings of the Ocean Thermal Energy Conversion (OTEC) Biofouling and Corrosion Symposium, U.S. Department of Energy, 89-106.
• Ericsson, T. & Ericsson, Y. (1967) Effect of partial fluorine substitution on the phosphate exchange and protein absorption of hydroxyapatite. Helvetica Odontology Acta 11, 10-14.
• Gabriel, B.L., Gold, J., Gristina, A.G., Kasemo, B., Laus- maa, J., Harrer, C. &
Myrvik, Q.N. (1994) Site-specific adhesion of Staphylococcus epidermidis (RP12) in Ti- Al-V metal systems. Biomaterials 15, 628–634.
• Gotfredsen, K., Wennerberg, A., Johansson, C., Skovgaard, LT.T. & Hjorting-Hansen, E. (1995) Anchorage of Ti02-blasted, HA-coated, and machined implants: An experimental study with rabbits. Journal of Biomedical Materials Research 29, 1223-1231.
• Hay, D.I. & Moreno, E.C. (1979) Differential adorption and chemical affinities of proteins for apatitic surfaces Journal of Dental Research 58, 930-942.
• Hazan, R, Brener, R. & Oron, U. (1993) Bone growth to metal implants is regulated by their surface chemical properties. Biomaterials 14, 570-574.
• Hench, LL & Paschall, HA (1973) Direct chemical bond of bioactive glass-ceramic materials to bone and muscle. Jourmal of Biomedical Materials Research 7, 25-42.
• Howlett, C.R., Evans, M.D., Walsh, W.R, Johnson, G. & Steele, J.G. (1994) Mechanism of initial attachment of cells derived from human bone to commonly used pros- thetic materials during cell culture. Biomaterials 15, 213-222.
• Keller, J.C., Draughn, R.A., Wightman, J.P, Dougherty, W.J. & Meletiou, S.D.
(1990) Characterization of steril ized cp titanium implant surfaces. International Journal of Oral and Maxillofacial Implants 5, 360-367.
Università degli Studi di Genova – Scuola di Scienze Mediche e Chirurgiche Corso di Laurea Magistrale in Odontoiatria e Protesi dentaria –
Coordinatore: Char.ma Prof.ssa Maria Menini Federico Rebaudi – Tesi di Laurea
33
• Kilpadi, D.V. & Lemons, J.E. (1994) Surface energy char- acterization of unalloyed titanium implants. Journal of Biomedical Materials Research 28, 1419-1425.
• Lincks, J., Boyan, B.D., Blanchard, C.R., Lohmann, C.H., Liu, Y., Cochran, D.L., Dean, D.D. & Schwartz, Z (1998a) Response of MG63 osteoblast-like cells to titanium and titanium alloy is dependent on surface roughness and composition.
Biomaterials 19, 2219-2232.
• Lincks, J., Boyan, B.D., Cochran, D.L., Liu, Y., Blan- chard, C., Dean, D.D. &
Schwartz, Z. (1998b) Cell type and maturation state determine cell response to surface roughness and composition. Journal of Dental Research 77 (Special Issue B), 966.
• Martin, J.Y., Schwartz, Z., Hummert, T.W., Schraub, D.M., Simpson, J., Lankford, J., Dean, D.D., Cochran, D.L. & Boyan, B.D. (1995) Effect of titanium surface roughness on proliferation, differentiation, and protein synthesis of human osteoblast-like cells (MG63). Journal of Biomedical Materials Research 29, 389-401.
• Maxian, S.H., DIStefano, T., Melican, M.C., Tiku, M.L. & Zawadsky, J.P.
(1998) Bone cell behavior on Matrigel- coated Ca / P coatings of varying crystallinities. Journal of Biomedical Materials Research 40, 171-179.
• Meyer, A.E., Baier, R.E., Natiella, J.R. & Meenaghan, M.A. (1988) Investigation of tissue / implant interactions during the first two hours of implantation. Journal of Oral Implantology 14, 363-379.
• Pankowsky, D.A., Ziats, N.P., Topham, NS., Ratnoff, O.S. & Anderson, J.M.
(1990) Morphological charac- teristics of absorbed plasma proteins on vascular grafts and biomaterials. Journal of Vascular Surgery 11,
• Patterson, R.B., Messier, A. & Valentini, R.F. (1995) Effects of radiofrequency glow discharge and oligopeptides on the attachment of human endothelial cells to polyurethane. ASAIO Journal 41, M625-M629.
• Pearson, B.S., Klebe, R.J., Boyan, B.D. & Moskowicz, D. (1988) Comments on the clinical application of f-bronectin in dentistry. Journal of Dental Research 67, 515-517.
• Ricci, J.L., Spivak, J.M., Blumenthal, N.C. & Alexander, H. (1991) Modulation of bone ingrowth by surface chemistry and roughness. In: The
Bone-Biomaterial Inter- face, J.E. Davies (Ed.). Toronto: University of Toronto Press, pp. 334-349.
• Rolla, G., Dana Hsu, S. & Bowen, W.H. (1977) The influence of fluoride on the uptake of proteins by hy- droxyapatite. Caries Research 11, 308-312.
• Schwartz, Z. & Boyan, B.D. (1994) Underlying mechanisms at the bone-biomaterial interface. Journal of Celular Biochemistry 56, 340-347.
• Schwartz, Z, Martin, J.Y., Dean, D.D., Simpson, J., Cochran, D.L & Boyan, B.D.
(1996) Effect of titanium surface roughness on chondrocyte proliferation, matrix production, and differentiation depends on the state of cell maturation. Journal of Biomedical Materials Research 30, 145–155.
• Schwartz, Z., Sela, J., Ramirez, V., Amir, D. & Boyan, B.D. (1989) Changes in extracellular matrix vesicles dur- ing healing of rat tibial bone: A morphometric and bio- chemical study. Bone 10, 53–60. (1975) Hormone suppression of DNA synthesis in cul tured chondrocytes and osteosarcoma cell lines, Clini Scranton, P.E.J.,
Università degli Studi di Genova – Scuola di Scienze Mediche e Chirurgiche Corso di Laurea Magistrale in Odontoiatria e Protesi dentaria –
Coordinatore: Char.ma Prof.ssa Maria Menini Federico Rebaudi – Tesi di Laurea
34
• McMaster, J.H. & Diamond, P.E. cal Orthopedics and Related Research112,340–348.
• Sinha, R.K. & Tuan, R.S. (1996) Regulation of human osteoblast integrin expression by orthopedic implant materials. Bone 18, 451-457.
• Squire, M.W., Ricci, J.L. & Bizios, R. (1996) Analysis of osteoblast mineral deposits on orthopedic / dental im plant metals. Biomaterials 17, 725-733.
Vroman, L. & Adams, A.L. (1969) Identification of rapid changes at plasma-solid interfaces. Journal of Bio medical Materials Research 3, 43.
• Vroman, L, Adams, A.L., Fischer, C.G. & Munoz, P.C. (1980) Interaction of high molecular weight kininogen. factor XII and fibrinogen in plasma at interfaces. Blood 55, 156-159.
• Walluscheck, K.P., Steinhoff, G., Kelm, S. & Haverich. A. (1996) Improved endothelial cell attachment on EPTFE vascular grafts pretreated with synthetic RGD- containing peptides. European Journal of Vascular and Endovascular Surgery 12, 321-330.
• Windeler, A.S., Bonewald, L.F., Khare, A.G., Boyan, B.D. & Mundy, G.R.
(1991) The influence of sputtered bone substitutes on cell growth and
phenotypic expression. In: The Bone-Biomaterial Interface, J.E. Davies (Ed.).
Toronto: Toronto Press, pp. 205-213.
• Xiao, G., Cui, Y., Ducy, P., Karsenty, G. & Franceschi, R.T. (1997) Ascorbic acid-dependent activation of the osteocalcin promoter in MC3T3-E1
preosteoblasts: requirement for collagen matrix synthesis and the pres- ence of an intact OSE2 sequence. Molecular En- docrinology 11, 1103-1113.
• Ziats, N.P., Miller, K.M. & Anderson, J.M. (1988) In vitro and in vivo interactions of cells with biomaterials. Bo materials 9, 5-13