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Strategy to enhance the osseointegration process : synthetic peptides improving osteoblast adhesion on implant surface

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In order to improve the integration process between surgically placed implants and biological tissues, biomaterials of the next generation have to be designed to enhance and support osteoblast adhesion. In fact, it has been demonstrated that the quality of the early cell/material interactions is highly responsible for the long-term functional response of implants. Polystyrene surfaces have been conditioned with different synthetic peptides and their abilities to osteoblast adhesion have been compared. The results obtained applying the best-performing peptides in osteoblast adhesion assays on acellular bone matrix are herewith discussed.
Słowa kluczowe
Rocznik
Strony
35--42
Opis fizyczny
Bibliogr. 18 poz., rys., tab., wykr.
Twórcy
autor
  • Department of Chemical Process Engineering, University of Padova, via Marzolo 9, 35131 Padova, Italy
autor
  • Department of Chemical Process Engineering, University of Padova, via Marzolo 9, 35131 Padova, Italy
  • Department of Chemical Process Engineering, University of Padova, via Marzolo 9, 35131 Padova, Italy
autor
  • Department of Chemical Process Engineering, University of Padova, via Marzolo 9, 35131 Padova, Italy
autor
  • Department of Chemical Process Engineering, University of Padova, via Marzolo 9, 35131 Padova, Italy
Bibliografia
  • [1] AHMAND M., MCCARTHY M.B., GRONOWICZ G., An in vitro model for mineralization of human osteoblast-like cells on implant materials, Biomaterials, 1999, 20, 3, 211–220.
  • [2] PULEO D.A., NANCI A., Understanding and controlling the bone–implant interface, Biomaterials, 1999, 20, 23-24, 2311–2321.
  • [3] RAMIRES P.A., GIUFFRIDA A., MILELLA E., Three dimensional reconstruction of confocal laser microscopy images to study the behaviour of osteoblastic cells grown on biomaterials, Biomaterials, 2002, 23, 2, 397–406.
  • [4] KU C.-H., PIOLETTI D.P., BRWONE M., GREGSON P.J., Effect of different Ti-6Al-4V surface treatments on osteoblasts behaviour, Biomaterials, 2002, 23, 6, 1447–1454.
  • [5] BOYAN B.D., HUMMERT T.W., DEAN D.D., SCHWARTZ Z., Role of material surfaces in regulating bone and cartilage cell response, Biomaterials, 1996, 17, 137–146.
  • [6] ANSELME K., Osteoblast adhesion on biomaterials, Biomaterials, 2000, 21, 667–681.
  • [7] BIGERELLE M., ANSELME K., NOËL B., RUDERMAN I., HARDOUIN P, IOST, A., Improvement in the morphology of Ti-based surfaces: a new process to increase in vitro human osteoblast response, Biomaterials, 2002, 23, 1563–1577.
  • [8] HEALY K.E., THOMAS C.H., REZANIA A., KIM J.E., MCKEOWN P.J., LOM B., HOCKBERGER P.E., Kinetics of bone cells organisation and mineralization on materials with patterned surface chemistry, Biomaterials, 1996, 17, 2, 195–208.
  • [9] KASEMO B., GOLD J., Implant surfaces and interface processes, Adv. Dent. Res., 1999, 13, 8–20.
  • [10] RATNER B.D., New ideas in biomaterials science – a path to engineered biomaterials, J. Biomed. Mater. Res., 1993, 27, 837–850.
  • [11] DETTIN M., CONCONI M.T., GAMBARETTO R., PASQUATO A., FOLIN M., Di BELLO C., PARNIGOTTO P.P., Novel osteoblast-adhesive peptides for dental/orthopedic biomaterials, J. Biomed. Mater. Res., 2002, 60, 466–471.
  • [12] ANSELME K., LINEZ P., BIGERELLE M., Le MAGUER D., Le MAGUER A., HARDOUIN P., HILDEBRAND H.F., IOST A., LERY J.M., The relative influence of topography and chemistry of TiAl6V4 surfaces on osteblastic cell behaviour, Biomaterials, 2000, 21, 15, 1567–1577.
  • [13] PULEO D., BIZIOS R., Mechanisms of fibronectin-mediated attachment of osteoblasts to substrates in vitro, Bone, 1991, 12, 271–276.
  • [14] DEE K.C., RUEGER D.C., ANDERSEN T.T., BIZIOS R., Conditions which promote mineralization at the bone–implant interface: a model in vitro study, Biomaterials, 1996, 17, 2, 209–215.
  • [15] VERRIER S., JONKZYK A., DARD M., AMEDEE J., Effect of linear and cyclic RGD-containing peptides on osteoprogenitor cell adhesion onto extracellular matrix protein, J. Bone Miner. Res., 1998, 23, S535.
  • [16] HASENBEIN M.E., ANDERSEN T.T., BIZIOS R., Micropatterned surfaces modified with selective peptides promote exclusive interactions with osteoblasts, Biomaterials, 2002, 23, 3937–3942.
  • [17] DEE K.C., ANDERSEN T.T., BIZIOS R., Design and function of novel osteoblast-adhesive peptides for chemical modification of biomaterials, J. Biomed. Mater. Res., 1998, 40, 371–377.
  • [18] YOKOSE S., ISHIZUYA T., IKEDA T., NAKAMURA T., TSURUKAMI H., KAWASAKI K., SUDA T., YOSHIKI S., YAMAGUCHI A., An estrogen deficiency caused by ovariectomy increases plasma levels of systemic factors that stimulate proliferation and differentiation of osteoblasts in rats, Endocrinology, 1996, 137, 469–478.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPB2-0010-0011
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