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SURFACE GRAFTING OF BIOMATERIALS WITH ALKALINE PHOSPHATASE



Abstract

Aims: The aim of the research is the functionalization of biosurfaces by anchoring on them biomolecules involved in the process of osteointegration (cellular adhesion, proliferation, differentiation, migration, matrix mineralization). Alkaline phosphatase (ALP) was used as model protein, because it is involved in the mineralization processes. The functionalized surfaces are biomimetic, because they show the biological signals triggering new tissue generation. A rapid osseointegration are the final goal and a good response and fast healing of bad quality bones is one of the main issues. The devices of interest for the research are dental or orthopaedic implants and substitutes of small bones.

Methods: Bioactive glasses of various compositions were employed as substrates. Bioactive glasses, when in contact with biological fluids, stimulate the precipitation of a hydroxyapatite layer on their surfaces, which in turn promotes effective osteointegration of the implant. Since bioactive glasses are prone to hydroxylation, they could be successfully functionalized and grafted by biomolecules. So the biomimetic materials considered will be bioactive both from a physicochemical (osteoconduction and apatite precipitation) and from a biochemical (osteoinduction) point of view. The research was focused first of all on the methods for developing active sites on the substrates. In the case of bioactive glasses the surface must be cleaned of any contaminants and the reactive hydroxyls activated.

Results: The immobilization of ALP was performed both with and without spacer molecules and a comparison among the different techniques will be presented. XPS was used for the analysis of the immobilized enzyme on titanium and bioglasses and specific signals for its identification were set. After the addition of the specific substrate, the ALP activity was evaluated by UV-VIS spectroscopy.

Conclusions: ALP was successfully grafted on the surface of bioactive glasses with and without the use of an intermediate layer of spacer molecules. The presence of ALP was determined on all the samples, as well as its enzymatic activity. Further analyses are necessary to evaluate the opportunity of using a spacer molecule. Cell adhesion and proliferation tests are in progress.

The abstracts were prepared by incoming Professor Elena Brach del Prever. Correspondence should be addressed to IORS – President office, Dipartimento di Traumatologia, Ortopedia e Mediciana del Lavoro, Centro Traumatologico Ortopedico - Via Zuretti, 29 I-10135 Torino, Italy.