Search Results - "Barbani, N."

Bioactive materials: In vitro investigation of different mechanisms of hydroxyapatite precipitation by Ferraris, S., Yamaguchi, S., Barbani, N., Cazzola, M., Cristallini, C., Miola, M., Vernè, E., Spriano, S.

“…Bioactive materials, able to induce hydroxyapatite precipitation in contact with body fluids, are of great interest for their bone bonding capacity. . The aim…”
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Assessing two-way interactions between cells and inorganic nanoparticles by Cristallini, C., Barbani, N., Bianchi, S., Maltinti, S., Baldassare, A., Ishak, R., Onor, M., Ambrosio, L., Castelvetro, V., Cascone, M. G.

“…A safe and effective use of nanoparticles in biology and medicine requires a thorough understanding, down to the molecular level, of how nanoparticles interact…”
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Molecularly imprinted membranes for an improved recognition of biomolecules in aqueous medium by Silvestri, D., Barbani, N., Cristallini, C., Giusti, P., Ciardelli, G.

“…Membranes with molecular recognition properties were obtained by coagulation in the presence of compounds of biotechnological interest or by modification of…”
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Transglutaminase reactivity with gelatine : perspective applications in tissue engineering by BERTONI, F, BARBANI, N, GIUSTI, P, CIARDELLI, G

“…Gelatine was crosslinked by means of an enzymatic treatment using tissue transglutaminase (tTGase) (Sigma) and microbial transglutaminase (mTGase) (Ajinomoto)…”
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The mechanical and chemical stability of the interfaces in bioactive materials: The substrate-bioactive surface layer and hydroxyapatite-bioactive surface layer interfaces by Ferraris, S., Yamaguchi, S., Barbani, N., Cristallini, C., Gautier di Confiengo, G., Barberi, J., Cazzola, M., Miola, M., Vernè, E., Spriano, S.

“…Bioactive materials should maintain their properties during implantation and for long time in contact with physiological fluids and tissues. In the present…”
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New biomedical devices with selective peptide recognition properties. Part 1: Characterization and cytotoxicity of molecularly imprinted polymers by Rechichi, A., Cristallini, C., Vitale, U., Ciardelli, G., Barbani, N., Vozzi, G., Giusti, P.

“…Molecular imprinting is a technique for the synthesis of polymers capable to bind target molecules selectively. The imprinting of large proteins, such as cell…”
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Molecularly imprinted poly(ethylene- co-vinyl alcohol) membranes for the specific recognition of phospholipids by Pegoraro, C., Silvestri, D., Ciardelli, G., Cristallini, C., Barbani, N.

“…In this paper we concentrated on the possibility of adopting molecular imprinting technology for the preparation of polymeric membranes imprinted with…”
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Acrylic polymeric nanospheres for the release and recognition of molecules of clinical interest by Ciardelli, G., Cioni, B., Cristallini, C., Barbani, N., Silvestri, D., Giusti, P.

“…Cross-linked poly(methylmethacrylate- co-methacrylic acid) nanospheres were imprinted with theophylline through template radical polymerisation in diluted…”
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Bioartificial polymeric materials based on polysaccharides by Cascone, M. G., Barbani, N., P.Giusti, C. Cristallini, Ciardelli, G., Lazzeri, L.

“…Bioartificial polymeric materials, based on blends of polysaccharides with synthetic polymers such as poly(vinyl alcohol) (PVA) and poly(acrylic acid) (PAA),…”
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Effect of chitosan and dextran on the properties of poly(vinyl alcohol) hydrogels by Cascone, M G, Maltinti, S, Barbani, N, Laus, M

“…Hydrogels are three-dimensional polymeric networks very similar to biological tissues and potentially useful as drug delivery systems. Poly(vinyl…”
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Bioartificial materials based on blends of dextran and poly(vinyl alcohol- co-acrylic acid) by Barbani, N., Bertoni, F., Ciardelli, G., Cristallini, C., Silvestri, D., Coluccio, M.L., Giusti, P.

“…Bioartificial polymeric materials based on blends of dextran and poly(vinyl alcohol- co-acrylic acid) P(VA- co-AA) were prepared in the form of films and…”
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Composites between hydroxyapatite and poly(epsilon-caprolactone) synthesized in open system at room temperature by Guerra, G D, Cerrai, P, Tricoli, M, Krajewski, A, Ravaglioli, A, Mazzocchi, M, Barbani, N

“…The hydroxyls present on the surface of hydroxyapatite (HA) granules, annealed at 700 composite function, 900 composite function and 1,100 composite function…”
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Acrylic Copolymers as Candidates for Drug-Eluting Coating of Vascular Stents by Silvestri, D., Cristallini, C., Gagliardi, M., Barbani, N., D'Acunto, M., Ciardelli, G., Giusti, P.

“…The aim of the present work is the synthesis and characterization of polymer materials showing good adhesion, drug loading, and delivery properties, for…”
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Bioartificial polymer membranes as innovative systems for biomedical or biotechnological uses by Ciardelli, G., Silvestri, D., Barbani, N., Ionita, M., Redaelli, A., Giusti, P.

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Transport properties of EVAI-starch-α amylase membranes by COLUCCIO, M. L, BARBANI, N, BIANCHINI, A, SILVESTRI, D, MAURI, R

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Molecularly imprinted bioartificial membranes for the selective recognition of biological molecules by Silvestri, D., Cristallini, C., Ciardelli, G., Giusti, P., Barbani, N.

“…Membranes of a synthetic (poly(ethylene-co-vinyl alcohol), Clarene ® ) and a biological (dextran) polymer, imprinted with α-amylase, of different compositions…”
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The relevance of the transfer of molecular information between natural and synthetic materials in the realisation of biomedical devices with enhanced properties by Ciardelli, G., Silvestri, D., Cristallini, C., Barbani, N., Giusti, P.

“…Past and recent attempts to introduce in synthetic polymers molecular information from natural substances through simple blending, template polymerization and…”
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Molecularly imprinted bioartificial membranes for the selective recognition of biological molecules. Part 2: release of components and thermal analysis by Silvestri, D., Cristallini, C., Ciardelli, G., Giusti, P., Barbani, N.

“…Molecularly imprinted membranes imprinted for a large-molecular-weight protein were realised using a blend of natural and synthetic polymers. Bioartificial…”
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Transport Properties of EVAl-Starch-α Amylase Membranes by Coluccio, M. L, Barbani, N, Bianchini, A, Silvestri, D, Mauri, R

“…We investigated the influence of various physicochemical parameters on the morphology and time-porosity formation of membranes composed of ethylene-vinyl…”
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Bioartificial dextran and poly[ethylene-co-(vinyl alcohol)] hybrid sponges as support for proteins by Silvestri, D, Barbani, N, Ciardelli, G, Bertoni, F, Coluccio, ML, Cristallini, C, Giusti, P

“…A biological–synthetic hybrid material was prepared as a support for proteinic molecules. To control the conformational stability and ‘vitality’ of the…”
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