In this study the methods of synthesis of hydrophilic aldehyde-bearing polymers and copolymers based on 2-deoxy-2-methacrylamido-D-glucose have been developed. Polymers with controllable aldehyde group content were synthesized via free-radical polymerization and subsequent polymeranalogous modification. The water-soluble polymers obtained were investigated in view of their capacity to be adsorbed on two commercial mineral supports used in bone tissue engineering. Besides, cytotoxicity of synthesized polymers was tested.
The paper is devoted to the investigation of the effect of polyester hydrophobicity and ability for crystallisation on lipophilic drug loading and release from microparticles fabricated on the base of these polymers. Poly(l-lactic acid), poly(d, l-lactic acid) and poly (lactic acid-co-glycolic acid) were synthesised by ring-opening polymerisation using stannous octoate as catalyst, while poly(caprolactone) (PCL) and poly(ω-pentadecalactone) (PPDL) formation was catalysed by lipase. The particles were formed via single emulsion evaporation/diffusion method. The particles obtained were studied using SEM, XRD and DSC methods. The degradation of particles based on different polyesters, entrapment and release of a model hydrophobic drug (risperidone®) were thoroughly studied. The effect of particles hydrophobicity and crystallinity on these parameters was of most interest. The drug entrapment is greater for the hydrophobic polymers. Drug release was more rapid from crystalline particles (PLLA, PCL, PPDL), than from amorphous PDLLA and PLGA ones.
In the present study, the attempt to synthesize a multibiofunctional polymeric vector to be used for construction of composite scaffolds for bone tissue engineering has been undertaken. The polymers based on 2-deoxy-2-methacrylamido- d-glucose were functionalized by a growth factor (BMP-2), GRGDSP peptide, and poly( l-lysine) using aldehyde chemistry. The covalent modification process was quantitatively studied, and a polymer conjugate containing all these ligands was formed. In addition, the impacts of coupled ligands toward the adsorption of polymers on the commercial mineral macroporous matrix Sponceram used in cell culture applications were studied.
The optimization of enzyme-mediated polymerization of pentadecalactone (PDL) was performed to obtain macromolecular products suitable for generation of 3D cell supports (scaffolds) for bone tissue engineering. Such parameters as temperature, monomer/enzyme ratio, and monomer concentration were studied. The maximum molecular weight of synthesized polymers was about 90,000. Methods allowing the introduction of reactive double bonds into polypentadecalactone (polyPDL) structure were developed. The macroporous matrices were obtained by modification of thermoinduced phase separation method.
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