0000000000351849

AUTHOR

F. Segatti

showing 2 related works from this author

Formulation of Different Chitosan Hydrogels for Cartilage Tissue Repair

2014

Different formulations of Chitosan/sulphate and Chitosan/PEGDE were produced by physical and chemical reticulation to obtain hydrogels with better physiochemical properties. The hydrogels were analyzed – in terms of their non-toxicity, proliferative, differentiative, inflammatory and immunology responses. Commercial grade Chitosan (Sigma) was solubilized and purified by progressive filtrations. Then, the polymer was freeze-dried in a water soluble cationic form. A physical hydrogel was prepared by mixing a 3 % w/w water solution of the a.m. polymer with different stoichiometric ratios of (SO4=) 1/0.5;1/0.75;1/1 respectively. The hydrogels were cross-linked in multiwells. The chemical hydrog…

lcsh:Computer engineering. Computer hardwaretechnology industry and agriculturelcsh:TP155-156lcsh:TK7885-7895Chitosan Hydrogels Cartilage Tissue Repairmacromolecular substanceslcsh:Chemical engineering
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Bio-affinity of MC3T3-E1 osteoblastic cells with polymeric scaffold in Poly L-Lactid Acid (PLLA) for bone substitution.

2009

Damage to an organ or tissue remains a problem despite advances in medical technology. Available treatments include organs transplantation, surgical reconstruction such as mechanical devices. However, all these methodologies have several contraindications. In recent years, tissue engineering methods is considered as means to replace diseased or damaged organs. For these kind of application, the choice of scaffolding material is crucial to the success of the technique. In the function of the application, the synthetic scaffolds should meet several criteria, including: good biocompatibility, sufficient mechanical properties, and adequate biodegradability. The aim of our study was to evaluate …

ScaffoldBio-affinityOsteoblastic cellSettore BIO/10 - BiochimicaPLLA
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