Fabrication of scaffolds made of gelatin and calcium phosphate for tissue regeneration
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Inclou dades d'ús des de 2022
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hdl:2099.1/6732
Tipus de documentProjecte/Treball Final de Carrera
Data2009-02
Condicions d'accésAccés obert
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Reconeixement-NoComercial-SenseObraDerivada 3.0 Espanya
Abstract
The objective of this work was to fabricate gelatin and alpha-tricalcium phosphate
(α-TCP) scaffolds via freeze-drying technique. Both materials are well known to be
promising candidates for tissue engineering and drug delivery applications. One of the
main characteristics that we look for in scaffolds and drug delivery systems is the
formation of an adequate porosity. The role of this porosity is to ensure cell
colonisation, flow transport of nutrients and metabolic waste in scaffolds for tissue
engineering and to enhance the loading capacity and delivery rate in delivery systems.
Two types of scaffolds were produced: one of organic matrix reinforced by an
inorganic phase (α-TCP) and the other of inorganic matrix (α-TCP) with gelatin as a
binder. Organic phase plays an important role in the toughness of bone whereas
inorganic phase enhances its mechanical properties.
The aim was to produce scaffolds with organic matrix and enhance the existing
process, and also create new scaffolds with inorganic matrix. Different strategies were
tested in order to optimize the fabrication process of the scaffolds.
Characterization of the scaffolds included: microstructural evaluation by scanning
electron microscopy, evaluation of the percentage of isolated porosity by helium
pycnometry, rigidity test by mechanical testing and the study of the proportion of
phases in the scaffold by X-ray diffraction analysis.
The structure network has been improved in the case of scaffolds with organic
matrix, by decreasing the content of closed pores and also by ensuring total
incorporation of the α-TCP powder in the scaffold. Regarding the creation of scaffolds
of inorganic matrix, the results, in terms of porosity and mechanical properties, were
very promising and opened a new area of investigation.
Descripció
Doble titulació
MatèriesBiomedical materials, Tissue -- Scaffolds, Tissue engineering, Biomaterials, Teixits -- bastides, Enginyeria de teixits
TitulacióENGINYERIA DE MATERIALS (TITULACIÓ CONJUNTA AMB LA UB) (Pla 2003)
Fitxers | Descripció | Mida | Format | Visualitza |
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PFC Audrey Smacchia.pdf | Report | 14,32Mb | Visualitza/Obre |