Master's Dissertation
DOI
https://doi.org/10.11606/D.82.2005.tde-29032006-151033
Document
Author
Full name
Diderot Rodrigues Parreira
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Carlos, 2004
Supervisor
Committee
Goissis, Gilberto (President)
Maniglia, José Victor
Plepis, Ana Maria de Guzzi
Maniglia, José Victor
Plepis, Ana Maria de Guzzi
Title in Portuguese
Matrizes tridimensionais de colágeno aniônico: elastina como suporte para reconstrução de tecidos moles: um estudo da integração matriz:tecido
Keywords in Portuguese
biocompatibilidade
colágeno aniônico
engenharia de tecidos
implante
matrizes tridimensionais
pericárdio bovino
tecido conjuntivo
colágeno aniônico
engenharia de tecidos
implante
matrizes tridimensionais
pericárdio bovino
tecido conjuntivo
Abstract in Portuguese
Este trabalho visou estudar a integração de implantes de colágeno aniônico:elastina obtidos a partir de pericárdio bovino acelularizado e com densidade de carga negativa variável. As cargas negativas foram introduzidas na forma de grupos carboxílicos, por hidrólise seletiva e controlada de grupos carboxamidas de asparagina e glutamina contidos na estrutura primária da proteína. Foram estudados materiais hidrolisados por 24 e 48 horas de tratamento correspondendo, respectivamente, a 46 '+ OU -' e 87 '+ OU -' cargas negativas adicionais em relação ao colágeno nativo. Os implantes foram introduzidos no subcutâneo de rato por tempos de 14, 60, 120 e 180 dias. Os materiais foram caracterizados por análise térmica, microscopia eletrônica de varredura e de transmissão, e os explantes avaliados por microscopia de luz (colorações de Hematoxilina: Eosina, tricrômico de Masson e Verhoeff). O objetivo foi avaliar o uso de matrizes com colágeno modificado para a reconstrução de tecidos moles. Diferentemente do tecido nativo (pericárdio bovino), a resposta biológica de matrizes de colágeno:elastina polianiônica após 14 dias do implante foi caracterizada por uma progressiva redução na fibrose, porém mais importante, não foram observadas células características de resposta inflamatória crônica, particularmente nos materiais tratados quimicamente. Após 180 dias, a maioria dos implantes estavam integrados à região implantada. Tais resultados sugerem que matrizes acelulares de colágeno:elastina preparadas pela desvitalização de tecido natural podem ser suportes bastante úteis para a reconstrução de tecidos moles, devido ao seu elevado grau de biocompatibilidade e integração
Title in English
Tridimentional collagen:elastin matrices as scaffold for soft tissue reconstruction: matrix:tissue integration study
Keywords in English
anionic collagen
biocompatibility
bovine pericardium
connective tissue
implant
tissue enginnering
tridimentional matrices
biocompatibility
bovine pericardium
connective tissue
implant
tissue enginnering
tridimentional matrices
Abstract in English
This work studied the integration of acellular polyanionic collagen:elastin matrices derived of bovine pericardium (BP) with variable negative charge. Negative charges were introduced in the material by selective hydrolisis of carboxamide side chain groups from Asn and Gln present in the primary structure of the protein. Hydrolized materials after 24 and 48 hours of treatment, respectively with 46 '+ OU -' and 87 '+ OU -' extra negative charges, were studied. Implants were placed in the subcutaneous of rats for periods of 14, 60, 120 and 180 days. Materials were characterized by differential scanning calorimetry, SEM and TEM, and explants analysed by optical microscopy (H.E., Masson tricromic and Verhoeff stains). The purpose of this work was to evaluate the use of modified collagen matrices for soft tissue reconstruction. Differently from native tissue (BP), the biological response of polyanionic collagen:elastin matrices after 14 days from implantation was characterized by a progressive decrease in fibrosis, but most important, no characteristic cells of a chronic inflammatory response were observed. After 180 days, most of the implants were integrated to the implant region. The results suggest that acellular collagen:elastin matrices prepared by devitalization of natural tissue due to their high degree of biocompatibility and integration may be potentially useful as a scaffold for soft tissue reconstruction
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Publishing Date
2006-03-30
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