Biomateriais para reparação cirúrgica da parede abdominal em animais domésticos: revisão / Biomaterials for surgical repair of abdominal wall in animals: review / Biomateriales para reparación quirúrgica de la pared abdominal en animales domésticos: revisión

A reparação dos tecidos que compõem a parede abdominal é uma necessidade cirúrgica constante. Especificamente para utilização em animais domésticos, o maior desafio é o desenvolvimento de biomateriais que suportem forças exercidas pelas vísceras, em virtude de sua posição quadrupedal e pela movimentação das estruturas após o procedimento cirúrgico. Nas últimas décadas diversos materiais sintéticos têm surgido e apresentado resultados significativos em relação à tensão a que são submetidos e à formação de tecido cicatricial. No entanto, o conhecimento interdisciplinar das estruturas moleculares responsáveis pela antigenicidade, proliferação celular e dos mecanismos que possam alterá-los, proporcionou a obtenção de biomembranas derivadas de tecidos orgânicos, com resultados superiores em relação à interação com os tecidos dos hospedeiros dos implantes e à regeneração tecidual. Assim, o objetivo desta revisão é de conflitar os principais trabalhos de uso comparativo de biomateriais naturais e sintéticos na parede abdominal e compilar os conhecimentos moleculares, que norteiam o desenvolvimento de técnicas de obtenção de biomateriais naturais.

The repairing of abdominal wall tissues is a constant surgical necessity. Specifically for use in domestic animals, the biggest challenge is the development of biomaterials that support forces exerted for the viscera, due to quadruped position and for the movement of the structures after the surgical procedure. In the last decades several synthetic materials have appeared and presented significant results in relation to the tension that are submitted and to the cicatricial tissue formation. However, the interdisciplinary knowledge of antigenic molecular structures, cellular proliferation signs and of the mechanisms that can modify them provided the attainment of biomembranes derived from organic tissues with superior results in relation to the interaction with host tissues and to tissue regeneration. Therefore, the objective of this review is to conflict the main works of comparative use of natural and synthetic biomaterials in the abdominal wall and to compile the molecular knowledge that guide the development of techniques of attainment of natural biomaterials.

La reparación de los tejidos que componen la pared abdominal es una necesidad quirúrgica constante. Específicamente para utilización en animales domésticos, el mayor reto es el desarrollo de biomateriales que soporten fuerzas ejercidas por las vísceras, debido a su posición cuadrupedal y por el movimiento de las estructuras tras el procedimiento quirúrgico. En las últimas décadas, muchos materiales sintéticos han surgido y han mostrado resultados significativos en relación a la tensión a que son sometidos y a la formación de tejido cicatrizal. Sin embargo, el conocimiento interdisciplinario de las estructuras moleculares responsables por la antigenicidad, la proliferación celular y de los mecanismos que pueden alterarlos, resultó a obtener biomembranas derivadas de tejidos orgánicos, con resultados superiores en relación a la interacción con los tejidos huéspedes de los implantes y a la regeneración de los tejidos. Por lo tanto, el objetivo de esta revisión es discutir los principales trabajos de uso comparativo de biomateriales naturales y sintéticos en la pared abdominal y compilar los conocimientos moleculares, que guían el desarrollo de técnicas de obtención de biomateriales naturales.

Guided bone regeneration with beta-tricalcium phosphate and poly Llactide-co-glycolide-co-epsilon-caprolactone membrane in partial defects of canine humerus

This study was performed to evaluate the effect of betatricalcium phosphate and poly L-lactide-co-glycolide-coepsilon- caprolactone (TCP/PLGC) membrane in the repair of partial bone defects in canine proximal humerus. Three adult mixed-breed dogs were used during the experimental period. The length of the defect was quarter of the full length of humerus, and width of the defect was quarter of middle diameter of the lateral aspect of humerus. The humeri of each dog were divided into treatment (TCP/ PLGC) and control groups. The defect was covered with TCP/PLGC membrane in treatment group. To evaluate regeneration of the bone, computerized tomography (CT) and histopathologic examination were performed. The radiopaque lines were appeared at the original defect sites in TCP/PLGC group but below the original site in control at 4th week. Radiopacity and thickness of the defect sites, and radiopaque lines were more increased at 8th week than those of 4th week. Histopathologic findings revealed fibrous connective tissue migration into the defect and the migration inhibited the structure of new cortex to be placed in the original level in control whereas new cortex growth was found in the level of original line in TCP/ PLGC group. However, the new cortical bone in the TCP/ PLGC group was thinner and less organized than the adjacent intact cortex, and the amount of new cancellous bones were also scanty. The result suggested that TCP/ PLGC membrane is a good guided bone regeneration material to restore the original morphology of humerus in partial defect.