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3D implant of copolyamide associated with thermoplastic elastomer (PCTPE) for tracheal repair in rabbits (Oryctolagus cuniculus): preliminary study

Abstract Large segmental tracheal defects can pose a serious clinical challenge owing to the lack of suitable substitutes for reconstructive surgery. Polymeric biomaterials are widely used in medicine. However, the implantation of biomaterials triggers a series of biological events, and material bio...

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Published in:	Ciência animal brasileira 2024, Vol.25
Main Authors:	Rein, Ariadne, Costa, Marcelo Carrijo da, Montanhin, Gabriel, Fernandes, Gustavo, Leite, Marcella Dall’ Agnol, Carra, Gabriel João Unger, Vasconcelos, Rosemeri de Oliveira, Dias, Luís Gustavo Gosuen Gonçalves, Rocha, Thiago André Salvitti de Sá, Moraes, Paola Castro
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creator	Rein, Ariadne Costa, Marcelo Carrijo da Montanhin, Gabriel Fernandes, Gustavo Leite, Marcella Dall’ Agnol Carra, Gabriel João Unger Vasconcelos, Rosemeri de Oliveira Dias, Luís Gustavo Gosuen Gonçalves Rocha, Thiago André Salvitti de Sá Moraes, Paola Castro
description	Abstract Large segmental tracheal defects can pose a serious clinical challenge owing to the lack of suitable substitutes for reconstructive surgery. Polymeric biomaterials are widely used in medicine. However, the implantation of biomaterials triggers a series of biological events, and material biocompatibility is of paramount importance in regenerative medicine. The objective of this study was to evaluate the use of a copolyamide associated with thermoplastic elastomer (PCTPE) in 3D-printed prostheses for repairing partial tracheal defects in rabbits. Sixteen male New Zealand White rabbits were used, and partial tracheal defects were created in the ventral region from the 4th to the 8th tracheal ring. The animals were subdivided into groups (n=4) based on the time of euthanasia, scheduled at seven days (G7), 15 days (G15), 30 days (G30), and 60 days (G60). Histopathological analysis with hematoxylin and eosin staining revealed that the 3D implant of PCTPE exhibited a foreign body reaction, and inflammation persisted for up to 60 days. Histochemistry with picrosirius red revealed a tendency for a greater amount of type I collagen to accumulate in the early stages of inflammation, whereas type III collagen was predominant in later evaluation periods. These findings suggest an exacerbated and inadequate tissue-material interface reaction and perpetuation of the inflammatory process. Resumo Defeitos de grandes segmentos traqueais podem apresentar sério problema clínico, devido à ausência de substitutos na cirurgia reconstrutiva. Os biomateriais poliméricos estão entre os mais utilizados na medicina. Entretanto, a implantação de um biomaterial desencadeia uma série de eventos biológicos e a biocompatibilidade do material é de extrema importância para a medicina regenerativa. Objetivou-se com este estudo avaliar o uso da copoliamida associada ao elastômero termoplástico (PCTPE) em próteses impressas em 3D para reparação de defeitos parciais da traqueia de coelhos. Foram utilizados 16 coelhos machos da raça Nova Zelândia Branco, submetidos à criação de um defeito parcial de traqueia na região ventral do 4º ao 8º anel traqueal. Os animais foram subdivididos (n=4) de acordo com o momento das eutanásias, programadas com intervalo de sete (G7), quinze (G15), trinta (G30) e sessenta dias (G60). A análise histopatológica por hematoxilina e eosina (HE) revelou que o implante 3D de PCTPE apresentou reação do tipo corpo estranho e a inflamação persistiu até os 60 dias d
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Polymeric biomaterials are widely used in medicine. However, the implantation of biomaterials triggers a series of biological events, and material biocompatibility is of paramount importance in regenerative medicine. The objective of this study was to evaluate the use of a copolyamide associated with thermoplastic elastomer (PCTPE) in 3D-printed prostheses for repairing partial tracheal defects in rabbits. Sixteen male New Zealand White rabbits were used, and partial tracheal defects were created in the ventral region from the 4th to the 8th tracheal ring. The animals were subdivided into groups (n=4) based on the time of euthanasia, scheduled at seven days (G7), 15 days (G15), 30 days (G30), and 60 days (G60). Histopathological analysis with hematoxylin and eosin staining revealed that the 3D implant of PCTPE exhibited a foreign body reaction, and inflammation persisted for up to 60 days. Histochemistry with picrosirius red revealed a tendency for a greater amount of type I collagen to accumulate in the early stages of inflammation, whereas type III collagen was predominant in later evaluation periods. These findings suggest an exacerbated and inadequate tissue-material interface reaction and perpetuation of the inflammatory process. Resumo Defeitos de grandes segmentos traqueais podem apresentar sério problema clínico, devido à ausência de substitutos na cirurgia reconstrutiva. Os biomateriais poliméricos estão entre os mais utilizados na medicina. Entretanto, a implantação de um biomaterial desencadeia uma série de eventos biológicos e a biocompatibilidade do material é de extrema importância para a medicina regenerativa. Objetivou-se com este estudo avaliar o uso da copoliamida associada ao elastômero termoplástico (PCTPE) em próteses impressas em 3D para reparação de defeitos parciais da traqueia de coelhos. Foram utilizados 16 coelhos machos da raça Nova Zelândia Branco, submetidos à criação de um defeito parcial de traqueia na região ventral do 4º ao 8º anel traqueal. Os animais foram subdivididos (n=4) de acordo com o momento das eutanásias, programadas com intervalo de sete (G7), quinze (G15), trinta (G30) e sessenta dias (G60). A análise histopatológica por hematoxilina e eosina (HE) revelou que o implante 3D de PCTPE apresentou reação do tipo corpo estranho e a inflamação persistiu até os 60 dias de avaliação. A histoquímica de picrosirius vermelho revelou tendência de maior quantidade de colágeno tipo I nos tempos iniciais de inflamação, enquanto o colágeno tipo III foi predominante nos períodos tardios de avaliação. 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Polymeric biomaterials are widely used in medicine. However, the implantation of biomaterials triggers a series of biological events, and material biocompatibility is of paramount importance in regenerative medicine. The objective of this study was to evaluate the use of a copolyamide associated with thermoplastic elastomer (PCTPE) in 3D-printed prostheses for repairing partial tracheal defects in rabbits. Sixteen male New Zealand White rabbits were used, and partial tracheal defects were created in the ventral region from the 4th to the 8th tracheal ring. The animals were subdivided into groups (n=4) based on the time of euthanasia, scheduled at seven days (G7), 15 days (G15), 30 days (G30), and 60 days (G60). Histopathological analysis with hematoxylin and eosin staining revealed that the 3D implant of PCTPE exhibited a foreign body reaction, and inflammation persisted for up to 60 days. Histochemistry with picrosirius red revealed a tendency for a greater amount of type I collagen to accumulate in the early stages of inflammation, whereas type III collagen was predominant in later evaluation periods. These findings suggest an exacerbated and inadequate tissue-material interface reaction and perpetuation of the inflammatory process. Resumo Defeitos de grandes segmentos traqueais podem apresentar sério problema clínico, devido à ausência de substitutos na cirurgia reconstrutiva. Os biomateriais poliméricos estão entre os mais utilizados na medicina. Entretanto, a implantação de um biomaterial desencadeia uma série de eventos biológicos e a biocompatibilidade do material é de extrema importância para a medicina regenerativa. Objetivou-se com este estudo avaliar o uso da copoliamida associada ao elastômero termoplástico (PCTPE) em próteses impressas em 3D para reparação de defeitos parciais da traqueia de coelhos. Foram utilizados 16 coelhos machos da raça Nova Zelândia Branco, submetidos à criação de um defeito parcial de traqueia na região ventral do 4º ao 8º anel traqueal. Os animais foram subdivididos (n=4) de acordo com o momento das eutanásias, programadas com intervalo de sete (G7), quinze (G15), trinta (G30) e sessenta dias (G60). A análise histopatológica por hematoxilina e eosina (HE) revelou que o implante 3D de PCTPE apresentou reação do tipo corpo estranho e a inflamação persistiu até os 60 dias de avaliação. A histoquímica de picrosirius vermelho revelou tendência de maior quantidade de colágeno tipo I nos tempos iniciais de inflamação, enquanto o colágeno tipo III foi predominante nos períodos tardios de avaliação. 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Histochemistry with picrosirius red revealed a tendency for a greater amount of type I collagen to accumulate in the early stages of inflammation, whereas type III collagen was predominant in later evaluation periods. These findings suggest an exacerbated and inadequate tissue-material interface reaction and perpetuation of the inflammatory process. Resumo Defeitos de grandes segmentos traqueais podem apresentar sério problema clínico, devido à ausência de substitutos na cirurgia reconstrutiva. Os biomateriais poliméricos estão entre os mais utilizados na medicina. Entretanto, a implantação de um biomaterial desencadeia uma série de eventos biológicos e a biocompatibilidade do material é de extrema importância para a medicina regenerativa. Objetivou-se com este estudo avaliar o uso da copoliamida associada ao elastômero termoplástico (PCTPE) em próteses impressas em 3D para reparação de defeitos parciais da traqueia de coelhos. Foram utilizados 16 coelhos machos da raça Nova Zelândia Branco, submetidos à criação de um defeito parcial de traqueia na região ventral do 4º ao 8º anel traqueal. Os animais foram subdivididos (n=4) de acordo com o momento das eutanásias, programadas com intervalo de sete (G7), quinze (G15), trinta (G30) e sessenta dias (G60). A análise histopatológica por hematoxilina e eosina (HE) revelou que o implante 3D de PCTPE apresentou reação do tipo corpo estranho e a inflamação persistiu até os 60 dias de avaliação. A histoquímica de picrosirius vermelho revelou tendência de maior quantidade de colágeno tipo I nos tempos iniciais de inflamação, enquanto o colágeno tipo III foi predominante nos períodos tardios de avaliação. 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title	3D implant of copolyamide associated with thermoplastic elastomer (PCTPE) for tracheal repair in rabbits (Oryctolagus cuniculus): preliminary study
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