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Tissue Bioengineering with Fibrin Scaffolds and Deproteinized Bone Matrix Associated or Not with the Transoperative Laser Photobiomodulation Protocol

Extending the range of use of the heterologous fibrin biopolymer, this pre-clinical study showed a new proportionality of its components directed to the formation of scaffold with a lower density of the resulting mesh to facilitate the infiltration of bone cells, and combined with therapy by laser p...

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Autores principales: Pomini, Karina Torres, Buchaim, Daniela Vieira, Bighetti, Ana Carolina Cestari, Hamzé, Abdul Latif, Reis, Carlos Henrique Bertoni, Duarte, Marco Antonio Húngaro, Alcalde, Murilo Priori, Barraviera, Benedito, Júnior, Rui Seabra Ferreira, de Souza, Alexandre Teixeira, da Silva Santos, Paulo Sérgio, Pilon, João Paulo Galletti, de Marchi, Miguel Ângelo, Nogueira, Dayane Maria Braz, de Souza Bueno, Cleuber Rodrigo, Soares, Wendel Cleber, Buchaim, Rogerio Leone
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9824823/
https://www.ncbi.nlm.nih.gov/pubmed/36615601
http://dx.doi.org/10.3390/molecules28010407
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author Pomini, Karina Torres
Buchaim, Daniela Vieira
Bighetti, Ana Carolina Cestari
Hamzé, Abdul Latif
Reis, Carlos Henrique Bertoni
Duarte, Marco Antonio Húngaro
Alcalde, Murilo Priori
Barraviera, Benedito
Júnior, Rui Seabra Ferreira
de Souza, Alexandre Teixeira
da Silva Santos, Paulo Sérgio
Pilon, João Paulo Galletti
de Marchi, Miguel Ângelo
Nogueira, Dayane Maria Braz
de Souza Bueno, Cleuber Rodrigo
Soares, Wendel Cleber
Buchaim, Rogerio Leone
author_facet Pomini, Karina Torres
Buchaim, Daniela Vieira
Bighetti, Ana Carolina Cestari
Hamzé, Abdul Latif
Reis, Carlos Henrique Bertoni
Duarte, Marco Antonio Húngaro
Alcalde, Murilo Priori
Barraviera, Benedito
Júnior, Rui Seabra Ferreira
de Souza, Alexandre Teixeira
da Silva Santos, Paulo Sérgio
Pilon, João Paulo Galletti
de Marchi, Miguel Ângelo
Nogueira, Dayane Maria Braz
de Souza Bueno, Cleuber Rodrigo
Soares, Wendel Cleber
Buchaim, Rogerio Leone
author_sort Pomini, Karina Torres
collection PubMed
description Extending the range of use of the heterologous fibrin biopolymer, this pre-clinical study showed a new proportionality of its components directed to the formation of scaffold with a lower density of the resulting mesh to facilitate the infiltration of bone cells, and combined with therapy by laser photobiomodulation, in order to accelerate the repair process and decrease the morphofunctional recovery time. Thus, a transoperative protocol of laser photobiomodulation (L) was evaluated in critical bone defects filled with deproteinized bovine bone particles (P) associated with heterologous fibrin biopolymer (HF). The groups were: BC(L) (blood clot + laser); HF; HF(L); PHF (P+HF); PHF(L) (P+HF+L). Microtomographically, bone volume (BV) at 14 days, was higher in the PHF and PHF(L) groups (10.45 ± 3.31 mm(3) and 9.94 ± 1.51 mm(3)), significantly increasing in the BC(L), HF(L) and PHF(L) groups. Histologically, in all experimental groups, the defects were not reestablished either in the external cortical bone or in the epidural, occurring only in partial bone repair. At 42 days, the bone area (BA) increased in all groups, being significantly higher in the laser-treated groups. The quantification of bone collagen fibers showed that the percentage of collagen fibers in the bone tissue was similar between the groups for each experimental period, but significantly higher at 42 days (35.71 ± 6.89%) compared to 14 days (18.94 ± 6.86%). It can be concluded that the results of the present study denote potential effects of laser radiation capable of inducing functional bone regeneration, through the synergistic combination of biomaterials and the new ratio of heterologous fibrin biopolymer components (1:1:1) was able to make the resulting fibrin mesh less dense and susceptible to cellular permeability. Thus, the best fibrinogen concentration should be evaluated to find the ideal heterologous fibrin scaffold.
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spelling pubmed-98248232023-01-08 Tissue Bioengineering with Fibrin Scaffolds and Deproteinized Bone Matrix Associated or Not with the Transoperative Laser Photobiomodulation Protocol Pomini, Karina Torres Buchaim, Daniela Vieira Bighetti, Ana Carolina Cestari Hamzé, Abdul Latif Reis, Carlos Henrique Bertoni Duarte, Marco Antonio Húngaro Alcalde, Murilo Priori Barraviera, Benedito Júnior, Rui Seabra Ferreira de Souza, Alexandre Teixeira da Silva Santos, Paulo Sérgio Pilon, João Paulo Galletti de Marchi, Miguel Ângelo Nogueira, Dayane Maria Braz de Souza Bueno, Cleuber Rodrigo Soares, Wendel Cleber Buchaim, Rogerio Leone Molecules Article Extending the range of use of the heterologous fibrin biopolymer, this pre-clinical study showed a new proportionality of its components directed to the formation of scaffold with a lower density of the resulting mesh to facilitate the infiltration of bone cells, and combined with therapy by laser photobiomodulation, in order to accelerate the repair process and decrease the morphofunctional recovery time. Thus, a transoperative protocol of laser photobiomodulation (L) was evaluated in critical bone defects filled with deproteinized bovine bone particles (P) associated with heterologous fibrin biopolymer (HF). The groups were: BC(L) (blood clot + laser); HF; HF(L); PHF (P+HF); PHF(L) (P+HF+L). Microtomographically, bone volume (BV) at 14 days, was higher in the PHF and PHF(L) groups (10.45 ± 3.31 mm(3) and 9.94 ± 1.51 mm(3)), significantly increasing in the BC(L), HF(L) and PHF(L) groups. Histologically, in all experimental groups, the defects were not reestablished either in the external cortical bone or in the epidural, occurring only in partial bone repair. At 42 days, the bone area (BA) increased in all groups, being significantly higher in the laser-treated groups. The quantification of bone collagen fibers showed that the percentage of collagen fibers in the bone tissue was similar between the groups for each experimental period, but significantly higher at 42 days (35.71 ± 6.89%) compared to 14 days (18.94 ± 6.86%). It can be concluded that the results of the present study denote potential effects of laser radiation capable of inducing functional bone regeneration, through the synergistic combination of biomaterials and the new ratio of heterologous fibrin biopolymer components (1:1:1) was able to make the resulting fibrin mesh less dense and susceptible to cellular permeability. Thus, the best fibrinogen concentration should be evaluated to find the ideal heterologous fibrin scaffold. MDPI 2023-01-03 /pmc/articles/PMC9824823/ /pubmed/36615601 http://dx.doi.org/10.3390/molecules28010407 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Pomini, Karina Torres
Buchaim, Daniela Vieira
Bighetti, Ana Carolina Cestari
Hamzé, Abdul Latif
Reis, Carlos Henrique Bertoni
Duarte, Marco Antonio Húngaro
Alcalde, Murilo Priori
Barraviera, Benedito
Júnior, Rui Seabra Ferreira
de Souza, Alexandre Teixeira
da Silva Santos, Paulo Sérgio
Pilon, João Paulo Galletti
de Marchi, Miguel Ângelo
Nogueira, Dayane Maria Braz
de Souza Bueno, Cleuber Rodrigo
Soares, Wendel Cleber
Buchaim, Rogerio Leone
Tissue Bioengineering with Fibrin Scaffolds and Deproteinized Bone Matrix Associated or Not with the Transoperative Laser Photobiomodulation Protocol
title Tissue Bioengineering with Fibrin Scaffolds and Deproteinized Bone Matrix Associated or Not with the Transoperative Laser Photobiomodulation Protocol
title_full Tissue Bioengineering with Fibrin Scaffolds and Deproteinized Bone Matrix Associated or Not with the Transoperative Laser Photobiomodulation Protocol
title_fullStr Tissue Bioengineering with Fibrin Scaffolds and Deproteinized Bone Matrix Associated or Not with the Transoperative Laser Photobiomodulation Protocol
title_full_unstemmed Tissue Bioengineering with Fibrin Scaffolds and Deproteinized Bone Matrix Associated or Not with the Transoperative Laser Photobiomodulation Protocol
title_short Tissue Bioengineering with Fibrin Scaffolds and Deproteinized Bone Matrix Associated or Not with the Transoperative Laser Photobiomodulation Protocol
title_sort tissue bioengineering with fibrin scaffolds and deproteinized bone matrix associated or not with the transoperative laser photobiomodulation protocol
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9824823/
https://www.ncbi.nlm.nih.gov/pubmed/36615601
http://dx.doi.org/10.3390/molecules28010407
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