Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis

Amaral, Maurício Bordini do; Viana, Rommel Bezerra; Viana, Katúcia Bezerra; Diagone, Cristina Aparecida; Denis, Aline Bassi; Plepis, Ana Maria de Guzzi

Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis

Detalhes bibliográficos
Autor(a) principal:	Amaral, Maurício Bordini do
Data de Publicação:	2023
Outros Autores:	Viana, Rommel Bezerra, Viana, Katúcia Bezerra, Diagone, Cristina Aparecida, Denis, Aline Bassi, Plepis, Ana Maria de Guzzi
Tipo de documento:	Artigo
Idioma:	eng
Título da fonte:	Acta scientiarum. Technology (Online)
Texto Completo:	http://www.periodicos.uem.br/ojs/index.php/ActaSciTechnol/article/view/63001
Resumo:	This investigation used materials based on synthetic hydroxyapatite and mineralized bovine tendon as a framework for bone regeneration and evaluated the osteoconductivity of these materials in the calvaria of Wistar rats in comparison to Bio-Oss/Geistlich. Micro-computed tomography (µ-CT) analyses were performed non-invasively using three-dimensional image reconstruction to evaluate new bone formation; in addition, conventional histological analysis was used. The µ-CT results showed that Bio-Oss resulted in higher volume, density and bone percentage than the other materials. Based on the three-dimensional reconstructed images, the lowest resorption rates were observed in the Bio-Oss group, and the materials remained in larger quantities inside the defect at thirty days. In the synthetic hydroxyapatite group, intense resorption of the material and slight bone formation on the defect margins were noted, yielding an irregular edge. The mineralized bovine tendon group showed discrete new bone formation, and the material was fully resorbed. The Bio-Oss and synthetic hydroxyapatite groups yielded similar amounts of blood vessels and osteoblastic cells, and these were higher than the amounts found in the mineralized bovine tendon group. Synthetic hydroxyapatite was present within the defect and exhibited osteoconductive properties that were similar to the commercial brand, Bio-Oss. Mineralized bovine tendon did not exhibit good osteoconductivity and is contraindicated for maintaining bone space. Moreover, µ-CT yielded lower specificity; that is, µ-CT was not able to distinguish bone tissue from Bio-Oss, although it exhibited high sensitivity. Based on these results, it appears that synthetic hydroxyapatite has great potential for use in filling bone defects, unlike mineralized bovine tendon

Metadados do item

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network_acronym_str	UEM-6
network_name_str	Acta scientiarum. Technology (Online)
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spelling	Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysisBone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysisbiomaterials; bone defect; histological analysis.biomaterials; bone graft; critical size defect; histological analysis.This investigation used materials based on synthetic hydroxyapatite and mineralized bovine tendon as a framework for bone regeneration and evaluated the osteoconductivity of these materials in the calvaria of Wistar rats in comparison to Bio-Oss/Geistlich. Micro-computed tomography (µ-CT) analyses were performed non-invasively using three-dimensional image reconstruction to evaluate new bone formation; in addition, conventional histological analysis was used. The µ-CT results showed that Bio-Oss resulted in higher volume, density and bone percentage than the other materials. Based on the three-dimensional reconstructed images, the lowest resorption rates were observed in the Bio-Oss group, and the materials remained in larger quantities inside the defect at thirty days. In the synthetic hydroxyapatite group, intense resorption of the material and slight bone formation on the defect margins were noted, yielding an irregular edge. The mineralized bovine tendon group showed discrete new bone formation, and the material was fully resorbed. The Bio-Oss and synthetic hydroxyapatite groups yielded similar amounts of blood vessels and osteoblastic cells, and these were higher than the amounts found in the mineralized bovine tendon group. Synthetic hydroxyapatite was present within the defect and exhibited osteoconductive properties that were similar to the commercial brand, Bio-Oss. Mineralized bovine tendon did not exhibit good osteoconductivity and is contraindicated for maintaining bone space. Moreover, µ-CT yielded lower specificity; that is, µ-CT was not able to distinguish bone tissue from Bio-Oss, although it exhibited high sensitivity. Based on these results, it appears that synthetic hydroxyapatite has great potential for use in filling bone defects, unlike mineralized bovine tendonThis investigation used materials based on synthetic hydroxyapatite and mineralized bovine tendon as a framework for bone regeneration and evaluated the osteoconductivity of these materials in the calvaria of Wistar rats in comparison to Bio-Oss/Geistlich. Micro-computed tomography (µ-CT) analyses were performed non-invasively using three-dimensional image reconstruction to evaluate new bone formation; in addition, conventional histological analysis was used. The µ-CT results showed that Bio-Oss resulted in higher volume, density and bone percentage than the other materials. Based on the three-dimensional reconstructed images, the lowest resorption rates were observed in the Bio-Oss group, and the materials remained in larger quantities inside the defect at thirty days. In the synthetic hydroxyapatite group, intense resorption of the material and slight bone formation on the defect margins were noted, yielding an irregular edge. The mineralized bovine tendon group showed discrete new bone formation, and the material was fully resorbed. The Bio-Oss and synthetic hydroxyapatite groups yielded similar amounts of blood vessels and osteoblastic cells, and these were higher than the amounts found in the mineralized bovine tendon group. Synthetic hydroxyapatite was present within the defect and exhibited osteoconductive properties that were similar to the commercial brand, Bio-Oss. Mineralized bovine tendon did not exhibit good osteoconductivity and is contraindicated for maintaining bone space. Moreover, µ-CT yielded lower specificity; that is, µ-CT was not able to distinguish bone tissue from Bio-Oss, although it exhibited high sensitivity. Based on these results, it appears that synthetic hydroxyapatite has great potential for use in filling bone defects, unlike mineralized bovine tendonUniversidade Estadual De Maringá2023-11-06info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttp://www.periodicos.uem.br/ojs/index.php/ActaSciTechnol/article/view/6300110.4025/actascitechnol.v46i1.63001Acta Scientiarum. Technology; Vol 46 No 1 (2024): Em proceso; e63001Acta Scientiarum. Technology; v. 46 n. 1 (2024): Publicação contínua; e630011806-25631807-8664reponame:Acta scientiarum. Technology (Online)instname:Universidade Estadual de Maringá (UEM)instacron:UEMenghttp://www.periodicos.uem.br/ojs/index.php/ActaSciTechnol/article/view/63001/751375156637Copyright (c) 2024 Acta Scientiarum. Technologyhttp://creativecommons.org/licenses/by/4.0info:eu-repo/semantics/openAccessAmaral, Maurício Bordini do Viana, Rommel Bezerra Viana, Katúcia Bezerra Diagone, Cristina Aparecida Denis, Aline Bassi Plepis, Ana Maria de Guzzi 2024-02-08T19:23:20Zoai:periodicos.uem.br/ojs:article/63001Revistahttps://www.periodicos.uem.br/ojs/index.php/ActaSciTechnol/indexPUBhttps://www.periodicos.uem.br/ojs/index.php/ActaSciTechnol/oai\|\|actatech@uem.br1807-86641806-2563opendoar:2024-02-08T19:23:20Acta scientiarum. Technology (Online) - Universidade Estadual de Maringá (UEM)false
dc.title.none.fl_str_mv	Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis
title	Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis
spellingShingle	Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis Amaral, Maurício Bordini do biomaterials; bone defect; histological analysis. biomaterials; bone graft; critical size defect; histological analysis.
title_short	Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis
title_full	Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis
title_fullStr	Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis
title_full_unstemmed	Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis
title_sort	Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis
author	Amaral, Maurício Bordini do
author_facet	Amaral, Maurício Bordini do Viana, Rommel Bezerra Viana, Katúcia Bezerra Diagone, Cristina Aparecida Denis, Aline Bassi Plepis, Ana Maria de Guzzi
author_role	author
author2	Viana, Rommel Bezerra Viana, Katúcia Bezerra Diagone, Cristina Aparecida Denis, Aline Bassi Plepis, Ana Maria de Guzzi
author2_role	author author author author author
dc.contributor.author.fl_str_mv	Amaral, Maurício Bordini do Viana, Rommel Bezerra Viana, Katúcia Bezerra Diagone, Cristina Aparecida Denis, Aline Bassi Plepis, Ana Maria de Guzzi
dc.subject.por.fl_str_mv	biomaterials; bone defect; histological analysis. biomaterials; bone graft; critical size defect; histological analysis.
topic	biomaterials; bone defect; histological analysis. biomaterials; bone graft; critical size defect; histological analysis.
description	This investigation used materials based on synthetic hydroxyapatite and mineralized bovine tendon as a framework for bone regeneration and evaluated the osteoconductivity of these materials in the calvaria of Wistar rats in comparison to Bio-Oss/Geistlich. Micro-computed tomography (µ-CT) analyses were performed non-invasively using three-dimensional image reconstruction to evaluate new bone formation; in addition, conventional histological analysis was used. The µ-CT results showed that Bio-Oss resulted in higher volume, density and bone percentage than the other materials. Based on the three-dimensional reconstructed images, the lowest resorption rates were observed in the Bio-Oss group, and the materials remained in larger quantities inside the defect at thirty days. In the synthetic hydroxyapatite group, intense resorption of the material and slight bone formation on the defect margins were noted, yielding an irregular edge. The mineralized bovine tendon group showed discrete new bone formation, and the material was fully resorbed. The Bio-Oss and synthetic hydroxyapatite groups yielded similar amounts of blood vessels and osteoblastic cells, and these were higher than the amounts found in the mineralized bovine tendon group. Synthetic hydroxyapatite was present within the defect and exhibited osteoconductive properties that were similar to the commercial brand, Bio-Oss. Mineralized bovine tendon did not exhibit good osteoconductivity and is contraindicated for maintaining bone space. Moreover, µ-CT yielded lower specificity; that is, µ-CT was not able to distinguish bone tissue from Bio-Oss, although it exhibited high sensitivity. Based on these results, it appears that synthetic hydroxyapatite has great potential for use in filling bone defects, unlike mineralized bovine tendon
publishDate	2023
dc.date.none.fl_str_mv	2023-11-06
dc.type.driver.fl_str_mv	info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion
format	article
status_str	publishedVersion
dc.identifier.uri.fl_str_mv	http://www.periodicos.uem.br/ojs/index.php/ActaSciTechnol/article/view/63001 10.4025/actascitechnol.v46i1.63001
url	http://www.periodicos.uem.br/ojs/index.php/ActaSciTechnol/article/view/63001
identifier_str_mv	10.4025/actascitechnol.v46i1.63001
dc.language.iso.fl_str_mv	eng
language	eng
dc.relation.none.fl_str_mv	http://www.periodicos.uem.br/ojs/index.php/ActaSciTechnol/article/view/63001/751375156637
dc.rights.driver.fl_str_mv	Copyright (c) 2024 Acta Scientiarum. Technology http://creativecommons.org/licenses/by/4.0 info:eu-repo/semantics/openAccess
rights_invalid_str_mv	Copyright (c) 2024 Acta Scientiarum. Technology http://creativecommons.org/licenses/by/4.0
eu_rights_str_mv	openAccess
dc.format.none.fl_str_mv	application/pdf
dc.publisher.none.fl_str_mv	Universidade Estadual De Maringá
publisher.none.fl_str_mv	Universidade Estadual De Maringá
dc.source.none.fl_str_mv	Acta Scientiarum. Technology; Vol 46 No 1 (2024): Em proceso; e63001 Acta Scientiarum. Technology; v. 46 n. 1 (2024): Publicação contínua; e63001 1806-2563 1807-8664 reponame:Acta scientiarum. Technology (Online) instname:Universidade Estadual de Maringá (UEM) instacron:UEM
instname_str	Universidade Estadual de Maringá (UEM)
instacron_str	UEM
institution	UEM
reponame_str	Acta scientiarum. Technology (Online)
collection	Acta scientiarum. Technology (Online)
repository.name.fl_str_mv	Acta scientiarum. Technology (Online) - Universidade Estadual de Maringá (UEM)
repository.mail.fl_str_mv	\|\|actatech@uem.br
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Bone regeneration in critical size calvarial defects using synthetic hydroxyapatite and mineralized bovine tendon base materials: a micro-computed tomography analysis

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