The Role of Marine Organic Extract in Bone Regeneration: A Pilot Study

The Role of Marine Organic Extract in Bone Regeneration: A Pilot Study

Novel biomaterials capable of accelerating the healing process of skeletal tissues are urgently needed in dentistry. The present in vivo study assessed the osteoconductive and osteoinductive properties of experimental biphasic bioceramics (HA-TCP) modified or not by a nacre extract (marine organic e...

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Main Authors: João César Zielak, Ivana Vendramini, Paola Fernanda Cotait de Lucas Corso, Leonardo Luiz Muller, Viviane Rozeira Crivellaro, Sharukh Soli Khajotia, Fernando Luis Esteban Florez, Rafaela Scariot, Mohammed Elsalanty, Tatiana Miranda Deliberador, Carmen Lucia Mueller Storrer
Format: Article
Language:English
Published: Hindawi Limited 2020-01-01
Series:BioMed Research International
Online Access:http://dx.doi.org/10.1155/2020/2925879
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spelling doaj-06c1895743b24344ab1da90211e108d62020-11-25T01:33:24ZengHindawi LimitedBioMed Research International2314-61332314-61412020-01-01202010.1155/2020/29258792925879The Role of Marine Organic Extract in Bone Regeneration: A Pilot StudyJoão César Zielak0Ivana Vendramini1Paola Fernanda Cotait de Lucas Corso2Leonardo Luiz Muller3Viviane Rozeira Crivellaro4Sharukh Soli Khajotia5Fernando Luis Esteban Florez6Rafaela Scariot7Mohammed Elsalanty8Tatiana Miranda Deliberador9Carmen Lucia Mueller Storrer10School of Health Sciences, Universidade Positivo, Rua Professor Pedro Viriato Parigot de Souza, 5300 Curitiba, Paraná 81280-330, BrazilSchool of Health Sciences, Universidade Positivo, Rua Professor Pedro Viriato Parigot de Souza, 5300 Curitiba, Paraná 81280-330, BrazilSchool of Health Sciences, Universidade Positivo, Rua Professor Pedro Viriato Parigot de Souza, 5300 Curitiba, Paraná 81280-330, BrazilSchool of Health Sciences, Universidade Positivo, Rua Professor Pedro Viriato Parigot de Souza, 5300 Curitiba, Paraná 81280-330, BrazilSchool of Health Sciences, Universidade Positivo, Rua Professor Pedro Viriato Parigot de Souza, 5300 Curitiba, Paraná 81280-330, BrazilThe University of Oklahoma Health Sciences Center, Department of Restorative Sciences, Division of Dental Biomaterials, College of Dentistry, 1201 N. Stonewall Avenue, Oklahoma City, Oklahoma 73117, USAThe University of Oklahoma Health Sciences Center, Department of Restorative Sciences, Division of Dental Biomaterials, College of Dentistry, 1201 N. Stonewall Avenue, Oklahoma City, Oklahoma 73117, USASchool of Health Sciences, Universidade Positivo, Rua Professor Pedro Viriato Parigot de Souza, 5300 Curitiba, Paraná 81280-330, BrazilAugusta University, Department of Oral Biology and Diagnostic Sciences, Dental College of Georgia, Augusta, Georgia 30912, USASchool of Health Sciences, Universidade Positivo, Rua Professor Pedro Viriato Parigot de Souza, 5300 Curitiba, Paraná 81280-330, BrazilSchool of Health Sciences, Universidade Positivo, Rua Professor Pedro Viriato Parigot de Souza, 5300 Curitiba, Paraná 81280-330, BrazilNovel biomaterials capable of accelerating the healing process of skeletal tissues are urgently needed in dentistry. The present in vivo study assessed the osteoconductive and osteoinductive properties of experimental biphasic bioceramics (HA-TCP) modified or not by a nacre extract (marine organic extract, MOE) in a sheep model. Fabrication of MOE involved mixing ground nacre (0.05 g, particle sizes < 0.1 mm) with glacial ethanoic acid (5 mL, pH 7) for 72 hours using external magnetic stirring (25°C). Nonreactive carriers (sterile polythene tubes; 3/animal, radius: 2.5 mm, length: 10.0 mm) pertaining to the control (empty) or experimental groups (HA-TCP or MOE-modified HA-TCP) were implanted intramuscularly into the abdominal segment of the torso in sheep (n = 8, age: 2 years, weight: 45 kg). Euthanization of animals was performed at 3 and 6 months after surgery. Tissues harvested were subjected to macroscopic and radiographic assessments. Specimens were then stained for histological analysis. Both control and experimental animals were capable of inducing the neoformation of fibrous connective tissue at both time points where superior amounts of tissue formation and mineralization were detected for experimental groups (unaltered (at 3 and 6 mos) and MOE-modified HA-TCP (at 3 mos)). Histological results, however, revealed that mature bone formation was only observed for specimens fabricated with MOE-modified HA-TCP in a time-dependent manner. The present study has successfully demonstrated the in vivo utility of experimental biphasic bioceramics modified by MOE in an ectopic grafting sheep model. Promising osteoconductive and osteoinductive properties must be further developed and confirmed by subsequent research.http://dx.doi.org/10.1155/2020/2925879
collection DOAJ
language English
format Article
sources DOAJ
author João César Zielak
Ivana Vendramini
Paola Fernanda Cotait de Lucas Corso
Leonardo Luiz Muller
Viviane Rozeira Crivellaro
Sharukh Soli Khajotia
Fernando Luis Esteban Florez
Rafaela Scariot
Mohammed Elsalanty
Tatiana Miranda Deliberador
Carmen Lucia Mueller Storrer
spellingShingle João César Zielak
Ivana Vendramini
Paola Fernanda Cotait de Lucas Corso
Leonardo Luiz Muller
Viviane Rozeira Crivellaro
Sharukh Soli Khajotia
Fernando Luis Esteban Florez
Rafaela Scariot
Mohammed Elsalanty
Tatiana Miranda Deliberador
Carmen Lucia Mueller Storrer
The Role of Marine Organic Extract in Bone Regeneration: A Pilot Study
BioMed Research International
author_facet João César Zielak
Ivana Vendramini
Paola Fernanda Cotait de Lucas Corso
Leonardo Luiz Muller
Viviane Rozeira Crivellaro
Sharukh Soli Khajotia
Fernando Luis Esteban Florez
Rafaela Scariot
Mohammed Elsalanty
Tatiana Miranda Deliberador
Carmen Lucia Mueller Storrer
author_sort João César Zielak
title The Role of Marine Organic Extract in Bone Regeneration: A Pilot Study
title_short The Role of Marine Organic Extract in Bone Regeneration: A Pilot Study
title_full The Role of Marine Organic Extract in Bone Regeneration: A Pilot Study
title_fullStr The Role of Marine Organic Extract in Bone Regeneration: A Pilot Study
title_full_unstemmed The Role of Marine Organic Extract in Bone Regeneration: A Pilot Study
title_sort role of marine organic extract in bone regeneration: a pilot study
publisher Hindawi Limited
series BioMed Research International
issn 2314-6133
2314-6141
publishDate 2020-01-01
description Novel biomaterials capable of accelerating the healing process of skeletal tissues are urgently needed in dentistry. The present in vivo study assessed the osteoconductive and osteoinductive properties of experimental biphasic bioceramics (HA-TCP) modified or not by a nacre extract (marine organic extract, MOE) in a sheep model. Fabrication of MOE involved mixing ground nacre (0.05 g, particle sizes < 0.1 mm) with glacial ethanoic acid (5 mL, pH 7) for 72 hours using external magnetic stirring (25°C). Nonreactive carriers (sterile polythene tubes; 3/animal, radius: 2.5 mm, length: 10.0 mm) pertaining to the control (empty) or experimental groups (HA-TCP or MOE-modified HA-TCP) were implanted intramuscularly into the abdominal segment of the torso in sheep (n = 8, age: 2 years, weight: 45 kg). Euthanization of animals was performed at 3 and 6 months after surgery. Tissues harvested were subjected to macroscopic and radiographic assessments. Specimens were then stained for histological analysis. Both control and experimental animals were capable of inducing the neoformation of fibrous connective tissue at both time points where superior amounts of tissue formation and mineralization were detected for experimental groups (unaltered (at 3 and 6 mos) and MOE-modified HA-TCP (at 3 mos)). Histological results, however, revealed that mature bone formation was only observed for specimens fabricated with MOE-modified HA-TCP in a time-dependent manner. The present study has successfully demonstrated the in vivo utility of experimental biphasic bioceramics modified by MOE in an ectopic grafting sheep model. Promising osteoconductive and osteoinductive properties must be further developed and confirmed by subsequent research.
url http://dx.doi.org/10.1155/2020/2925879
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