Analysis of Bone Repair Tissue after Implantation of Biomaterials and Application of Vibratory Waves

Bone tissue in ideal conditions morphofunctional remodeling properly. The bone can be affected by fractures, tumors, hormonal dysfunction, senescence, genetic modifications, among others. In such circumstances, the proper diet, drug use, exercise and other factors are important to the prevention of...

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Veröffentlicht in:Materials science forum 2014-01, Vol.775-776, p.9-12
Hauptverfasser: Rossi, Alexandre Malta, Campos, Lilian, Junior, Aryon de Almeida Barbosa, Rolim, Ana Emília Holanda, Rosa, Fabiana Paim, Câmara-Pereira, Eliana dos Santos, Reale, Evelyn, Barreto, Rafael, de Albuquerque-Santos, Silvia Rachel
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container_title Materials science forum
container_volume 775-776
creator Rossi, Alexandre Malta
Campos, Lilian
Junior, Aryon de Almeida Barbosa
Rolim, Ana Emília Holanda
Rosa, Fabiana Paim
Câmara-Pereira, Eliana dos Santos
Reale, Evelyn
Barreto, Rafael
de Albuquerque-Santos, Silvia Rachel
description Bone tissue in ideal conditions morphofunctional remodeling properly. The bone can be affected by fractures, tumors, hormonal dysfunction, senescence, genetic modifications, among others. In such circumstances, the proper diet, drug use, exercise and other factors are important to the prevention of bone mineral loss. The effect of kinesiotherapy obtained through the application of vibratory waves administered through the vibrating platform, Juvent1000 ® already been established in the prevention of bone mineral density, muscular trophism, among other systems in humans. The response by analyzing bone tissue of bone repair in critical defect is not known in experimental animals and in human clinical. This research evaluated the osteogenic potential critical defect in the calvaria of rats subjected to the application of vibratory waves obtained by vibrating platform and implant in the critical defect of rat calvaria. The bone tissue response was evaluated showed satisfactory results obtained in biological points 15, 45 and 120 days.
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subjects Biomedical materials
Bones
Defects
Human
Minerals
Platforms
Repair
Surgical implants
title Analysis of Bone Repair Tissue after Implantation of Biomaterials and Application of Vibratory Waves
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