Finite Element Modeling of Bone by Using Hydroxyapatite As Bioactive Nanomaterial in Bone Grafting, Bone Healing and the Reduction of Mechanical Failure in the Bone Surgery

Finite Element Modeling of Bone by Using Hydroxyapatite As Bioactive Nanomaterial in Bone Grafting, Bone Healing and the Reduction of Mechanical Failure in the Bone Surgery

Biomaterials engineered at the nano level play a significant role in human health care, in particular bone - related therapy, because of their unique functional properties. In this work we explained bone grafting, bone healing, Preparation of hydoxy apatite (HA) and finite element model for bone gra...

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Hauptverfasser: Reddy, C. M., Reddy, B. R. B., Reddy, E. K., Maheswaramma, K. S.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Biological system modeling
Bones
Finite element methods
Implants
Materials
Nanobioscience
Surgery
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Beschreibung
Zusammenfassung:Biomaterials engineered at the nano level play a significant role in human health care, in particular bone - related therapy, because of their unique functional properties. In this work we explained bone grafting, bone healing, Preparation of hydoxy apatite (HA) and finite element model for bone grafting and simulation. Finite Element Model (FEM) is useful for surgery and reduces failures. The main aim of this study is to provide a patient specific model where the surgical gestures were considered and to evaluate its relevance as a predictive tool.
DOI:10.1109/NSTSI.2011.6111995