Calcium-binding phospholipids as a coating material for implant osteointegration

Among the many biomolecules involved in the bone mineralization processes, anionic phospholipids play an important role because of their ability to bind calcium. In particular, phosphatidylserine is a natural component of the plasmalemma and of the matrix vesicles generated from the osteoblast membr...

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Veröffentlicht in:	Journal of the Royal Society interface 2006-04, Vol.3 (7), p.277-281
Hauptverfasser:	Santin, Matteo, Rhys-Williams, William, O'Reilly, Josephine, Davies, Martyn C, Shakesheff, Kevin, Love, William G, Lloyd, Andrew W, Denyer, Stephen P
Format:	Artikel
Sprache:	eng
Schlagworte:	Biomaterials Biomimetic Materials - chemical synthesis Biomimetic Materials - chemistry Body Fluids - chemistry Calcification, Physiologic - physiology Calcium Phosphates - chemistry Coated Materials, Biocompatible - chemical synthesis Coated Materials, Biocompatible - chemistry Coatings Computer Simulation Microscopy, Electron, Scanning Mineralization Osseointegration - physiology Osteointegration Phospholipids Phospholipids - chemistry Prostheses and Implants Research Article Surface Plasmon Resonance
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container_title	Journal of the Royal Society interface
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creator	Santin, Matteo Rhys-Williams, William O'Reilly, Josephine Davies, Martyn C Shakesheff, Kevin Love, William G Lloyd, Andrew W Denyer, Stephen P
description	Among the many biomolecules involved in the bone mineralization processes, anionic phospholipids play an important role because of their ability to bind calcium. In particular, phosphatidylserine is a natural component of the plasmalemma and of the matrix vesicles generated from the osteoblast membrane to create nucleation centres for calcium phosphate crystal precipitation. In the present work, we demonstrate that calcium-binding phospholipids can be used as biomimetic coating materials for improving the osteointegration of metal implants. Relatively thick phosphatidylserine-based coatings were deposited on titanium coupons by dip-coating. Upon dehydration in a simulated body fluid phospholipids were quickly crosslinked by calcium and re-arranged into a three-dimensional matrix able to induce rapid formation of a calcium phosphate mineral phase. The rate of mineralization was shown to be dependent on the adopted coating formulation. In the attempt to closely mimic the cell membrane composition, heterogeneous formulations based on the mixing of anionic phospholipids (either phosphatidylserine or phosphatidylinositol) with phosphatidylcholine and cholesterol were synthesized. However, surface plasmon resonance studies as well as scanning electron microscopy and elemental analysis demonstrated that the homogeneous phosphatidylserine coating was a more effective calcification environment than the heterogeneous formulations.
doi_str_mv	10.1098/rsif.2005.0088
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In particular, phosphatidylserine is a natural component of the plasmalemma and of the matrix vesicles generated from the osteoblast membrane to create nucleation centres for calcium phosphate crystal precipitation. In the present work, we demonstrate that calcium-binding phospholipids can be used as biomimetic coating materials for improving the osteointegration of metal implants. Relatively thick phosphatidylserine-based coatings were deposited on titanium coupons by dip-coating. Upon dehydration in a simulated body fluid phospholipids were quickly crosslinked by calcium and re-arranged into a three-dimensional matrix able to induce rapid formation of a calcium phosphate mineral phase. The rate of mineralization was shown to be dependent on the adopted coating formulation. In the attempt to closely mimic the cell membrane composition, heterogeneous formulations based on the mixing of anionic phospholipids (either phosphatidylserine or phosphatidylinositol) with phosphatidylcholine and cholesterol were synthesized. 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In particular, phosphatidylserine is a natural component of the plasmalemma and of the matrix vesicles generated from the osteoblast membrane to create nucleation centres for calcium phosphate crystal precipitation. In the present work, we demonstrate that calcium-binding phospholipids can be used as biomimetic coating materials for improving the osteointegration of metal implants. Relatively thick phosphatidylserine-based coatings were deposited on titanium coupons by dip-coating. Upon dehydration in a simulated body fluid phospholipids were quickly crosslinked by calcium and re-arranged into a three-dimensional matrix able to induce rapid formation of a calcium phosphate mineral phase. The rate of mineralization was shown to be dependent on the adopted coating formulation. 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subjects	Biomaterials Biomimetic Materials - chemical synthesis Biomimetic Materials - chemistry Body Fluids - chemistry Calcification, Physiologic - physiology Calcium Phosphates - chemistry Coated Materials, Biocompatible - chemical synthesis Coated Materials, Biocompatible - chemistry Coatings Computer Simulation Microscopy, Electron, Scanning Mineralization Osseointegration - physiology Osteointegration Phospholipids Phospholipids - chemistry Prostheses and Implants Research Article Surface Plasmon Resonance
title	Calcium-binding phospholipids as a coating material for implant osteointegration
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