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Author Title Type [ Year] Filters: Keyword is Biocompatible Materials and Author is Monteiro, F.J. [Clear All Filters]
Adhesion of Staphylococcus aureus, Staphylococcus epidermidis, and Pseudomonas aeruginosa onto nanohydroxyapatite as a bone regeneration material. Journal of Biomedical Materials Research - Part AJ. Biomed. Mater. Res. Part A, 100 A(7), 1823 - 1830.
(2012). Heparinized hydroxyapatite/collagen three-dimensional scaffolds for tissue engineering. Journal of Materials Science: Materials in MedicineJ. Mater. Sci. Mater. Med., 21(8), 2385 - 2392.
(2010). In vivo evaluation of highly macroporous ceramic scaffolds for bone tissue engineering. Journal of Biomedical Materials Research - Part AJ. Biomed. Mater. Res. Part A, 93(2), 567 - 575.
(2010). Innovative macroporous granules of nanostructured-hydroxyapatite agglomerates: Bioactivity and osteoblast-like cell behaviour. Journal of Biomedical Materials Research - Part AJ. Biomed. Mater. Res. Part A, 95(3 A), 891 - 900.
(2010). Biocompatibility of highly macroporous ceramic scaffolds: Cell adhesion and morphology studies. Journal of Materials Science: Materials in MedicineJ. Mater. Sci. Mater. Med., 19(2), 855 - 859.
(2008). Comparative study of nanohydroxyapatite microspheres for medical applications. Journal of Biomedical Materials Research - Part AJ. Biomed. Mater. Res. Part A, 86(2), 483 - 493.
(2008). PLD bioactive ceramic films: The influence of CaO-P 2O
5 glass additions to hydroxyapatite on the proliferation and morphology of osteblastic like-cells
. Journal of Materials Science: Materials in MedicineJ. Mater. Sci. Mater. Med., 19(4), 1775 - 1785.
(2008). Laser surface modification of hydroxyapatite and glass-reinforced hydroxyapatite. BiomaterialsBiomaterials, 25(19), 4607 - 4614.
(2004). Direct and indirect effects of P 2O
5 glass reinforced-hydroxyapatite composites on the growth and function of osteoblast-like cells
. BiomaterialsBiomaterials, 21(11United Kingdom), 1165 - 1172.
(2000). Flow cytometry analysis of the effects of pre-immersion on the biocompatibility of glass-reinforced hydroxyapatite plasma-sprayed coatings. BiomaterialsBiomaterials, 21(8Exeter, United Kingdom), 813 - 820.
(2000). Microstructural dependence of Young's and shear moduli of P 2O
5 glass reinforced hydroxyapatite for biomedical applications
. BiomaterialsBiomaterials, 21(7Exeter, United Kingdom), 749 - 754.
(2000). Glass-reinforced hydroxyapatite composites: Fracture toughness and hardness dependence on microstructural characteristics. BiomaterialsBiomaterials, 20(21Exeter, United Kingdom), 2085 - 2090.
(1999). Glass-reinforced hydroxyapatite composites: Secondary phase proportions and densification effects on biaxial bending strength. Journal of Biomedical Materials ResearchJ. Biomed. Mater. Res., 48(5New York, NY, United States), 734 - 740.
(1999). Hydrophobicity, surface tension, and zeta potential measurements of glass-reinforced hydroxyapatite composites. Journal of Biomedical Materials ResearchJ. Biomed. Mater. Res., 45(4New York, NY, United States), 370 - 375.
(1999). Flow cytometry for assessing biocompatibility. Journal of Biomedical Materials ResearchJ. Biomed. Mater. Res., 41(4New York, NY, United States), 649 - 656.
(1998). Surface modifications of glass-reinforced hydroxyapatite composites. BiomaterialsBIOMATERIALS, 16(7Oxford, United Kingdom), 521 - 526.
(1995).