Controlled Structure of Polyester/Hydroxyapatite Microparticles Fabricated via Pickering Emulsion Approach

Abstract: Biodegradable polyester/hydroxyapatite microparticles are widely proposed as microcarriers for drug/cell delivery or scaffolds for bone tissue regeneration. The current research implements the surfactant-free approach for the fabrication of polyester-based microparticles filled with hydroxyapatite nanoparticles (nHA) via the oil/water Pickering emulsion solvent evaporation technique for the first time, to the best of our knowledge. The process of polyester microparticle fabrication using nHA for the oil/water … Show more

“…The crystal structure of HAp is hexagonal, having a molar ratio of a Ca/P of 1.67 [ 2 ], which is currently widely applied in biomedical fields such as orthopedics and dentistry, bone tissue engineering, drug delivery materials, and cell imaging [ 3 ]. Various methods, such as the hydrothermal method [ 4 ], precipitation method [ 5 ], sol-gel method [ 6 ], electrodeposition techniques [ 7 ], double diffusion technique [ 8 ], biomimetics [ 9 ], emulsion [ 10 ] and template method [ 11 ] have reported for the fabrication of HAp. It can grow spheric-like, needle-like, fibrous, rod-shaped, irregularly spherical, and flake-shaped, depending on the different growth conditions of crystal faces of each method.…”

The Effect of Alginate Concentration on Crystallinity, Morphology, and Thermal Stability Properties of Hydroxyapatite/Alginate Composite

“…The crystal structure of HAp is hexagonal, having a molar ratio of a Ca/P of 1.67 [ 2 ], which is currently widely applied in biomedical fields such as orthopedics and dentistry, bone tissue engineering, drug delivery materials, and cell imaging [ 3 ]. Various methods, such as the hydrothermal method [ 4 ], precipitation method [ 5 ], sol-gel method [ 6 ], electrodeposition techniques [ 7 ], double diffusion technique [ 8 ], biomimetics [ 9 ], emulsion [ 10 ] and template method [ 11 ] have reported for the fabrication of HAp. It can grow spheric-like, needle-like, fibrous, rod-shaped, irregularly spherical, and flake-shaped, depending on the different growth conditions of crystal faces of each method.…”

The Effect of Alginate Concentration on Crystallinity, Morphology, and Thermal Stability Properties of Hydroxyapatite/Alginate Composite

Prospects for Using a Pulsed Tm-Doped Fiber Laser for Lithotripsy of Salivary Stones