Effect of inositol on the thermally induced crystallization and phase evolution of amorphous calcium phosphate

Abstract: The present research investigated the dose-dependent effect of inositol on the thermally induced crystallization and phase evolution of amorphous calcium phosphate. It has been demonstrated that the crystallization of amorphous...

“…Previous study confirmed that the polyethylene glycol during the preparation process possessed a dose-dependent effect on the thermally induced crystallization and phase evolution of ACP . Our previous study also proved that the introduction of inositol would postpone the crystallization of ACP and altered the thermodynamic equilibrium between α/β-TCP under higher temperature in a content-dependent manner . Element substitution provided a feasible path for the multifunctionalization of traditional biomaterials and related research studies were widely carried out.…”

“…Especially, the initial crystalline phase was α/β polymorphs rather than pure α polymorph. Such inconsistence came from the inherent amorphous nature of ACP and was related to the way ACP was synthesized . However, such difference was not the main subject, and the temperature-dependent XRD patterns of sample ACPs were provided for comparison.…”

“… 7 Our previous study also proved that the introduction of inositol would postpone the crystallization of ACP and altered the thermodynamic equilibrium between α/β-TCP under higher temperature in a content-dependent manner. 8 Element substitution provided a feasible path for the multifunctionalization of traditional biomaterials and related research studies were widely carried out. The perspective research based on the theoretical calculations also proved the thermodynamic stability of substitutional divalent cations in TCP.…”

Competition and Neutralization: Thermally Induced Crystallization and Phase Evolution of Amorphous Calcium Phosphate with Cosubstitution of Larger and Smaller Divalent Cations

“…Previous study confirmed that the polyethylene glycol during the preparation process possessed a dose-dependent effect on the thermally induced crystallization and phase evolution of ACP . Our previous study also proved that the introduction of inositol would postpone the crystallization of ACP and altered the thermodynamic equilibrium between α/β-TCP under higher temperature in a content-dependent manner . Element substitution provided a feasible path for the multifunctionalization of traditional biomaterials and related research studies were widely carried out.…”

“…Especially, the initial crystalline phase was α/β polymorphs rather than pure α polymorph. Such inconsistence came from the inherent amorphous nature of ACP and was related to the way ACP was synthesized . However, such difference was not the main subject, and the temperature-dependent XRD patterns of sample ACPs were provided for comparison.…”

“… 7 Our previous study also proved that the introduction of inositol would postpone the crystallization of ACP and altered the thermodynamic equilibrium between α/β-TCP under higher temperature in a content-dependent manner. 8 Element substitution provided a feasible path for the multifunctionalization of traditional biomaterials and related research studies were widely carried out. The perspective research based on the theoretical calculations also proved the thermodynamic stability of substitutional divalent cations in TCP.…”

Competition and Neutralization: Thermally Induced Crystallization and Phase Evolution of Amorphous Calcium Phosphate with Cosubstitution of Larger and Smaller Divalent Cations

Composite monetite/amorphous calcium phosphate bone cement promotes bone regeneration

Polydopamine-functionalized calcium-deficient hydroxyapatite 3D-printed scaffold with sustained doxorubicin release for synergistic chemo-photothermal therapy of osteosarcoma and accelerated bone regeneration