In vitro studies of graphene oxide reinforced hydroxyapatite nanobiocomposite on human erythrocytes

“…However, they have an uncontrollable regeneration rate, making them difficult to be used and difficult to handle and process. Polymers of synthetic origin such as polycaprolactone (PCL) [215][216][217][218], poly(lactic acid) (PLA) [219][220][221], and poly(methyl methacrylate) (PMMA) [222] do not reproduce characteristics and behavior of the extracellular matrix, but they have good mechanical properties, besides being easily mass manufactured, which allows them to be adapted for specific applications.…”

“…Researchers observed that there was cell viability, besides good biocompatibility. Dalby et al [225] prepared a HAp/poly(methyl methacrylate) (PMMA) and found its potential to act as substrate for cells resembling human osteoblasts, just like Radha et al [222], which prepared HAp/PMMA scaffolds by means of thermally induced phase separation (TIPS) and wetchemical approach, proving their in vitro bioactivity and reasonable hemocompatibility. Chaudhuri et al [226] synthesized composite films of PVA/PVP/HAp, varying the concentration of HAp.…”

A brief review on hydroxyapatite production and use in biomedicine

“…However, they have an uncontrollable regeneration rate, making them difficult to be used and difficult to handle and process. Polymers of synthetic origin such as polycaprolactone (PCL) [215][216][217][218], poly(lactic acid) (PLA) [219][220][221], and poly(methyl methacrylate) (PMMA) [222] do not reproduce characteristics and behavior of the extracellular matrix, but they have good mechanical properties, besides being easily mass manufactured, which allows them to be adapted for specific applications.…”

“…Researchers observed that there was cell viability, besides good biocompatibility. Dalby et al [225] prepared a HAp/poly(methyl methacrylate) (PMMA) and found its potential to act as substrate for cells resembling human osteoblasts, just like Radha et al [222], which prepared HAp/PMMA scaffolds by means of thermally induced phase separation (TIPS) and wetchemical approach, proving their in vitro bioactivity and reasonable hemocompatibility. Chaudhuri et al [226] synthesized composite films of PVA/PVP/HAp, varying the concentration of HAp.…”

A brief review on hydroxyapatite production and use in biomedicine

“…Regarding to works by Radha et al 2017, facilitates the stable interfacial nanocomposites between GO-HA and promotes cell proliferation. GO-HA nanocomposite was prepared through probe sonication process by functionalizing the HA onto the GO surface which would increases the mechanical, biostability and compatibility of GO-HA nanocomposite [83]. The amount of spherical HA in composites was decreased as increase weight percentage of GO, and the folds on GO surface were multiplied.…”

Graphene Oxide-Modified Hydroxyapatite Nanocomposites in Biomedical Applications: A Review

“…Thermally Induced Phase Separation (TIPS) method gained scientic interest as it has been shown to improve the dispersion of hydrophilic nanollers in the hydrophobic matrix, which could enhance the material's nal properties and the ease of its processing. 31,32 The preparation of PLA/HAp 33 and HAp/poly(methyl methacrylate) (PMMA) 34 composites via TIPS method was shown to result in a hybrid system with a potential application in the biomedical eld. Within this study, PLA/HAp biocomposite pellets were prepared by the (TIPS) method.…”

3D-printed monolithic biofilters based on a polylactic acid (PLA) – hydroxyapatite (HAp) composite for heavy metal removal from an aqueous medium