Enhancing degradability, bioactivity, and osteocompatibility of poly (propylene fumarate) bone filler by incorporation of Mg-Ca-P nanoparticles

“…71–73 For example, compared to pure poly(propylene fumarate), an injectable and biodegradable bone cement, the addition of MCP NPs not only improves the compressive strength and elastic modulus of poly(propylene fumarate), but also improves the proliferation, differentiation, and mineralization of MG-63 cells. 74 Moreover, the addition of MgP nanosheets and HA nanofibers in polymethyl methacrylate bone cement significantly enhances the mechanical properties, bioactivity and cytocompatibility of the bone cement composites. 75 Further applications of biodegradable MgP-based materials in tissue engineering will be discussed in detail in the following section.…”

“…[71][72][73] For example, compared to pure poly(propylene fumarate), an injectable and biodegradable bone cement, the addition of MCP NPs not only improves the compressive strength and elastic modulus of poly(propylene fumarate), but also improves the proliferation, differentiation, and mineralization of MG-63 cells. 74 Moreover, the addition of MgP nanosheets and HA nanofibers in polymethyl methacrylate bone cement significantly enhances 65 Copyright 2016, American Chemical Society.…”

Biodegradable magnesium phosphates in biomedical applications

“…71–73 For example, compared to pure poly(propylene fumarate), an injectable and biodegradable bone cement, the addition of MCP NPs not only improves the compressive strength and elastic modulus of poly(propylene fumarate), but also improves the proliferation, differentiation, and mineralization of MG-63 cells. 74 Moreover, the addition of MgP nanosheets and HA nanofibers in polymethyl methacrylate bone cement significantly enhances the mechanical properties, bioactivity and cytocompatibility of the bone cement composites. 75 Further applications of biodegradable MgP-based materials in tissue engineering will be discussed in detail in the following section.…”

“…[71][72][73] For example, compared to pure poly(propylene fumarate), an injectable and biodegradable bone cement, the addition of MCP NPs not only improves the compressive strength and elastic modulus of poly(propylene fumarate), but also improves the proliferation, differentiation, and mineralization of MG-63 cells. 74 Moreover, the addition of MgP nanosheets and HA nanofibers in polymethyl methacrylate bone cement significantly enhances 65 Copyright 2016, American Chemical Society.…”

Biodegradable magnesium phosphates in biomedical applications

In vitro biocompatiability and mechanical properties of bone adhesive tape composite based on poly(butyl fumarate)/poly(propylene fumarate)-diacrylate networks

Zn-substituted Mg2SiO4 nanoparticles-incorporated PCL-silk fibroin composite scaffold: A multifunctional platform towards bone tissue regeneration