Characterization of polysuccinate and hydroxyapatite-based nanocomposites containing poly(ester-anhydride) microspheres

Abstract: Repair and regeneration of bone defects with particular shape may be enhanced by in situ forming biomaterials which can be used in minimal invasive surgery. This study is aimed to prepare novel in situ forming biodegradable nanocomposites based on poly(3‐allyloxy‐1,2‐propylene) succinate (PSAGE) and nanosized hydroxyapatite (HA). These nanocomposite materials contain poly(ester‐anhydride) (PEA) microspheres embedded in a polyester matrix prepared by crosslinking PSAGE with oligo(1,2‐propylene maleate) and meth… Show more

“…It had adverse effect on mechanical properties of these materials. It was improved by crosslinking PSAGE with oligoesters containing maleic and fumaric double bonds, such as oligo(1,2-propylene maleate) or oligo(isosorbide maleate) [28][29][30]. It is known that reactivity of allylic groups towards fumaric or maleic ones is relatively high, and the alternating copolymers can be obtained [31].…”

Novel crosslinkable polyester resin–based composites as injectable bioactive scaffolds

“…It had adverse effect on mechanical properties of these materials. It was improved by crosslinking PSAGE with oligoesters containing maleic and fumaric double bonds, such as oligo(1,2-propylene maleate) or oligo(isosorbide maleate) [28][29][30]. It is known that reactivity of allylic groups towards fumaric or maleic ones is relatively high, and the alternating copolymers can be obtained [31].…”

Novel crosslinkable polyester resin–based composites as injectable bioactive scaffolds

Synthetic strategy matters: The study of a different kind of PVP as micellar vehicles of metronidazole