Develo** advanced biocompatibility materials is of critical importance in biomedical
engineering. Polyhydroxyalkanoates (PHA), being famous for its flexible mechanical …

As intracellular carbon and energy storage materials, polyhydroxyalkanoates (PHA) are a
diverse biopolyesters synthesized by many bacteria. PHA have been produced in large …

As a member of the polyhydroxyalkanoate (PHAs) family, Poly (3-hydroxybutyrate)(PHB) has
attracted much attention for a variety of medical applications because of its desirable …

The choice of material types for tissue engineering scaffolds and the design of methods are
contributive in yielding the proper result. In this study, 1–5% wt. Alumina nanowires are …

This review is focused on hybrid polyhydroxyalkanoate-based (PHA) biomaterials with
improved physico-mechanical, chemical, and piezoelectric properties and controlled …

A critical-sized calvarial defect in rats is employed to reveal the osteoinductive properties of
biomaterials. In this study, we investigate the osteogenic efficiency of hybrid scaffolds based …

The application of nanotechnology to regenerative medicine has increased over recent
decades. The development of materials that can influence biology at the nanoscale has …

Polyhydroxyalkanoates (PHAs), a diverse biopolyester synthesized by many bacteria as
intracellular carbon and energy storage materials, have been produced in large quantity for …

In recent years, the combination of natural polymers with nanoparticles has permitted the
development of sophisticated and efficient bioinspired constructs. In this regard, the …

Three-dimensional printing technology with the rapid development of printing materials are
widely recognized as a promising way to fabricate bioartificial bone tissues. In consideration …