The qualities of polymer based biomaterials in facilitating bone regeneration process
through tissue engineering have attracted the attention of researchers. Biomaterials with …

As an important structural component of the primary cell wall of green plants, the cellulose is
the most abundant natural biopolymer on earth [1]. Bacterial cellulose (BC) synthesized by …

Bone diseases, such as bone defects, cartilage damage, osteomyelitis, and osteoporosis,
are a primary focus area in current research. Cellulose and its derivatives, the most …

Bio-based biomaterials, are created using renewable biomass from sources such as plants,
animals and microorganisms. Cellulose is a renewable biopolymer and its usage for bone …

Cellulose of bacterial origin, known as bacterial cellulose (BC), is one of the most versatile
biomaterials that has a huge potential in tissue engineering due to its favourable mechanical …

Nanoporous cellulose biosynthesized by bacteria is an attractive biomaterial scaffold for
tissue engineering due to its biocompatibility and good mechanical properties. However, for …

In the present work, we aimed to synthesize highly efficient nano-composite polymeric
scaffolds with controllable pore size and mechanical strength. We prepared nanocomposite …

A nanocomposite based on bacterial cellulose (BC) and type I collagen (COL) was
evaluated for in vitro bone regeneration. BC membranes were modified by glycine …

Natural bone constitutes a complex and organized structure of organic and inorganic
components with limited ability to regenerate and restore injured tissues, especially in large …

This study describes the design and synthesis of bacterial cellulose/hydroxyapatite
nanocomposites for bone healing applications using a biomimetic approach. Bacterial …