Poly ether-ether-ketone (PEEK) is a polymer with better lignin biocompatibility than other
polymers. It is good for biomedical engineering applications. This research summarises the …

This review focuses on 3D printing of calcium hydroxyapatite (cHAp) as a composite on poly-
ether-ether-ketone (PEEK) scaffolds and related structures. The combination is made of …

In this research, a novel hybrid material bone implant manufacturing through the integration
of two materials using additive manufacturing (AM) technology is proposed. Biomimetic …

Bone transplant is still the gold standard approach when dealing with orthopedic trauma or
disease. When this solution is not possible, scaffolding is a possibility provided by bone …

Artificial bone implant materials need porosity for nutrient distribution, moderate pore size to
provide cell cultures and bone-like mechanical properties. The homogenisation of …

The addition of biomaterials such as Calcium Hydroxyapatite (cHAp) and incorporation of
porosity into poly-ether-ether-ketone (PEEK) are effective ways to improve bone-implant …

Abstract 3D-printing is an efficient method of designing customised structures and producing
synthetic bone grafts appropriate for bone implants. This research aimed to manufacture a …

This research focuses on computational microstructure to create hydrogel-cellulose ultra-
sonication method for the production of additive structures and the stability of the physical …

Spinal cord injuries (SCIs) can arise from compression loading when a vertebra fractures
and bone fragments are pushed into the spinal canal. Experimental studies have …

Even when damaged by injury or disease bone tissue has the remarkable ability to
regenerate. When this process is limited by large size bone defects, tissue engineering is …