Tissue engineering makes use of the principles of medicine, biology and engineering and
integrates them into the design of biological substitutes to restore, maintain and improve the …

The nervous system is a crucial component of the body and damages to this system, either
by of injury or disease, can result in serious or potentially lethal consequences. Restoring …

Tissue engineering has emerged as an interesting field nowadays; it focuses on
accelerating the auto-healing mechanism of tissues rather than organ transplantation. It …

Bone injuries and fractures generally take a long period to heal itself. To address this
problem, bone tissue engineering (BTE) has gained significant research impetus. Among …

ABSTRACT Recently, poly (є-caprolactone)(PCL) has gained a lot of attention, and shown
great potential in biomedical applications. Among synthetic polymers, PCL is one of the …

The development of biomimetic highly-porous scaffolds is essential for successful tissue
engineering. Electrospun nanofibers are highly versatile platforms for a broad range of …

Nanotechnology is one of the most promising technologies available today, holding
tremendous potential for biomedical and healthcare applications. In this field, there is an …

The therapy of neural nerve injuries that involve the disruption of axonal pathways or axonal
tracts has taken a new dimension with the development of tissue engineering techniques …

Biocomposite nanofiber scaffolds of polycaprolactone (PCL) with different graphene oxide
(GO) concentrations were prepared using electrospinning technology. The successful …

Recent trends in scaffold design have focused on materials that can provide appropriate
guidance cues for particular cell types to modulate cell behavior. In this study highly aligned …