Tissue engineering has become a medical alternative in this society with an ever-increasing
lifespan. Advances in the areas of technology and biomaterials have facilitated the use of …

The field of tissue engineering continues to advance, sometimes in exponential leaps
forward, but also sometimes at a rate that does not fulfill the promise that the field imagined a …

As a milestone in therapeutic fields, tissue engineering has offered an alternative strategy to
address unmet clinical needs for the repair and replacement of human damaged organs …

Biocompatible and conductive polymer hydrogels are the subject of intensive research in the
bioengineering field because of their use in bioelectronic devices and for the fabrication of …

Repairing the human brain remains a challenge, despite the advances in the knowledge of
inflammatory response to injuries and the discovery of adult neurogenesis. After brain injury …

Current therapeutic modalities to treat urethral strictures are associated with several
challenges and shortcomings. Therefore, significant strides have been made to develop …

Abstract Poly (ε-caprolactone)(PCL), a semi-crystalline polyester, has been widely used for
tissue engineering and regenerative medicine applications due to its favorable mechanical …

Most electrospun scaffolds for bone tissue engineering typically use hydroxyapatite (HA) or
beta tricalcium phosphate (β-TCP). However, the biological activity of these crystalline …

Urinary bladder is a dynamic organ performing complex physiological activities. Together
with ureters and urethra, it forms the lower urinary tract that facilitates urine collection, low …

Fabrication of three-dimensional (3D) scaffolds using natural biomaterials introduces
valuable opportunities in bone tissue reconstruction and regeneration. The current study …