Electrospun nanofibers have been extensively studied in the biomedical field, including the
controlled release of drugs, bionics, cell scaffolds, hemostasis, wound healing, and tissue …

In recent years, there has been a significant focus on bioactive dressings suitable for treating
chronic and acute wounds. Electrospinning nanofibers are considered advanced dressing …

Successful regeneration of weight‐bearing bone defects and critical‐sized cartilage defects
remains a major challenge in clinical orthopedics. In the past decades, biodegradable …

The tissue engineering field has developed in response to the shortcomings related to the
replacement of the tissues lost to disease or trauma: donor tissue rejection, chronic …

Current strategies of tissue engineering are focused on the reconstruction and regeneration
of damaged or deformed tissues by grafting of cells with scaffolds and biomolecules …

The restoration of normal functioning of damaged body tissues is one of the major objectives
of tissue engineering. Scaffolds are generally used as artificial supports and as substrates …

In the present study, we fabricated vitamin D 3-loaded alginate hydrogel and assessed its
wound healing capability in the animal model. The various concentrations of vitamin D3 …

The loss of cartilaginous tissues is an important challenge to orthopaedic surgeons. Injury to
cartilage tissue due to its properties is along with movement difficulties. Tissue engineering …

Chrysin (Chr) is a naturally occurring flavone with a wide spectrum of biological functions
including anti-cancer, anti-inflammatory and anti-oxidant properties. Due to the low …

Background: The major challenge of tissue engineering is to develop constructions with
suitable properties which would mimic the natural extracellular matrix to induce the …