DNA, a genetic material, has been employed in different scientific directions for various
biological applications as driven by DNA nanotechnology in the past decades, including …

Despite considerable advances in microsurgical techniques over the past decades, bone
tissue remains a challenging arena to obtain a satisfying functional and structural restoration …

Biomaterials with suitable surface modification strategies are contributing significantly to the
rapid development of the field of bone tissue engineering. Despite these encouraging …

Bone tissue engineering strategies attempt to regenerate bone tissue lost due to injury or
disease. Three-dimensional (3D) scaffolds maintain structural integrity and provide support …

Bone injuries and diseases constitute a burden both socially and economically, as the
consequences of a lack of effective treatments affect both the patients' quality of life and the …

Abstract Globally, more than 1.5 million patients undergo bone graft surgeries annually, and
the development of biomaterial scaffolds that mimic natural bone for bone grafting remains a …

Recent advances in drug delivery and controlled release had a great impact on bioscience,
medicine and tissue engineering. Consequently, a variety of advanced drug delivery …

Intraoperative bioprinting (IOB), which refers to the bioprinting process performed on a live
subject in a surgical setting, has made it feasible to directly deliver gene-activated matrices …

The advancement of tissue engineering for regenerating injured tissues and organs has
progressed significantly in recent years. Various techniques have been used to modify the …

Tissue engineering is an interdisciplinary field that aims to combine life sciences and
engineering to create therapies that regenerate functional tissue. Early work in tissue …