The three-dimensional printing (3DP) also known as the additive manufacturing (AM), a
novel and futuristic technology that facilitates the printing of multiscale, biomimetic, intricate …

Abstract 3D-bioprinting has become a valid technique for tissue and organ regeneration, as
the printing of living cells is allowed while the hydrogel-based ink material provides them …

Abstract 3D printing technology has opened a new paradigm to controllably and
reproducibly fabricate bioengineered neural constructs for potential applications in repairing …

Prevascularization strategies have become a hot spot in tissue engineering. As one of the
potential candidates for seed cells, skin precursor‐derived Schwann cells (SKP‐SCs) were …

The gold standard for the treatment of peripheral nerve injuries, the autograft, presents
several drawbacks, and engineered constructs are currently suitable only for short gaps or …

Neural tissue engineering techniques typically face a significant challenge, simulating
complex natural vascular systems that hinder the clinical application of tissue-engineered …

Stroke is a pathological state distinguished by an interruption in the cerebral vasculature,
resulting in diminished oxygen delivery to the brain, consequent neural impairment, and …

By developing functional alternatives in the laboratory, tissue engineering (TE) has given
rise to great prospects for the treatment of organ failure and tissue loss. Along with other …

Stroke is a pathological state distinguished by an interruption in the cerebral vasculature,
resulting in diminished oxygen delivery to the brain, consequent neural impairment, and …

Recent biotechnological innovations make feasible the new paradigm of creating biological
neural circuits de novo. With advances in protein, cell and tissue engineering techniques, as …