The evolution of tissue engineering and 3D bioprinting has allowed for increased
opportunities to generate musculoskeletal tissue grafts that can enhance functional and …

Tissue engineering is known to encompass multiple aspects of science, medicine and
engineering. The development of systems which are able to promote the growth of new cells …

For decades, biomaterials have been commonly used in medicine for the replacement of
human body tissue, precise drug-delivery systems, or as parts of medical devices that are …

BACKGROUND: In recent years, three-dimensional (3D)-printing of tissue-engineered
cartilaginous scaffolds is intended to close the surgical gap and provide bio-printed tissue …

Breathing, being predominantly an automatic action, is often taken for granted. However,
respiratory diseases affect millions of people globally, emerging as one of the major causes …

This article explores examples of successful and unsuccessful regenerative medicine on
human epithelia. To evaluate the applications of the first regenerated tissues, the analysis of …

Objective The surgical management of nasal septal defects due to perforations,
malformations, congenital cartilage absence, traumatic defects, or tumors would benefit from …

Tissue engineering is a relatively recent research area aimed at developing artificial tissues
that can restore, maintain, or even improve the anatomical and/or functional integrity of …

Animal models are currently used in several fields of biomedical research as useful
alternatives to human-based studies. However, the obtained results do not always effectively …

Each year, thousands of patients deal with ear, nose, and throat disorders that can be life
threatening such as tracheal stenosis, or impact the psychosocial well-being, such as …