Cardiovascular Reparative Medicine and Tissue Engineering (CRMTE) aims to develop future technologies and therapeutic strategies that will serve as treatment for cardiovascular disease. CRMTE includes ...

Organ failure impacts millions of patients each year and costs hundreds of billions of US Dollars. Over the last 30 years, scientists have utilized a combination of tools, methods, and molecules of ...

After 15 years of Tissue Engineering & Regenerative Medicine 1.0 and another 10 years of 2.0 versions (1) the era of tissue engineering 3.0 has begun. This review will describe the state of the art of ...

Regenerative medicine combines tissue engineering and cell therapies to repair or replace damaged human tissues and organs. Key applications include treating osteoarthritis with mesenchymal stem cells ...

Most chronic and age-related diseases result from tissue failure. Cells lose function, structures degrade, and organs stop ...

Particles as different as soap bubbles and ball bearings can be made to arrange themselves in exactly the same way, according to a new study that could unlock the creation of brand new ...

By preserving fat tissue architecture, researchers created organoids that restore insulin function, paving the way for ...

Working with three-dimensional pancreatic models (organoids), derived from mouse cells, researchers combined computer simulations with experiments to find out what controls the shape of lumens ...

Biomedical Engineering combines biology and engineering to make technological breakthroughs in medical devices, procedures, and patient care. Biomedical engineers work in industries, in labs, and even ...

Tissue and organ failure, produced as a result of injury or other type of damage, is a major health problem, accounting for about half of the total annual expenditure in health care in the US 1.