Tissue engineering makes use of the principles of medicine, biology and engineering and
integrates them into the design of biological substitutes to restore, maintain and improve the …

The use of polymer based composites in the treatment of skin tissue damages, has got huge
attention in clinical demand, which enforced the scientists to improve the methods of …

The field of regenerative medicine has tremendous potential for improved treatment
outcomes and has been stimulated by advances made in bioengineering over the last few …

Nanotechnology has made a great impact on the pharmaceutical, biotechnology, food, and
cosmetics industries. More than 40% of the approved drugs are lipophilic and have poor …

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

We present a framework, which we call Molecule Deep Q-Networks (MolDQN), for molecule
optimization by combining domain knowledge of chemistry and state-of-the-art …

Large bone defects resulting from fractures and disease are a medical concern, being often
unable to heal spontaneously by the body's repair mechanisms. Bone tissue engineering …

Polycaprolactone (PCL) is widely used in tissue engineering due to its interesting properties,
namely biocompatibility, biodegradability, elastic nature, availability, cost efficacy, and the …

Gelatin is a promising material as scaffold with therapeutic and regenerative characteristics
due to its chemical similarities to the extracellular matrix (ECM) in the native tissues …

The bone tissue engineering approach for treating large bone defects becomes necessary
when the tissue damage surpasses the threshold of the inherent regenerative ability of the …