The fundamental skin role is to supply a supportive barrier to protect body against harmful
agents and injuries. Three layers of skin including epidermis, dermis and hypodermis form a …

Cell encapsulation has already shown its high potential and holds the promise for future cell
therapies to enter the clinics as a large scale treatment option for various types of diseases …

Bioinks play a central role in 3D-bioprinting by providing the supporting environment within
which encapsulated cells can endure the stresses encountered during the digitally driven …

No treatments exist to effectively treat many retinal diseases. Retinal pigmented epithelium
(RPE) and neural retina can be generated from human embryonic stem cells/induced …

The creation of skin substitutes has significantly decreased morbidity and mortality of skin
wounds. Although there are still a number of disadvantages of currently available skin …

The development of new materials for clinical use is limited by an onerous regulatory
framework, which means that taking a completely new material into the clinic can make …

Advances in microscale 3D cell culture systems have helped to elucidate cellular
physiology, understand mechanisms of stem cell differentiation, produce pathophysiological …

Spinal cord injury (SCI) often leads to persistent functional deficits due to loss of neurons
and glia after injury. Hemisection spinal cord injury (HSCI) is a special type of SCI. The most …

Carboxymethyl cellulose is the most used water-soluble cellulose with applications in
industries such as food, cosmetics, and tissue engineering. However, due to a perceived …

The goal of cartilage tissue engineering (CTE) is to regenerate new hyaline cartilage in
joints and treat osteoarthritis (OA) using cell-impregnated hydrogel constructs. However, the …