Direct stem cell encapsulation and cardiac differentiation within supporting biomaterial
scaffolds are critical for reproducible and scalable production of the functional human …

Electrically conductive polypyrrole (PPy) is an intriguing biomaterial capable of efficient
electrical interactions with biological systems. Especially, biomimetic PPy-based …

Myocardial infarction remains the leading cause of death in the western world. Since the
heart has limited regenerative capabilities, several cardiac tissue engineering (CTE) …

Electrical stimulus-responsive drug delivery from conducting polymers such as polypyrrole
(PPy) has been limited by lack of versatile polymerization techniques and limitations in drug …

To recapitulate bio-physical properties and functional behaviour of native heart tissues,
recent tissue engineering-based approaches are focused on developing smart/stimuli …

Implantation of a suitable nerve guide conduit (NGC) seeded with sufficient Schwann cells
(SCs) is required to improve peripheral nerve regeneration efficiently. Given the limitations …

Cardiovascular diseases, including ischemic heart disease and stroke, are responsible for
nearly 25% of all deaths worldwide. Globally, their prevalence continues to increase, in spite …

Mimicking the structure of extracellular matrix and electrical conductivity of myocardium are
required to regenerate the functional cardiac tissue. In this study, Molybdenum disulfide …

Electrospinning is a prominent technique for micro/nanofiber production and has received
significant attention in the 21st century. It enables the production of ultrafine fibers using a …

Cardiac tissue regeneration strategies are increasingly taking advantage of electroactive
scaffolds to actively recreate the tissue microenvironment. In this context, this work reports …