Polyurethanes (PUs) are a major family of polymers displaying a wide spectrum of physico-
chemical, mechanical and structural properties for a large range of fields. They have shown …

Among numerous synthetic macromolecules, polyurethane in its different forms has proven
its sheer dominance and established a reputation as a reliable and trusted material due to …

Muscle tissues are soft tissues that are of great importance in force generation, body
movements, postural support and internal organ function. Muscle tissue injuries would not …

Biomaterial-based scaffolds are important cues in tissue engineering (TE) applications.
Recent advances in TE have led to the development of suitable scaffold architecture for …

Synthetic biodegradable elastomers, such as polyesters and polyurethanes have
revolutionized biomedical therapeutic strategies and devices. Driven by innovations in …

Human body motion can generate a biological electric field and a current, creating a voltage
gradient of− 10 to− 90 mV across cell membranes. In turn, this gradient triggers cells to …

Bioelectronics have made strides in improving clinical diagnostics and precision medicine.
The potential of bioelectronics for bidirectional interfacing with biology through continuous …

Organ repair, regeneration, and transplantation are constantly in demand due to various
acute, chronic, congenital, and infectious diseases. Apart from traditional remedies, tissue …

Myocardial infarction (MI) is still the leading cause of mortality worldwide. The success of cell-
based therapies and tissue engineering strategies for treatment of injured myocardium have …

Tissue engineering endeavors to regenerate tissues and organs through appropriate
cellular and molecular interactions at biological interfaces. To this aim, bio-mimicking …