Tissue damage and organ failure are major problems that many people face worldwide.
Most of them benefit from treatment related to modern technology's tissue regeneration …

Due to the prevalence of cardiovascular diseases, there is a large need for small diameter
vascular grafts that cannot be fulfilled using autologous vessels. Although medium to large …

One of the emerging technologies of the recent times harboring nanotechnology to fabricate
nanofibers for various biomedical and environmental applications are electrospinning …

Tissue damage due to cancer, congenital anomalies, and injuries needs new efficient
treatments that allow tissue regeneration. In this context, tissue engineering shows a great …

Bioengineering an effective, small diameter (< 6 mm) artificial vascular graft for use in
bypass surgery when autologous grafts are unavailable remains a persistent challenge …

Mitigating the foreign body response (FBR) to implantable medical devices (IMDs) is critical
for successful long‐term clinical deployment. The FBR is an inevitable immunological …

Silk fibroin has become a prominent material in tissue engineering (TE) over the last 20
years with almost 10,000 published works spanning in all the TE applications, from skeleton …

Silk is a natural engineering material with a unique set of properties. The major constituent
of silk is fibroin, a protein widely used in the biomedical field because of its mechanical …

Vascular diseases are the most prevalent cause of ischemic necrosis of tissue and organ,
which even result in dysfunction and death. Vascular regeneration or artificial vascular graft …

Vascular tissue engineering has made prodigious progress in recent years by converging
multidisciplinary approaches. Latest technological advancements foster the development of …