Biodegradable polymers are materials that, thanks to their remarkable properties, are widely
understood to be suitable for use in scientific fields such as tissue engineering and materials …

In this review, we focused on recent efforts in the design and development of materials with
biomimetic properties. Innovative methods promise to emulate cell microenvironments and …

Advanced bioprinting processes enable precise deposition of cells, biomaterials, and
bioactive agents to fabricate complex three-dimensional structures that mimic native tissues …

Designing multifunctional wound dressings is a prerequisite to prevent infection and
stimulate healing. In this study, a bilayer scaffold (BS) with a top layer (TL) comprising 3D …

The overlap between mechanical engineering and medicine is expanding more and more
over the years. Engineers are now using their expertise to design and create functional …

Creating tissue and organ equivalents with intricate architectures and multiscale functional
feature sizes is the first step toward the reconstruction of transplantable human tissues and …

As the global health care system grapples with steadily rising costs, increasing numbers of
admissions, and the chronic defection of doctors and nurses from the profession …

Advances in modeling and imaging have resulted in realistic tools that can be applied to
education and training, and even direct patient care. These include point-of-care ultrasound …

Tissue engineering has emerged as a remarkable field aiming to restore or replace
damaged tissues through the use of biomimetic constructs. Among the diverse materials …

Tissue engineering and regenerative medicine field, which focuses on creating functional
tissue constructs resembling native tissue to repair or replace damaged tissues or organs …