Over the last decade, 3D bioprinting has received immense attention from research
communities for developing functional tissues. Thanks to the complexity of tissues, various …

Tissue engineering (TE) scaffolds have enormous significance for the possibility of
regeneration of complex tissue structures or even whole organs. Three-dimensional (3D) …

Nanotechnology is one of the most promising technologies available today, holding
tremendous potential for biomedical and healthcare applications. In this field, there is an …

Engineered cardiac tissues (ECTs) derived from human induced pluripotent stem cells
(hiPSCs) are viable alternatives for cardiac repair, patient‐specific disease modeling, and …

Large bone defects due to trauma or disease present a significant clinical challenge with
limited efficacy of current therapies. A key aim is to develop biomimetic scaffolds that reflect …

Electrospinning (ES) is considered the most advanced and robust method to make
nanoscale materials named nanofibers (NFs) using various polymers. However, due to the …

The additive manufacturing technology has been applied in various sectors: the
manufacturing of industrial components, toys, medicine, medical-surgical instruments, and …

The socioeconomic impact of osteochondral (OC) damage has been increasing steadily
over time in the global population, and the promise of tissue engineering in generating …

It is challenging to recapitulate the natural extracellular matrix's hierarchical
nano/microfibrous three-dimensional (3D) structure with multilevel pores, good mechanical …

Antimicrobial resistance (AMR) developed by microorganisms is considered one of the most
critical public health issues worldwide. This problem is affecting the lives of millions of …