Bone is a highly vascularized tissue, and its development, maturation, remodeling, and
regeneration are dependent on a tight regulation of blood vessel supply. This condition also …

Mesenchymal stem cells (MSCs) have been widely used in the fields of tissue engineering
and regenerative medicine due to their self-renewal capabilities and multipotential …

The development of biomaterials for cardiac tissue engineering (CTE) is challenging,
primarily owing to the requirement of achieving a surface with favourable characteristics that …

Abstract Three-dimensional (3D) printing technology has become an advanced approach for
fabricating patient-specific scaffolds with complex geometric shapes to replace damaged or …

Bone vasculature plays a vital role in bone development, remodeling and homeostasis. New
blood vessel formation is crucial during both primary bone development as well as fracture …

The incorporation of bioactive glass into bone tissue-engineered scaffolds can be widely
beneficial based on emerging evidence in the literature about the angiogenic potential of …

The porous architectural characteristics of biomaterials play an important role in scaffold
revascularization. However, no consensus exists regarding optimal interconnection sizes for …

Three‐dimensional porous scaffolds play a pivotal role in tissue engineering and
regenerative medicine by functioning as biomimetic substrates to manipulate cellular …

Advances in additive manufacturing have led to diverse patient‐specific implant designs
utilizing computed tomography, but this requires intensive work and financial implications …

The purpose of this study was to investigate the role of pore size on tissue ingrowth and
neovascularization in porous bioceramics under the accurate control of the pore parameters …