Biopolymers are promising environmentally benign materials applicable in multifarious
applications. They are especially favorable in implantable biomedical devices thanks to their …

The three-dimensional printing (3DP) also known as the additive manufacturing (AM), a
novel and futuristic technology that facilitates the printing of multiscale, biomimetic, intricate …

Advancements in polymer science and engineering have helped the scientific community to
shift its attention towards the use of environmentally benign materials for reducing the …

Successful bone tissue engineering strategies require 3D scaffolds with controllable
properties tailored to the intended clinical applications. The scaffold as a temporary …

The hydrogel composited hydroxyapatite (HAp) scaffold shown biomimetic extracellular
matrix and osteogenic activity, which is a promising bone regeneration biomaterial. 3D …

Physical cues like morphology, light, electric signal, mechanic signal, magnetic signal, and
heat can be used as alternative regulators for expensive but short‐acting growth factors in …

Tissue engineering is a promising strategy for damaged cartilage tissue repair. Three-
dimensional (3D) printed hydrogel exhibits great potential in cartilage tissue engineering for …

Abstract 3D-printed scaffolds have been developed as potential therapeutic strategies in
bone tissue engineering. Mg/PCL biomaterials have been attracted much attention owing to …

The repair of large-area irregular bone defects is one of the complex problems in orthopedic
clinical treatment. The bone repair scaffolds currently studied include electrospun …

Poor mechanical strength and creep resistance limit the orthopedic application of
biodegradable Zinc (Zn). In present work, cerium (Ce) was alloyed with Zn using laser …