Bone tissue engineering has attracted great interest in the last few years, as the frequency of
tissue-damaging or degenerative diseases has increased exponentially. To obtain an ideal …

The application of bone grafting materials in bone tissue engineering is paramount for
treating severe bone defects. In this comprehensive review, we explore the significance and …

Despite exceptional self-regeneration properties of bone, severe injuries often require
additional surgical intervention such as using artificial bone constructs. These structures …

Surface-functionalized nanostructures are at the forefront of biotechnology, providing new
opportunities for biosensors, drug delivery, therapy, and bioimaging applications. The …

Conjugated polymers such as polypyrrole, polyaniline, and polythiophene have developed
as capable candidates for scaffold fabrication due to their electrical conductivity, tunable …

Nanotechnology and biomedical science have led to substantial advances in the
development of novel materials for healthcare applications. Among these, carbon nanotube …

The biomedical application of biodegradable polymers for addressing bone-related
diseases has garnered considerable attention in recent years. Advances in material …

The rising demand for effective bone regeneration has underscored the limitations of
traditional methods like autografts and allografts, including donor site morbidity and …

Bone, a fundamental constituent of the human body, is a vital scaffold for support, protection,
and locomotion, underscoring its pivotal role in maintaining skeletal integrity and overall …

Replicating the natural cellular environment is a critical strategy when employing
biomaterials to enhance tissue regeneration. However, effectively controlling physical cues …