The skeleton is a highly innervated organ in which nerve fibers interact with various skeletal
cells. Peripheral nerve endings release neurogenic factors and sense skeletal signals …

The repair of secondary critical bone defects is an international medical challenge. Bone
tissue engineering provides methods and technology for bone repair. The bone …

Electrospinning technology, as a novel approach, has been extensively applied in the field
of tissue engineering. Nanofiber membranes prepared by electrospinning can effectively …

Musculoskeletal disorders (MSDs), which include a range of pathologies affecting bones,
cartilage, muscles, tendons, and ligaments, account for a significant portion of the global …

The high incidence of bone defect-related diseases caused by trauma, infection, and tumor
resection has greatly stimulated research in the field of bone regeneration. Generally, bone …

The periosteum, rich in neurovascular networks, bone progenitor cells, and stem cells, is
vital for bone repair. Current artificial periosteal materials face challenges in mechanical …

The rise of antibiotic resistance poses a critical threat to global health, necessitating the
development of novel antibacterial strategies to mitigate this growing challenge. Biomimetic …

Peripheral nerves and blood vessels regulate the development process of bone tissue by
delivering neural and vascular-related cytokines. However, challenge of preventing the loss …

Bone tissue engineering (BTE) is a complex biological process involving the repair of bone
tissue with proper neuronal network and vasculature as well as bone surrounding soft …

In situ bone regeneration and vertical bone augmentation have been huge problems in
clinical, always imposing a significant economic burden and causing patient suffering …