There is a general increase in the number of patients with non-healing skin wounds,
imposing a huge social and economic burden on patients and healthcare systems. Severe …

Bone scaffolds play a crucial role in bone tissue engineering, providing mechanical support
for the growth of new tissue while enduring static and fatigue loads. Although polymers …

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

Integrating a biomimetic extracellular matrix to improve the microenvironment of 3D printing
scaffolds is an emerging strategy for bone substitute design. Here, a “soft–hard” bone …

Nanostructured biomaterials that replicate natural bone architecture are expected to
facilitate bone regeneration. Here, nanohydroxyapatite (nHAp) with vinyl surface …

Bone scaffolds are three-dimensional biocompatible structure that mimics the properties of
natural bone and is used in tissue engineering applications to help repair or regenerate …

Biotissues are intriguing systems that have long been imitated but never surpassed due to
their complex rhythms and undisclosed participation mechanisms of the interior aqueous …

Using bone tissue engineering strategies to achieve bone defect repair is a promising
modality. However, the repair process outcomes are often unsatisfactory. Here we properly …

Implant-associated infections due to the formation of bacterial biofilms pose a serious threat
in medical healthcare, which needs effective therapeutic methods. Here, we propose a …

Periodontal bone defect is a common but longstanding healthcare issue since traditional
bone grafts have limited functionalities in regulating complex intraoral microenvironments …