The incidence of large bone and articular cartilage defects caused by traumatic injury is
increasing worldwide; the tissue regeneration process for these injuries is lengthy due to …

Meeting the escalating demands in biomedical applications has spurred the creation of
diverse scaffolds, where the selection of materials and manufacturing techniques stands as …

This article provides a thorough overview of the available resorbable biomaterials
appropriate for producing replacements for damaged tissues. In addition, their various …

Efficient design for bone tissue engineering requires an understanding of the appropriate
selection of biomimetic natural or synthetic materials and scalable fabrication technologies …

Death caused by excessive blood loss has always been a global concern. Timely control of
bleeding in incompressible penetrated wounds remains a great challenge. Here, we …

The management of critical-sized bone defects caused by nonunion, trauma, infection,
malignancy, pseudoarthrosis, and osteolysis poses complex reconstruction challenges for …

Chemical modification reactions and blending formation are two alternatives used to
improve the properties of starch-based materials. This work used both approaches to …

Wound healing is a complex physiological process involving coordinated cellular and
molecular events aimed at restoring tissue integrity. Acute wounds typically progress …

In the present work, hydroxyapatite-polymer materials were developed. The preparation, as
well as characterization of the ceramic-polymer composites based on polyvinylpyrrolidone …

Bone is a dynamic tissue that can always regenerate itself through remodeling to maintain
biofunctionality. This tissue performs several vital physiological functions. However, bone …