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Nanofibrous Microspheres: A Biomimetic Platform for Bone Tissue Regeneration

Nimeet Desai, Shreya Pande, Lalitkumar K. Vora, Nagavendra Kommineni

2024ACS Applied Bio Materials13 citationsDOIOpen Access PDF

Abstract

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 functionality. However, factors such as trauma, disease, or aging can compromise bone structure, necessitating effective strategies for regeneration. Traditional approaches often lack biomimetic environments conducive to efficient tissue repair. Nanofibrous microspheres (NFMS) present a promising biomimetic platform for bone regeneration by mimicking the native extracellular matrix architecture. Through optimized fabrication techniques and the incorporation of active biomolecular components, NFMS can precisely replicate the nanostructure and biochemical cues essential for osteogenesis promotion. Furthermore, NFMS exhibit versatile properties, including tunable morphology, mechanical strength, and controlled release kinetics, augmenting their suitability for tailored bone tissue engineering applications. NFMS enhance cell recruitment, attachment, and proliferation, while promoting osteogenic differentiation and mineralization, thereby accelerating bone healing. This review highlights the pivotal role of NFMS in bone tissue engineering, elucidating their design principles and key attributes. By examining recent preclinical applications, we assess their current clinical status and discuss critical considerations for potential clinical translation. This review offers crucial insights for researchers at the intersection of biomaterials and tissue engineering, highlighting developments in this expanding field.

Topics & Concepts

MicrosphereRegeneration (biology)Biomedical engineeringBone tissueMaterials scienceCell biologyChemical engineeringMedicineEngineeringBiologyBone Tissue Engineering MaterialsElectrospun Nanofibers in Biomedical ApplicationsPickering emulsions and particle stabilization
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