Litcius/Paper detail

Nanoengineered Silica-Based Biomaterials for Regenerative Medicine

Mohamed Abdel‐Hamid, Hazim O. Khalifa, Mi‐Ran Ki, Seung Pil Pack

2024International Journal of Molecular Sciences25 citationsDOIOpen Access PDF

Abstract

The paradigm of regenerative medicine is undergoing a transformative shift with the emergence of nanoengineered silica-based biomaterials. Their unique confluence of biocompatibility, precisely tunable porosity, and the ability to modulate cellular behavior at the molecular level makes them highly desirable for diverse tissue repair and regeneration applications. Advancements in nanoengineered silica synthesis and functionalization techniques have yielded a new generation of versatile biomaterials with tailored functionalities for targeted drug delivery, biomimetic scaffolds, and integration with stem cell therapy. These functionalities hold the potential to optimize therapeutic efficacy, promote enhanced regeneration, and modulate stem cell behavior for improved regenerative outcomes. Furthermore, the unique properties of silica facilitate non-invasive diagnostics and treatment monitoring through advanced biomedical imaging techniques, enabling a more holistic approach to regenerative medicine. This review comprehensively examines the utilization of nanoengineered silica biomaterials for diverse applications in regenerative medicine. By critically appraising the fabrication and design strategies that govern engineered silica biomaterials, this review underscores their groundbreaking potential to bridge the gap between the vision of regenerative medicine and clinical reality.

Topics & Concepts

Regenerative medicineNanotechnologyRegeneration (biology)Tissue engineeringDrug deliveryBiocompatibilityStem cellMaterials scienceBiomedical engineeringMedicineBiologyGeneticsCell biologyMetallurgyDiatoms and Algae ResearchBone Tissue Engineering MaterialsProtist diversity and phylogeny