P
Piergiorgio Gentile
Researcher at Newcastle University
Publications - 124
Citations - 5147
Piergiorgio Gentile is an academic researcher from Newcastle University. The author has contributed to research in topics: Self-healing hydrogels & Chemistry. The author has an hindex of 30, co-authored 106 publications receiving 3714 citations. Previous affiliations of Piergiorgio Gentile include Instituto Politécnico Nacional & Polytechnic University of Turin.
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An Overview of Poly(lactic-co-glycolic) Acid (PLGA)-Based Biomaterials for Bone Tissue Engineering
TL;DR: The analysis of the state of the art in the field reveals the presence of current innovative techniques for scaffolds and material manufacturing that are currently opening the way to prepare biomimetic PLGA substrates able to modulate cell interaction for improved substitution, restoration, or enhancement of bone tissue function.
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Collagen for bone tissue regeneration.
TL;DR: The analysis of the state of the art in the field reveals the presence of innovative techniques for scaffold and material manufacturing that are currently opening the way to the preparation of biomimetic substrates that modulate cell interaction for improved substitution, restoration, retention or enhancement of bone tissue function.
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Polymeric membranes for guided bone regeneration.
TL;DR: Non‐resorbable and resorbable commercially available membranes are described, based on expanded polytetrafluoroethylene, poly(lactic acid), poly(glycolic acid) and theirCopolymers and their copolymers.
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Multifunctional bioactive glass and glass-ceramic biomaterials with antibacterial properties for repair and regeneration of bone tissue
TL;DR: The evidence that the more recent inorganic modifications to glass and glass-ceramic biomaterials are able to impart antimicrobial properties alongside the more classical bone bonding and osteoconduction is considered.
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Biomass-Based Carbon Dots: Current Development and Future Perspectives.
TL;DR: In this article, the authors highlight the advantages of these biomass-based carbon dots in terms of synthesis, properties, and applications in the biomedical field and highlight the future development of biomass derived quantum dots.