Saeid Kargozar scite author profile

Bioactive glasses caused a revolution in healthcare and paved the way for modern biomaterial-driven regenerative medicine. The first 45S5 glass composition, invented by Larry Hench fifty years ago, was able to bond to living bone and to stimulate osteogenesis through the release of biologically-active ions. 45S5-based glass products have been successfully implanted in millions of patients worldwide, mainly to repair bone and dental defects and, over the years, many other bioactive glass compositions have been proposed for innovative biomedical applications, such as soft tissue repair and drug delivery. The full potential of bioactive glasses seems still yet to be fulfilled, and many of today’s achievements were unthinkable when research began. As a result, the research involving bioactive glasses is highly stimulating and requires a cross-disciplinary collaboration among glass chemists, bioengineers, and clinicians. The present article provides a picture of the current clinical applications of bioactive glasses, and depicts six relevant challenges deserving to be tackled in the near future. We hope that this work can be useful to both early-stage researchers, who are moving with their first steps in the world of bioactive glasses, and experienced scientists, to stimulate discussion about future research and discover new applications for glass in medicine.

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Bioactive Glasses: Sprouting Angiogenesis in Tissue Engineering

Kargozar

Baino

Hamzehlou

et al. 2018

Trends in Biotechnology

256

167

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Mesoporous bioactive glasses: Promising platforms for antibacterial strategies

et al. 2018

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Biomaterials, Current Strategies, and Novel Nano-Technological Approaches for Periodontal Regeneration

Iviglia

Kargozar

Baino

2019

JFB

127

100

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Periodontal diseases involve injuries to the supporting structures of the tooth and, if left untreated, can lead to the loss of the tooth. Regenerative periodontal therapies aim, ideally, at healing all the damaged periodontal tissues and represent a significant clinical and societal challenge for the current ageing population. This review provides a picture of the currently-used biomaterials for periodontal regeneration, including natural and synthetic polymers, bioceramics (e.g., calcium phosphates and bioactive glasses), and composites. Bioactive materials aim at promoting the regeneration of new healthy tissue. Polymers are often used as barrier materials in guided tissue regeneration strategies and are suitable both to exclude epithelial down-growth and to allow periodontal ligament and alveolar bone cells to repopulate the defect. The problems related to the barrier postoperative collapse can be solved by using a combination of polymeric membranes and grafting materials. Advantages and drawbacks associated with the incorporation of growth factors and nanomaterials in periodontal scaffolds are also discussed, along with the development of multifunctional and multilayer implants. Tissue-engineering strategies based on functionally-graded scaffolds are expected to play an ever-increasing role in the management of periodontal defects.

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Can bioactive glasses be useful to accelerate the healing of epithelial tissues?

Kargozar

Hamzehlou

Baino

2019

Materials Science and Engineering: C

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Nanotechnology for angiogenesis: opportunities and challenges

et al. 2020

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Quantum Dots: A Review from Concept to Clinic

Kargozar

Hoseini

Milan

et al. 2020

Biotechnology Journal

113

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Quantum dots (QDs) are semiconductor materials that have gained great interest due to their unique characteristics like optical properties. They are extensively being used in different areas, including solar cells, light-emitting diodes, laser technology, as well as biological and biomedical applications. In this review, comprehensive information about different aspects of QDs is provided, including their types and classifications, synthesis approaches, in vitro and in vivo toxicity, biological applications, and potentials in clinical applications. With a focus on the biological aspects, the respective in vitro and in vivo studies are collected and presented. Various surface modifications on QDs are discussed as directly influencing their properties like toxicity and optical abilities. Given the promising results, these materials are clinically used for targeted molecular therapy and imaging. However, there are a large number of questions that should be addressed before the wide application of QDs in a clinical setting. Regarding the existing barriers to QDs, suggestions are given and discussed to present an appropriate route for the clinical use of these materials.

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Nanotechnology and Nanomedicine: Start small, think big

Kargozar

Mozafari

2018

Materials Today: Proceedings

171

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Saeid Kargozar

Bioactive Glasses: Where Are We and Where Are We Going?

Bioactive Glasses: Sprouting Angiogenesis in Tissue Engineering

Mesoporous bioactive glasses: Promising platforms for antibacterial strategies

Biomaterials, Current Strategies, and Novel Nano-Technological Approaches for Periodontal Regeneration

Can bioactive glasses be useful to accelerate the healing of epithelial tissues?

Nanotechnology for angiogenesis: opportunities and challenges

Quantum Dots: A Review from Concept to Clinic

Nanotechnology and Nanomedicine: Start small, think big

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