Polyetheretherketone biomaterials and their current progress, modification-based biomedical applications and future challenges

Materials & Design, Journal Year: 2025, Volume and Issue: unknown, P. 113716 - 113716

Published: Feb. 1, 2025

Language: Английский

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Pharmaceutical 3D Printing Technology Integrating Nanomaterials and Nanodevices for Precision Neurological Therapies

Pharmaceutics, Journal Year: 2025, Volume and Issue: 17(3), P. 352 - 352

Published: March 9, 2025

Pharmaceutical 3D printing, combined with nanomaterials and nanodevices, presents a transformative approach to precision medicine for treating neurological diseases. This technology enables the creation of tailored dosage forms controlled release profiles, enhancing drug delivery across blood−brain barrier (BBB). The integration nanoparticles, such as poly lactic-co-glycolic acid (PLGA), chitosan, metallic nanomaterials, into 3D-printed scaffolds improves treatment efficacy by providing targeted prolonged release. Recent advances have demonstrated potential these systems in conditions like Parkinson’s disease, epilepsy, brain tumors. Moreover, printing allows multi-drug combinations personalized formulations that adapt individual patient needs. Novel approaches, including stimuli-responsive systems, on-demand dosing, theragnostics, provide new possibilities real-time monitoring disorders. Despite innovations, challenges remain terms scalability, regulatory approval, long-term safety. future perspectives this suggest its revolutionize treatments offering patient-specific therapies, improved penetration, enhanced outcomes. review discusses current state, applications, nanotechnology treatment, highlighting need further research overcome existing challenges.

Language: Английский

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The Future of Medicine: How 3D Printing Is Transforming Pharmaceuticals

Pharmaceutics, Journal Year: 2025, Volume and Issue: 17(3), P. 390 - 390

Published: March 19, 2025

Three-dimensional printing technology is transforming pharmaceutical manufacturing by shifting from conventional mass production to additive manufacturing, with a strong emphasis on personalized medicine. The integration of bioinks and AI-driven optimization further enhancing this innovation, enabling drug precise dosages, tailored drug-release profiles, unique multi-drug combinations that respond individual patient needs. This advancement significantly impacting healthcare accelerating development, encouraging innovative designs, treatment efficacy. Traditional follows one-size-fits-all approach, which often fails meet the specific requirements patients medical conditions. In contrast, 3D printing, coupled bioink formulations, allows for on-demand production, reducing dependency large-scale storage. AI-powered design process refine dosage forms, printability, release mechanisms, ensuring precision efficiency in manufacturing. These advancements have potential lower overall costs while improving adherence medication regimens. review explores potential, challenges, environmental benefits positioning it as key driver next-generation

Language: Английский

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A Comprehensive Review on Bioprinted Graphene-Based Material (GBM)-Enhanced Scaffolds for Nerve Guidance Conduits

Biomimetics, Journal Year: 2025, Volume and Issue: 10(4), P. 213 - 213

Published: March 31, 2025

Peripheral nerve injuries (PNIs) pose significant challenges to recovery, often resulting in impaired function and quality of life. To address these challenges, guidance conduits (NGCs) are being developed as effective strategies promote regeneration by providing a supportive framework that guides axonal growth facilitates reconnection severed nerves. Among the materials explored, graphene-based (GBMs) have emerged promising candidates due their unique properties. Their properties—such high mechanical strength, excellent electrical conductivity, favorable biocompatibility—make them ideal for applications repair. The integration 3D printing technologies further enhances development GBM-based NGCs, enabling creation scaffolds with complex architectures precise topographical cues closely mimic natural neural environment. This customization significantly increases potential successful review offers comprehensive overview properties GBMs, principles printing, key design 3D-printed NGCs. Additionally, it discusses future perspectives research directions could advance application GBMs therapies.

Language: Английский

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Insights on Advances in 3D Bioprinting for Peripheral Nerve Regeneration

Advanced Therapeutics, Journal Year: 2025, Volume and Issue: unknown

Published: April 3, 2025

Abstract Peripheral nerve injury is a common that impacts the quality of life affected individuals. known to regenerate itself when defect small. The mechanism repair and regeneration complex related neuroimmunomodulation where there crosstalk between Schwann cells macrophages which respond smaller dimensions immediately. However, large defects requires use grafts. 3D bioprinting one such promising technology with bioengineered conduits can be reproduced for injured peripheral nerves. This review outlines nerves provides detailed description latest developments in fabrication conduits. Further, various techniques bioinks have been established vitro are discussed. In addition, this article aims look at vivo applications bioprinted respect different types models. challenges future perspectives involved fabricating functional also

Language: Английский

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