From Stents to Smart Implants Employing Biomimetic Materials: The Impact of 4D Printing on Modern Healthcare

Biomimetics, Journal Year: 2025, Volume and Issue: 10(2), P. 125 - 125

Published: Feb. 19, 2025

The sector of 4D printing represents a new frontier in additive manufacturing that allows for material's capability to adapt and respond various stimuli, such as thermal transitions, humidity, pH levels. adaptability material has great potential healthcare applications, especially designing personalized responsive medical devices. This article looks into the revolutionary applications printing, referencing self-repairable implants, smart stents, drug delivery systems, response-based prosthetic advances 3D have created platform innovations take place, while properties unique allow methods tackling existing health issues. However, large-scale application medicine is currently hampered by limitations, regulation challenges, financial challenges. In spite these ongoing technologies, combined with artificial intelligence machine learning, provide surpass hence improving precision, efficacy, personalization work outlines at areas future, analyzes contributing healthcare, recognizing challenges need be overcome order unlock its full potential.

Language: Английский

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Regenerative Medicine in Plastic Surgery: The Role of Stem Cells and Bioprinting

Regenesis repair rehabilitation., Journal Year: 2025, Volume and Issue: unknown

Published: March 1, 2025

Language: Английский

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The rise of 3D bioprinting: from organs to personalized medicine

Patient-Oriented Medicine and Pharmacy, Journal Year: 2025, Volume and Issue: unknown

Published: March 7, 2025

Bioprinting has emerged as a groundbreaking technology in the realms of organ transplantation and regenerative medicine, addressing critical challenges such shortages tissue repair. This review explores technological advancements innovations bioprinting, highlighting state-of-the-art techniques, bioinks, applications engineering. Key milestones printing functional tissues, including vascularized transplantable prototypes, are discussed alongside role bioprinting personalized where patient-oriented models revolutionizing drug testing therapeutic strategies. Furthermore, this article examines ethical considerations associated with offering insights into its future potential to transform global healthcare.

Language: Английский

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Optimization of LCD-Based 3D Printing for the Development of Clotrimazole-Coated Microneedle Systems

Materials, Journal Year: 2025, Volume and Issue: 18(7), P. 1580 - 1580

Published: March 31, 2025

Fungal infections pose a significant global health problem, affecting 20–25% of the population and contributing to over 3.75 million deaths annually. Clotrimazole (CLO) is widely used topical antifungal drug, but its efficacy limited by poor penetration through stratum corneum. Microneedle (MN) systems, composed micron-scale structures arranged on patch, offer promising strategy overcome outermost skin barrier enhance drug into deeper layers. However, optimizing MN design, particularly in terms size, shape, fabrication technology, essential for efficient delivery. This study aimed develop CLO-coated systems using an Liquid Crystal Display (LCD)-based 3D printing technique thin-film dip-coating method. A comprehensive optimization parameters, including anti-aliasing, layer thickness, curing time, angle, was conducted ensure desired mechanical properties. The optimized MNs were coated with either suspension or ethanol-based CLO-hydrogels, ethanol hydrogel demonstrating superior characteristics. Additionally, investigated how microneedle geometry coating formulation influenced release. Antifungal activity against reference clinical origin Candida albicans strains varied significantly depending formulation. Finally, acute toxicity test confirmed no toxic effects Aliivibrio fischeri, indicating potential biocompatibility safety developed MN-based delivery system.

Language: Английский

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Bioprinting in Organ Transplantation: From Experimental Models to Clinical Prospects

Brazilian Journal of Transplantation, Journal Year: 2025, Volume and Issue: 28(1)

Published: April 25, 2025

Background: Bioprinting has emerged as an innovative technology in organ transplantation and regenerative medicine, aiming to address pressing challenges such the shortage of donor organs need for effective tissue repair. By leveraging advanced 3D printing techniques, bioprinting enables fabrication functional tissues with precise architectural biological properties. Methods: This review provides in-depth analysis latest advancements bioprinting, focusing on cutting-edge development bioinks, their applications engineering. It examines significant breakthroughs creation vascularized transplantable prototypes explores role personalized medicine. Results: The findings highlight transformative impact biomedical field, particularly drug testing, therapeutic modeling, patient-specific treatment strategies. Additionally, key challenges—including technological limitations, ethical concerns, regulatory considerations—are discussed provide a comprehensive understanding field’s progress potential obstacles. Conclusion: holds immense promise revolutionizing global healthcare by offering solutions shortages advancing However, continued research innovation are necessary overcome existing facilitate its clinical translation into mainstream medical practice.

Language: Английский

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Bioimpressão no Transplante de Órgãos: Dos Modelos Experimentais às Perspectivas Clínicas

Brazilian Journal of Transplantation, Journal Year: 2025, Volume and Issue: 28(1)

Published: April 25, 2025

Introdução: A bioimpressão despontou como uma tecnologia inovadora no transplante de órgãos e na medicina regenerativa, visando solucionar desafios urgentes, a escassez doadores necessidade reparo eficaz tecidos. Ao aproveitar as técnicas avançadas impressão 3D, permite fabricação tecidos funcionais com propriedades arquitetônicas biológicas precisas. Métodos: Esta revisão fornece análise detalhada dos últimos avanços em bioimpressão, concentrando-se ponta, desenvolvimento biotintas suas aplicações engenharia Ela examina os significativos criação protótipos vascularizados transplantáveis explora função da personalizada. Resultados: As descobertas destacam o impacto transformador campo biomédico, particularmente testes medicamentos, modelagem terapêutica estratégias tratamento específicas para paciente. Além disso, principais — incluindo limitações tecnológicas, preocupações éticas considerações regulatórias são discutidos fornecer compreensão abrangente do progresso possíveis obstáculos. Conclusão: é imensamente promissora revolucionar saúde global, oferecendo soluções avanço regenerativa. No entanto pesquisa inovação contínuas necessárias superar existentes facilitar sua tradução clínica prática médica convencional.

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