Dynamics of a long flexible filament conveyed in the near field of a turbulent jet

Journal of Fluids and Structures, Journal Year: 2025, Volume and Issue: 133, P. 104261 - 104261

Published: Jan. 5, 2025

Language: Английский

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Advances and Challenges in 3D Bioprinted Cancer Models: Opportunities for Personalized Medicine and Tissue Engineering

Polymers, Journal Year: 2025, Volume and Issue: 17(7), P. 948 - 948

Published: March 31, 2025

Cancer is the second leading cause of death worldwide, after cardiovascular disease, claiming not only a staggering number lives but also causing considerable health and economic devastation, particularly in less-developed countries. Therapeutic interventions are impeded by differences patient-to-patient responses to anti-cancer drugs. A personalized medicine approach crucial for treating specific patient groups includes using molecular genetic screens find appropriate stratifications patients who will respond (and those not) treatment regimens. However, information on which risk stratification method can be used hone cancer types likely responders agent remains elusive most cancers. Novel developments 3D bioprinting technology have been widely applied recreate relevant bioengineered tumor organotypic structures capable mimicking human tissue microenvironment or adequate drug high-throughput screening settings. Parts autogenously printed form tissues computer-aided design concept where multiple layers include different cell compatible biomaterials build configurations. Patient-derived stromal cells, together with material, extracellular matrix proteins, growth factors, create bioprinted models that provide possible platform new therapies advance. Both natural synthetic biopolymers encourage cells biological materials models/implants. These may facilitate physiologically cell-cell cell-matrix interactions heterogeneity resembling real tumors.

Language: Английский

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Advancing micromixing techniques: the role of surface acoustic waves and fluid–structure interaction in non-newtonian fluids

Microfluidics and Nanofluidics, Journal Year: 2025, Volume and Issue: 29(3)

Published: Feb. 4, 2025

Language: Английский

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Innovative Micro- and Nano-Architectures in Biomedical Engineering for Therapeutic and Diagnostic Applications

Micromachines, Journal Year: 2025, Volume and Issue: 16(4), P. 419 - 419

Published: March 31, 2025

The rapid evolution of micro- and nano-architectures is revolutionizing biomedical engineering, particularly in the fields therapeutic diagnostic micromechanics. This review explores recent innovations nanostructured materials their transformative impact on healthcare applications, ranging from drug delivery tissue engineering to biosensing diagnostics. Key advances fabrication techniques, such as lithography, 3D printing, self-assembly, have enabled unprecedented control over material properties functionalities at microscopic scales. These engineered architectures offer enhanced precision targeting controlled release delivery, foster cellular interactions improve sensitivity specificity devices. We examine critical design parameters, including biocompatibility, mechanical resilience, scalability, which influence clinical efficacy long-term stability. also highlights translational potential current limitations bringing these laboratory research practical applications. By providing a comprehensive overview trends, challenges, future perspectives, this article aims inform inspire further development that hold promise for advancing personalized medicine.

Language: Английский

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Harnessing Synthetic Biology for Sustainable Industrial Innovation: Advances, Challenges, and Future Direction

Biochemical Engineering Journal, Journal Year: 2025, Volume and Issue: unknown, P. 109777 - 109777

Published: May 1, 2025

Language: Английский

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Thermal and Flow Characteristics of Alumina Nanofluids in Microfluidic Systems: A Low-Concentration Study

Journal of Advanced Research in Numerical Heat Transfer, Journal Year: 2024, Volume and Issue: 28(1), P. 131 - 144

Published: Dec. 18, 2024

Microfluidic technologies and nanofluids represent a synergistic combination with significant potential for enhancing heat transfer thermal management applications. This study investigates the flow characteristics of 0.001 wt.% alumina (Al₂O₃)-water nanofluid within custom-designed serpentine microfluidic channel. The was prepared characterized its conductivity, viscosity, specific heat, density. Experimental studies, supplemented by numerical simulations, were conducted to evaluate fluid's behavior under controlled conditions. Results indicated slight increase in conductivity Al₂O₃ compared pure water, increments ranging from 0.16% at 20°C 0.30% 80°C, attributed enhanced Brownian motion nanoparticles. Viscosity measurements revealed marginal increases, suggesting minimal impact on fluid dynamics. experiments demonstrated consistent pressure gradient laminar regime, essential precise control efficient management. Temperature contours showed effective dissipation, steady inlet outlet. concludes that low-concentration can enhance performance systems without significantly affecting characteristics, making them suitable applications requiring such as electronic cooling chemical reactions. These findings provide foundation future research into higher nanoparticle concentrations different base fluids, aimed optimizing properties environments. integration holds promise advancing reliability next-generation systems.

Language: Английский

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Future electrodes for sepsis detection: digital microfluidic biosensors from plant waste

Microfluidics and Nanofluidics, Journal Year: 2024, Volume and Issue: 28(12)

Published: Nov. 20, 2024

Sepsis is a major global health concern, necessitating timely and accurate diagnosis for effective patient management. The standard diagnostic methods used to diagnose sepsis often face challenges in sensitivity rapidity, prompting the exploration of innovative solutions such as microfluidic-based biosensors. Advances digital microfluidic technology have garnered more interest promising approach biomedical applications due its unique ability manipulate discrete fluid droplets on surface, offering greater flexibility precision. This paper presents recent advancements biosensor over past ten years (2014–2024), highlighting their potential revolutionize healthcare. Additionally, integration future electrode materials derived from plant waste discussed, showcasing eco-friendly sustainable attributes enhancing performance. Finally, this highlights positive outlook biosensors with green nanomaterials diagnosis, making them ideal point-of-care addressing critical healthcare industries.

Language: Английский

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O FUTURO DA BELEZA INTELIGENTE: COMO A INTEGRAÇÃO DE IA E MICROFLUÍDICA ESTÁ TRANSFORMANDO A INDÚSTRIA COSMÉTICA

Revista Contemporânea, Journal Year: 2024, Volume and Issue: 4(12), P. e7099 - e7099

Published: Dec. 27, 2024

A integração de tecnologias avançadas como inteligência artificial (IA), realidade aumentada (RA) e machine learning com a microfluídica está transformando personalização na indústria beleza. Este artigo explora essas inovações estão moldando o futuro dos produtos cuidados pessoais, focando interação entre digitais para desenvolver dispositivos inteligentes que proporcionam experiências imersivas alta precisão. pesquisa analisa as tendências atuais avanços tecnológicos, evidenciando ferramentas atendem às necessidades consumidores por meio diagnósticos em tempo real algoritmos personalizados. O estudo inicia uma análise histórica beleza, desde aplicadores manuais até sistemas modernos utilizam avançados. As oferecem soluções bases cosméticas adaptadas ao tom pele, fórmulas tratamento capilar personalizadas maquiagem ajustada preferências do usuário. microfluídica, seu controle preciso fluidos escalas micrométricas, desempenha um papel fundamental eficácia produtos. Apesar potencial revolucionário, também discute os desafios implementação dessas tecnologias, necessidade garantir precisão confiabilidade nos dispositivos, vez fatores viscosidade, pressão geometria canais afetam diretamente eficiência das formulações. conclui revolucionando promovendo contínuas criando convergência beleza bem-estar. Isso estabelece novos padrões engajamento consumidor produtos, conectando-se gerações futuras.

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