Hybrid 3D Bioprinting of Sustainable Biomaterials for Advanced Multiscale Tissue Engineering

Small, Journal Year: 2025, Volume and Issue: unknown

Published: March 27, 2025

Abstract 3D printing has greatly improved the precision of cell and biomaterial placement, enabling accurate reproduction tissue models with sustainable potential. Various techniques, including inkjet printing, extrusion‐based vat photopolymerization, offer unique advantages but often fail to replicate full complexity native tissues because material scalability limitations. Hybrid bioprinting, combining multiple techniques in a single process, shown great potential creating complex multifunctional capabilities, ranging from patient‐specific implant fabrication full‐scale organ development. It capitalizes on strengths integration sustainable, renewable biomaterials at varying resolutions, nano microscale. This approach addresses both biological environmental responsibility by minimizing waste enhancing sustainability engineering processes. Despite progress, substantial gap remains between current technologies bioengineering requirements. A deep understanding hybrid its underlying mechanisms is crucial. Herein, this review summarizes discusses recent advancements systems for fabricating multiscale hierarchical models, focusing challenges field. aims insights identify key requirements advancing technology toward developing functional, biomimetic constructs.

Language: Английский

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BDM editors pick the most memorable moments of 2024

Bio-Design and Manufacturing, Journal Year: 2025, Volume and Issue: 8(1), P. 166 - 168

Published: Jan. 1, 2025

Language: Английский

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Biomaterials and emerging technologies for tissue engineering and in vitro models

Bio-Design and Manufacturing, Journal Year: 2024, Volume and Issue: 7(3), P. 237 - 239

Published: May 1, 2024

The latest advances in the field of biomaterials have opened new avenues for scientific breakthroughs tissue engineering which greatly contributed successful translation products into market/clinics.Biomaterials are easily processed to become similar natural extracellular matrix, making them ideal temporary supports mimicking three-dimensional (3D) microenvironment required maintaining adequate cell/tissue functions both vitro and vivo [1].The integration functionalized with emerging technologies such as microfluidics 3D printing brings a myriad advantages manufacturing complex designs broad applications regenerative medicine, tissue/disease models (Fig. 1).The special issue gathers two excellent reviews five original works dealing design functionalization biomaterials, advanced manufacturing, models.The recent progresses Israel summarized.Moreover, developments related biodesign strategies (nano) particular hydrogels/bioinks semicrystalline polymers enhancing controlling cell functions, also provided.An overview cellular interplay microphysiological disease focus on microbiota-gut-brain axis is presented.Finally,

Language: Английский

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Biofabrication and biomanufacturing in Ireland and the UK

Bio-Design and Manufacturing, Journal Year: 2024, Volume and Issue: 7(6), P. 825 - 856

Published: Oct. 23, 2024

摘要 随着我们从第四次工业革命向第五次工业革命的过渡，生物制造领域的兴起正在改变生命科学和医疗保健。3D生物打印、组织工程、定向组装和自组装等先进技术在创建仿生支架、组织类器官、医疗设备和生物系统方面发挥着重要作用。英国和爱尔兰的生物制造领域成为生物科学和医疗保健的关键力量，得益于尖端的研究和发展。这些地区的研究专注于药物输送、体外模型, 类器官,和组织工程的生物功能产品，致力于创新符合伦理标准的医疗保健解决方案，同时支持环保和有效的医疗保健系统。

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