设计用于聚合物组织工程的单螺杆挤出机

Mohamed A. Naser, Wael A. Moeaz, M. T. El-Wakad, Mohamed S. Abdo
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引用次数: 0

摘要

在组织工程领域,单螺杆挤压(SSE)因其在制造聚合物基支架方面的多功能性和高效性而备受关注。此外,挤压技术的实施和生物活性剂的整合等进步也大大扩展了单螺杆挤压技术的能力。本研究旨在研究用于组织工程的定制设计塑料挤出的配置,突出其在各种再生生物医学应用中制造缝合技术的潜力。此外,还讨论了 SSE 技术所面临的挑战和未来展望,重点是需要开展更多研究,以优化加工参数、增强结构生物活性并促进临床应用。SSE 可以精确调节结构形态、机械性能和孔隙率,这些都是影响细胞行为和组织再生的关键因素。总之,SSE 作为一种可扩展且具有成本效益的制造技术,有望生产出具有定制特性的聚合物基结构,推动组织工程领域实现有效的临床解决方案。本文全面概述了一种长丝挤出机生产设备,该设备能够利用热塑性材料(特别是提取自人类血清白蛋白的生物蛋白)生产高质量的长丝缝合线(FS)。本文的重点是解释长丝挤压机的设计和运行原理。挤压机配备的模头可测量的范围从 2.5 毫米到更小的尺度。这样就可以挤出直径小至 1.75 毫米的长丝。虽然挤压设备的设计与市面上的机器非常相似,但这里的重点是其在实验室规模生产中的适应性和成本效益。总之,这项研究有助于加深人们对生物医学应用中挤压加工技术的理解,特别是对利用人体血清白蛋白衍生热塑性塑料制造 FS 的理解。
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DESIGN A SINGLE SCREW EXTRUDER FOR POLYMER-BASED TISSUE ENGINEERING
In the area of tissue engineering, single screw extrusion (SSE) has gained attention due to its versatility and efficiency in fabricating polymer-based scaffolds. Furthermore, advancements such as the implementation of extrusion techniques and the integration of bioactive agents have significantly expanded the capabilities of SSE. This study aims to investigate the configuration of a custom-designed plastic extrusion for tissue engineering, highlighting its potential in fabricating suture technology for various regenerative biomedical applications. Furthermore, the challenges and future perspectives in SSE technology are discussed, with a focus on the need for additional research to optimize processing parameters, enhance structure bioactivity, and facilitate clinical usage. SSE provides precise regulation of structure morphology, mechanical properties, and porosity, which are critical factors that influence cell behavior and tissue regeneration. Overall, SSE holds great promise as a scalable and cost-effective manufacturing technique for producing polymer-based structures with tailored properties, advancing the field of tissue engineering towards effective clinical solutions. The paper provides a comprehensive overview of a filament extruder production machine that is capable of manufacturing high-quality filament sutures (FS) using thermoplastic materials, specifically bio-protein derived from human serum albumin. The main focus of the paper is to explain the design and operation principles of the filament extruder. The extruder is equipped with a die that can measure a range starting from 2.5 mm and going down to smaller scales. This allows for the extrusion of filaments with a diameter as small as 1.75 mm. Although the design of the extrusion apparatus closely resembles that of commercially available machines, the focus here is on its adaptability and cost-effectiveness for laboratory-scale production. Overall, the research contributes to advancing the understanding of extrusion processing technologies in the context of biomedical applications, with a specific focus on utilizing human serum albumin-derived thermoplastics for manufacturing FS.
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