Advances in Manufacturing of Biodegradable Spinal Cord Implants on Microscale through Micromolding and 3D Printing

机译：微成型和3D打印技术在可生物降解的脊髓植入物制造中的应用进展

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Spinal cord injury is a life changing event potentially leading to permanent paralysis. This paper presents advances in developing an implant for spinal cord treatment called mechanical microconnector system (mMS). A micromolding process was developed to transfer the mMS from biocompatible to biodegradable material. The results consist of a determined parameter-set for micromolding of biodegradable mMS for two poly(lactic-co-glycolic acid) (PLGA) compounds and polycaprolactone (PCL). The process starts with a complex 3D quartz glass premaster, built through ultrafast laser radiation and subsequent wet-chemical etching (SLE = selective laser induced etching). The incorporation of a 3D printing technique arises from the objective to individualize and automatically produce biodegradable implants out of medical image data in future.

机译：脊髓损伤是改变生命的事件，有可能导致永久性麻痹。本文介绍了开发用于脊髓治疗的植入物，称为机械微连接器系统（mMS）的进展。开发了微成型工艺，以将mMS从生物相容性材料转移到可生物降解的材料。结果包括两个聚（乳酸-乙醇酸）（PLGA）化合物和聚己内酯（PCL）的可生物降解mMS微成型的确定参数集。该过程始于复杂的3D石英玻璃预制板，该预制板是通过超快激光辐射和随后的湿化学蚀刻（SLE =选择性激光诱导蚀刻）制成的。合并3D打印技术的目的是将来个性化并自动从医学图像数据中生产可生物降解的植入物。

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《International Conference on Solid-State Sensors, Actuators and Microsystems & Eurosensors XXXIII》|2019年|2185-2188|共4页
会议地点 Berlin(DE)
作者
Jana M. von Poblotzki; Timo Lipka; Christian Voss; Hoc K. Trieu;
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Institute of Microsystems Technology Hamburg University of Technology GERMANY;

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Biodegradable materials; Glass; Bars; Implants; Three-dimensional printing; Spinal cord injury;

机译：可生物降解的材料；玻璃;酒吧;植入物；三维打印；脊髓损伤;

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专利

1. Internal decompression of the acutely contused spinal cord: Differential effects of irrigation only versus biodegradable scaffold implantation [J] . James D. Guest, Simon W. Moore, Alex A. Aimetti, Biomaterials . 2018,第期

机译：内部减压急性污染的脊髓：灌溉的差异效应与可生物降解的脚手架植入
2. X-ray phase-contrast computed tomography visualizes the microstructure and degradation profile of implanted biodegradable scaffolds after spinal cord injury [J] . Takashima Kenta, Hoshino Masato, Uesugi Kentaro, Journal of synchrotron radiation . 2015,第1期

机译：X射线相衬计算机断层扫描技术可观察到脊髓损伤后植入的可生物降解支架的微观结构和降解情况
3. The effect of long-term release of Shh from implanted biodegradable microspheres on recovery from spinal cord injury in mice [J] . LowryN., GoderieS.K., LedermanP., Biomaterials . 2012,第10期

机译：从植入的可生物降解微球中长期释放Shh对小鼠脊髓损伤恢复的影响
4. Advances in Manufacturing of Biodegradable Spinal Cord Implants on Microscale through Micromolding and 3D Printing [C] . Jana M. von Poblotzki, Timo Lipka, Christian Voss, International Conference on Solid-State Sensors, Actuators and Microsystems . 2019

机译：通过微镜和3D印刷制造微尺度的可生物降解脊髓植入物的研究进展
5. Intrathecal Delivery of BDNF to the Lumbar Spinal Cord via Implanted Mini-Pump Restores Stepping and Modulates the Activity of the Lumbar Spinal Interneurons in a Large Animal Model of Spinal Cord Injury [D] . Marchionne, Francesca. 2017

机译：BDNF鞘内植入微型泵向腰脊髓鞘内递送恢复步进，并调节大型脊髓损伤动物模型中的腰椎间神经元的活性。
6. From Microscale Devices to 3D Printing: Advances in Fabrication of 3D Cardiovascular Tissues [O] . Anton V. Borovjagin, Brenda Ogle, Joel Berry, -1

机译：从微型设备到3D打印：3D心血管组织的制造进展
7. The corticospinal tract structure of collagen/silk fibroin scaffold implants using 3D printing promotes functional recovery after complete spinal cord transection in rats [O] . Xiao-Hong Li, Xiang Zhu, Xiao-Yin Liu, 2021

机译：使用3D印刷的胶原/丝素蛋白支架植入物的皮质晶体结构促进大鼠完全脊髓横断后的功能性恢复

Advances in Manufacturing of Biodegradable Spinal Cord Implants on Microscale through Micromolding and 3D Printing

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