ShEEP Request for Electrospinner Machine

ShEEP 请求静电纺丝机

基本信息

批准号：
9905925
负责人：
Daniel Kacy Cullen
金额：
--
依托单位：
PHILADELPHIA VA MEDICAL CENTER
依托单位国家：
美国
项目类别：
财政年份：
2019
资助国家：
美国
起止时间：
2019-09-01 至 2020-09-30
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/9905925
关键词：
Air Area Attention Biocompatible Materials Biological Caliber Catalogs Cell Adhesion Chemicals Corrosives Coupled Development Devices Dimensions Drug Delivery Systems Electrospinning Electrostatics Environment Equipment Fiber Funding Goals Health Hybrids Medical center Musculoskeletal Musculoskeletal Diseases Nanosphere Nanostructures Nanotechnology Needles Nerve Degeneration Nervous System Trauma Nervous system structure Pattern Philadelphia Polymers Polytetrafluoroethylene Process Production Proteins Regenerative Medicine Research Research Activity Research Personnel Research Project Grants Resolution Sample Size Sampling Sheep Speed Surface Syringes Techniques Technology Testing Time Tissue Engineering Tube Veterans Width Work Wound Healing base design improved melting member nanocomposite nanofiber nanomaterials nanoscale next generation novel regenerative therapy restoration retinal rods scaffold voltage

项目摘要

ABSTRACT The purpose of this large equipment proposal is to provide funding for a Co-Axial Electrospinning setup along with all necessary accessories. The Co-Axial Electrospinning setup would add a new dimension to the biomaterial fabrication capacity at Corporal Michael J. Crescenz Veterans Affairs Medical Center (CMC-VAMC) in Philadelphia and specifically advance research at the Center for Neurotrauma, Neurodegeneration & Restoration (CNNR) and Translational Musculoskeletal Research Center (TMRC). Electrospinning is a widely used technique for the electrostatic production of nanofibers, during which electric power is used to make polymer fibers with diameters ranging from 2 nm to several nanometres from polymer solutions or melts. This process is a major focus of attention because of its versatility and ability to continuously produce fibers on a scale of nanometres, which is difficult to achieve using other standard technologies. The application of nanomaterials in biomedicine is currently at the forefront of development. Compared with conventional materials, the surface area of nanostructured material is inherently much larger, allowing for the adhesion of cells, proteins and/or active ingredients. There are a range of cutting-edge applications of Nanomaterials in Biomedicine, including, but not limited to, Tissue Engineering, Drug Delivery, Scaffolds, and Wound Healing. Acquisition of a new Co-Axial Electropsinning setup and accessories for the CMC-VAMC will have an immediate and profound positive impact on research activities. Coupled to our existing core equipment, this new acquisition will fully equip the CMC- VAMC to develop advanced nanotechnology based biomaterial scaffolds. This will be a great benefit to the entirety of the CMC-VAMC research enterprise, and particularly useful for members of the CNNR and TMRC. Acquisition of the proposed equipment will help the investigators overcome limitations in their current environment due to the lack of a co-axial electrospinning setup. The proposed equipment will allow current VA- funded Veteran-centric research projects to move forward at a much faster pace. The new device will also allow investigators to develop advanced biomaterial based products with unprecedented nano-scale resolution. Together, this will improve research focused on Veterans health, thus furthering the VAMC’s long-term research goals.

抽象的这个大型设备提案的目的是为沿线的同轴静电纺丝装置提供资金配备所有必要的配件，同轴静电纺丝装置将为生物材料增添新的维度。迈克尔·J·克雷森茨下士退伍军人事务医疗中心 (CMC-VAMC) 的制造能力费城，特别是在神经创伤、神经变性和恢复中心推进研究（CNNR）和转化肌肉骨骼研究中心（TMRC）。静电纺丝是一种广泛使用的技术。用于静电生产纳米纤维，在此过程中使用电力来制造聚合物纤维从聚合物溶液或熔体中制备直径范围从 2 纳米到几纳米的过程是一个主要过程。因其多功能性和连续生产纳米级纤维的能力而受到关注，这是使用其他标准技术难以实现的纳米材料在生物医学中的应用。与传统材料相比，目前处于发展前沿。纳米结构材料本质上更大，允许细胞、蛋白质和/或活性物质粘附纳米材料在生物医学中有一系列前沿应用，包括但不限于。仅限于组织工程、药物输送、支架和新型同轴的伤口愈合。 CMC-VAMC 的静电纺丝装置和配件将产生直接而深远的积极影响结合我们现有的核心设备，这次新收购将全面装备 CMC- VAMC 开发基于先进纳米技术的生物材料支架，这将给企业带来巨大的好处。整个 CMC-VAMC 研究事业，对于 CNNR 和 TMRC 的成员特别有用。购买拟议的设备将有助于研究人员克服当前的局限性由于缺乏同轴静电纺丝装置，拟议的设备将允许当前的 VA- 环境。新设备还将资助以退伍军人为中心的研究项目，以更快的速度推进。研究人员开发具有前所未有的纳米级分辨率的先进生物材料产品。总之，这将改善以退伍军人健康为重点的研究，从而进一步推进 VAMC 的长期研究目标。