Investigation of manufacturing deviations of CPC scaffolds for improving the design process

Q4 Engineering
Alexander Seidler, Martin Pendzik, Arthur Hilbig, Philipp Sembdner, Stefan Holtzhausen, Kristin Paetzold-Byhain
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引用次数: 0

Abstract

Abstract In current implantology, calcium phosphate cement (CPC) is increasingly used. A special focus is given to CPC scaffolds, as they are suitable for cell settlement and growth due to their positive osteoconductive properties. The design of the scaffolds is of decisive importance for this. The value ranges of the geometric parameters of these scaffolds (e.g. path distance, path diameter), which are positive for both cell settlement and cell growth, are very small. Manufacturing deviations therefore have a significant impact on cell settlement and growth. The pasty manufacturing consistency can cause sagging at the path interstices of a layer immediately below, resulting in significant manufacturing deviations. A larger path distance and thus a larger path interstitial space promotes cell settlement, but at the same time increases the risk of CPC path shape inconsistency. This in turn can have a negative effect on cell settlement. Therefore, the aim of this paper is to investigate the discrepancies between the nominal and actual state at a path distance favourable to cell settlement on the basis of manufactured CPC scaffolds. In this context, geometric and manufacturing parameters of the shape deviation are to be identified and constructive design adaptations are to be derived on the basis of these. In addition, the effects of the shape and position deviations on the flow behaviour will be investigated.
CPC支架制造偏差调查,改进设计工艺
在目前的种植学中,磷酸钙水泥(CPC)的应用越来越广泛。CPC支架是一个特别的焦点,因为它们适合于细胞沉降和生长,因为它们具有积极的骨传导特性。支架的设计在这方面具有决定性的意义。这些支架的几何参数(如路径距离、路径直径)对细胞沉降和细胞生长都是正的,但其取值范围非常小。因此,制造偏差对细胞沉降和生长有重大影响。膏体的制造一致性会导致在下一层的路径间隙处产生下垂,从而导致显著的制造偏差。更大的路径距离和更大的路径间隙空间促进了细胞沉降,但同时也增加了CPC路径形状不一致的风险。这反过来又会对细胞沉降产生负面影响。因此,本文的目的是研究在制造的CPC支架的基础上,在有利于细胞沉降的路径距离上的标称状态和实际状态之间的差异。在这种情况下,要确定形状偏差的几何和制造参数,并在此基础上推导出建设性的设计适应性。此外,还将研究形状和位置偏差对流动特性的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Current Directions in Biomedical Engineering
Current Directions in Biomedical Engineering Engineering-Biomedical Engineering
CiteScore
0.90
自引率
0.00%
发文量
239
审稿时长
14 weeks
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