植入物表面的细胞流体剪切应力——一种新型实验装置的建立

Cellular fluid shear stress on implant surfaces-establishment of a novel experimental set up.

作者信息

Kämmerer P W, Thiem D G E, Alshihri A, Wittstock G H, Bader R, Al-Nawas B, Klein M O

机构信息

Department of Oral and Maxillofacial Surgery, Facial Plastic Surgery, University Medical Centre Rostock, Schillingallee 35, 18057, Rostock, Germany.

Department of Prosthetic and Biomaterial Sciences, King Saud University, Riyadh, Saudi Arabia.

出版信息

Int J Implant Dent. 2017 Dec;3(1):22. doi: 10.1186/s40729-017-0085-3. Epub 2017 May 31.

DOI:10.1186/s40729-017-0085-3

PMID:28567712

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5451379/

Abstract

BACKGROUND

Mechanostimuli of different cells can affect a wide array of cellular and inter-cellular biological processes responsible for dental implant healing. The purpose of this in vitro study was to establish a new test model to create a reproducible flow-induced fluid shear stress (FSS) of osteoblast cells on implant surfaces.

METHODS

As FSS effects on osteoblasts are detectable at 10 dyn/cm, a custom-made flow chamber was created. Computer-aided verification of circulation processes was performed. In order to verify FSS effects, cells were analysed via light and fluorescence microscopy.

RESULTS

Utilising computer-aided simulations, the underside of the upper plate was considered to have optimal conditions for cell culturing. At this site, a flow-induced orientation of osteoblast cell clusters and an altered cell morphology with cellular elongation and alteration of actin fibres in the fluid flow direction was detected.

CONCLUSIONS

FSS simulation using this novel flow chamber might mimic the peri-implant situation in the phase of loaded implant healing. With this FSS flow chamber, osteoblast cells' sensitivity to FSS was verified in the form of morphological changes and cell re-clustering towards the direction of the flow. Different shear forces can be created simultaneously in a single experiment.

摘要

背景

不同细胞的机械刺激可影响一系列负责牙种植体愈合的细胞内和细胞间生物学过程。本体外研究的目的是建立一种新的测试模型，以在种植体表面产生可重复的流动诱导流体剪切应力（FSS）作用于成骨细胞。

方法

由于在10达因/平方厘米时可检测到FSS对成骨细胞的影响，因此制作了一个定制的流动腔室。对循环过程进行了计算机辅助验证。为了验证FSS的作用，通过光学显微镜和荧光显微镜对细胞进行了分析。

结果

利用计算机辅助模拟，认为上板的下侧具有细胞培养的最佳条件。在此部位，检测到成骨细胞簇的流动诱导取向以及细胞形态的改变，表现为细胞伸长和肌动蛋白纤维沿流体流动方向的改变。

结论

使用这种新型流动腔室进行FSS模拟可能模拟加载种植体愈合阶段的种植体周围情况。通过这种FSS流动腔室，以形态变化和细胞向流动方向重新聚集的形式验证了成骨细胞对FSS的敏感性。在单个实验中可同时产生不同的剪切力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0285/5451379/f600d09cb41e/40729_2017_85_Fig1_HTML.jpg

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植入物表面的细胞流体剪切应力——一种新型实验装置的建立

Cellular fluid shear stress on implant surfaces-establishment of a novel experimental set up.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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