Separation of microalgae from bacterial contaminants using spiral microchannel in the presence of a chemoattractant

IF 4.3 3区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Leticia F. Ngum, Y. Matsushita, Samir F. El-Mashtoly, Ahmed M. R. Fath El-Bab, Ahmed L Abdel-Mawgood
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Abstract

Cell separation using microfluidics has become an effective method to isolate biological contaminants from bodily fluids and cell cultures, such as isolating bacteria contaminants from microalgae cultures and isolating bacteria contaminants from white blood cells. In this study, bacterial cells were used as a model contaminant in microalgae culture in a passive microfluidics device, which relies on hydrodynamic forces to demonstrate the separation of microalgae from bacteria contaminants in U and W-shaped cross-section spiral microchannel fabricated by defocusing CO2 laser ablation. At a flow rate of 0.7 ml/min in the presence of glycine as bacteria chemoattractant, the spiral microfluidics devices with U and W-shaped cross-sections were able to isolate microalgae (Desmodesmus sp.) from bacteria (E. coli) with a high separation efficiency of 92% and 96% respectively. At the same flow rate, in the absence of glycine, the separation efficiency of microalgae for U- and W-shaped cross-sections was 91% and 96%, respectively. It was found that the spiral microchannel device with a W-shaped cross-section with a barrier in the center of the channel showed significantly higher separation efficiency. Spiral microchannel chips with U- or W-shaped cross-sections were easy to fabricate and exhibited high throughput. With these advantages, these devices could be widely applicable to other cell separation applications, such as separating circulating tumor cells from blood.

Graphical Abstract

Abstract Image

在有趋化吸引剂的情况下使用螺旋微通道分离微藻和细菌污染物
利用微流体技术进行细胞分离已成为从体液和细胞培养物中分离生物污染物的有效方法,例如从微藻培养物中分离细菌污染物和从白细胞中分离细菌污染物。在这项研究中,细菌细胞被用作微藻培养中的模型污染物,在一个被动微流控装置中,该装置依靠流体动力演示了在通过二氧化碳激光烧蚀散焦制造的 U 型和 W 型截面螺旋微通道中微藻与细菌污染物的分离。在以甘氨酸为细菌趋化吸引剂的条件下,流速为 0.7 ml/min,U 型和 W 型截面的螺旋微流控装置能够从细菌(大肠杆菌)中分离出微藻类(Desmodesmus sp.),分离效率分别高达 92% 和 96%。在相同流速下,如果没有甘氨酸,U 型和 W 型横截面的微藻分离效率分别为 91% 和 96%。研究发现,横截面为 W 形且在通道中心设有屏障的螺旋微通道装置的分离效率明显更高。具有 U 形或 W 形横截面的螺旋微通道芯片易于制造,并且具有高通量。凭借这些优势,这些装置可广泛应用于其他细胞分离应用,如从血液中分离循环肿瘤细胞。
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来源期刊
Bioresources and Bioprocessing
Bioresources and Bioprocessing BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
CiteScore
7.20
自引率
8.70%
发文量
118
审稿时长
13 weeks
期刊介绍: Bioresources and Bioprocessing (BIOB) is a peer-reviewed open access journal published under the brand SpringerOpen. BIOB aims at providing an international academic platform for exchanging views on and promoting research to support bioresource development, processing and utilization in a sustainable manner. As an application-oriented research journal, BIOB covers not only the application and management of bioresource technology but also the design and development of bioprocesses that will lead to new and sustainable production processes. BIOB publishes original and review articles on most topics relating to bioresource and bioprocess engineering, including: -Biochemical and microbiological engineering -Biocatalysis and biotransformation -Biosynthesis and metabolic engineering -Bioprocess and biosystems engineering -Bioenergy and biorefinery -Cell culture and biomedical engineering -Food, agricultural and marine biotechnology -Bioseparation and biopurification engineering -Bioremediation and environmental biotechnology
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