Investigation of Inlet Conditions in The Mixing Process of Nanoparticles and Blood in a T-Shaped Microfluidic Reactor with Small Rectangular Cavities.

IF 2.5 3区 工程技术 Q2 BIOLOGY Yale Journal of Biology and Medicine Pub Date : 2023-03-01 DOI:10.59249/FUAH2942
Evangelos G Karvelas, Stavros N Doulkeridis, Theodoros E Karakasidis, Ioannis E Sarris
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Abstract

During the metastasis of cancer cells, circulating tumor cells (CTCs) are released from the primary tumor, reach the bloodstream, and colonize new organs. A potential reduction of metastasis may be accomplished through the use of nanoparticles in micromixers in order to capture the CTCs that circulates in blood. In the present study, the effective mixing of nanoparticles and the blood that carries the CTCs are investigated. The mixing procedure was studied under various inlet velocity ratios and several T-shaped micromixer geometries with rectangular cavities by using computational fluid dynamics techniques. The Navier-Stokes equations were solved for the blood flow; the discrete motion of particles is evaluated by a Lagrangian method while the diffusion of blood substances is studied by using a scalar transport equation. Results showed that as the velocity ratio between the inlet streams increases, the mixing rate of nanoparticles with the blood flow is increased. Moreover, nanoparticles are uniformly distributed across the mixing channel while their concentration is decreased along the channel. Furthermore, the evolution in time of the blood substances in the mixing channel increases with the increase of the velocity ratio between the two streams. On the other hand, the concentration of both the blood substances and the nanoparticles is decreased in the mixing channel as the velocity ratio increases. Finally, the differences in the dimensions of the rectangular cavities seems to have an insignificant effect both in the evolution in time of the blood substances and the concentration of nanoparticles in the mixing channel.

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小矩形腔t型微流控反应器中纳米颗粒与血液混合过程的入口条件研究
在癌细胞转移的过程中,循环肿瘤细胞(循环肿瘤细胞)从原发肿瘤中释放出来,进入血液,并定植新的器官。通过在微混合器中使用纳米颗粒来捕获在血液中循环的ctc,可能会减少转移。在本研究中,研究了纳米颗粒与携带ctc的血液的有效混合。利用计算流体力学技术,研究了不同进口速度比和几种矩形空腔t型微混合器几何形状下的混合过程。求解了血流的Navier-Stokes方程;用拉格朗日方法计算了粒子的离散运动,用标量输运方程研究了血液物质的扩散。结果表明,随着入口流间流速比的增大,纳米颗粒与血流的混合速率增大。此外,纳米颗粒在混合通道中均匀分布,其浓度沿通道降低。此外,混合通道中血液物质的时间演化随两流速度比的增加而增加。另一方面,随着流速比的增加,混合通道中血液物质和纳米粒子的浓度都降低。最后,矩形空腔的尺寸差异似乎对血液物质的时间演变和混合通道中纳米粒子的浓度都没有显著的影响。
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来源期刊
Yale Journal of Biology and Medicine
Yale Journal of Biology and Medicine Biochemistry, Genetics and Molecular Biology-General Biochemistry,Genetics and Molecular Biology
CiteScore
5.00
自引率
0.00%
发文量
41
期刊介绍: The Yale Journal of Biology and Medicine (YJBM) is a graduate and medical student-run, peer-reviewed, open-access journal dedicated to the publication of original research articles, scientific reviews, articles on medical history, personal perspectives on medicine, policy analyses, case reports, and symposia related to biomedical matters. YJBM is published quarterly and aims to publish articles of interest to both physicians and scientists. YJBM is and has been an internationally distributed journal with a long history of landmark articles. Our contributors feature a notable list of philosophers, statesmen, scientists, and physicians, including Ernst Cassirer, Harvey Cushing, Rene Dubos, Edward Kennedy, Donald Seldin, and Jack Strominger. Our Editorial Board consists of students and faculty members from Yale School of Medicine and Yale University Graduate School of Arts & Sciences. All manuscripts submitted to YJBM are first evaluated on the basis of scientific quality, originality, appropriateness, contribution to the field, and style. Suitable manuscripts are then subject to rigorous, fair, and rapid peer review.
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