Fluid flow to mimic organ function in 3D in vitro models

被引:15
作者
Juste-Lanas, Yago [1 ,2 ,3 ]
Hervas-Raluy, Silvia [1 ]
Garcia-Aznar, Jose Manuel [1 ,3 ]
Gonzalez-Loyola, Alejandra [1 ,3 ]
机构
[1] Univ Zaragoza, Engn Res Inst Aragon I3A, Dept Mech Engn, Zaragoza, Spain
[2] Univ Zaragoza, Dept Biochem & Mol & Cellular Biol, Zaragoza, Spain
[3] Aragon Hlth Res Inst IIS Aragon, Zaragoza, Spain
来源
APL BIOENGINEERING | 2023年 / 7卷 / 03期
基金
欧洲研究理事会;
关键词
ON-A-CHIP; 3-DIMENSIONAL CELL-CULTURE; RENAL PROXIMAL TUBULE; EXTRACELLULAR-MATRIX; INTERSTITIAL FLOW; LYMPHATIC VASCULATURE; MICROFLUIDIC PLATFORM; CEREBRAL ORGANOIDS; ENDOTHELIAL-CELLS; BLOOD-FLOW;
D O I
10.1063/5.0146000
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Many different strategies can be found in the literature to model organ physiology, tissue functionality, and disease in vitro; however, most of these models lack the physiological fluid dynamics present in vivo. Here, we highlight the importance of fluid flow for tissue homeostasis, specifically in vessels, other lumen structures, and interstitium, to point out the need of perfusion in current 3D in vitro models. Importantly, the advantages and limitations of the different current experimental fluid-flow setups are discussed. Finally, we shed light on current challenges and future focus of fluid flow models applied to the newest bioengineering state-of-the-art platforms, such as organoids and organ-on-a-chip, as the most sophisticated and physiological preclinical platforms.
引用
收藏
页数:24
相关论文
共 329 条
[1]   Long term perfusion system supporting adipogenesis [J].
Abbott, Rosalyn D. ;
Raja, Waseem K. ;
Wang, Rebecca Y. ;
Stinson, Jordan A. ;
Glettig, Dean L. ;
Burke, Kelly A. ;
Kaplan, David L. .
METHODS, 2015, 84 :84-89
[2]   Balance of interstitial flow magnitude and vascular endothelial growth factor concentration modulates three-dimensional microvascular network formation [J].
Abe, Yoshinori ;
Watanabe, Masafumi ;
Chung, Seok ;
Kamm, Roger D. ;
Tanishita, Kazuo ;
Sudo, Ryo .
APL BIOENGINEERING, 2019, 3 (03)
[3]   Peristaltic pumps adapted for laminar flow experiments enhance in vitro modeling of vascular cell behavior [J].
Abello, Javier ;
Raghavan, Shreya ;
Yien, Yvette Y. ;
Stratman, Amber N. .
JOURNAL OF BIOLOGICAL CHEMISTRY, 2022, 298 (10)
[4]   3D proximal tubule-on-chip model derived from kidney organoids with improved drug uptake [J].
Aceves, Jeffrey O. ;
Heja, Szilvia ;
Kobayashi, Kenichi ;
Robinson, Sanlin S. ;
Miyoshi, Tomoya ;
Matsumoto, Takuya ;
Schaffers, Olivier J. M. ;
Morizane, Ryuji ;
Lewis, Jennifer A. .
SCIENTIFIC REPORTS, 2022, 12 (01)
[5]   Cell Culture Medium Formulation and Its Implications in Cancer Metabolism [J].
Ackermann, Tobias ;
Tardito, Saverio .
TRENDS IN CANCER, 2019, 5 (06) :329-332
[6]   Local extensional flows promote long-range fiber alignment in 3D collagen hydrogels [J].
Ahmed, Adeel ;
Mansouri, Mehran ;
Joshi, Indranil M. ;
Byerley, Ann M. ;
Day, Steven W. ;
Gaborski, Thomas R. ;
Abhyankar, Vinay V. .
BIOFABRICATION, 2022, 14 (03)
[7]   Physical, Spatial, and Molecular Aspects of Extracellular Matrix of In Vivo Niches and Artificial Scaffolds Relevant to Stem Cells Research [J].
Akhmanova, Maria ;
Osidak, Egor ;
Domogatsky, Sergey ;
Rodin, Sergey ;
Domogatskaya, Anna .
STEM CELLS INTERNATIONAL, 2015, 2015
[8]   Tumour-on-a-chip provides an optical window into nanoparticle tissue transport [J].
Albanese, Alexandre ;
Lam, Alan K. ;
Sykes, Edward A. ;
Rocheleau, Jonathan V. ;
Chan, Warren C. W. .
NATURE COMMUNICATIONS, 2013, 4
[9]   Piezo1 and Gq/G11 promote endothelial inflammation depending on flow pattern and integrin activation [J].
Albarran-Juarez, Julian ;
Iring, Andras ;
Wang, ShengPeng ;
Joseph, Sayali ;
Grimm, Myriam ;
Strilic, Boris ;
Wettschureck, Nina ;
Althoff, Till F. ;
Offermanns, Stefan .
JOURNAL OF EXPERIMENTAL MEDICINE, 2018, 215 (10) :2655-2672
[10]   Three-dimensional cell culture: from evolution to revolution [J].
Alhaque, Sharmin ;
Themis, Michael ;
Rashidi, Hassan .
PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES, 2018, 373 (1750)
12345678910