| Literature DB >> 32121446 |
Francesco Guzzi1, Patrizio Candeloro1, Maria Laura Coluccio1, Costanza Maria Cristiani1, Elvira Immacolata Parrotta1, Luana Scaramuzzino1, Stefania Scalise1, Elisabetta Dattola1, Maria Antonia D'Attimo1, Giovanni Cuda1, Ernesto Lamanna1, Lucia Carmela Passacatini1, Ennio Carbone1, Ulrich Krühne2, Enzo Di Fabrizio3, Gerardo Perozziello1.
Abstract
In this work, a disposable passive microfluidic device for cell culturing that does not require any additional/external pressure sources is introduced. By regulating the height of fluidic columns and the aperture and closure of the source wells, the device can provide different media and/or drug flows, thereby allowing different flow patterns with respect to time. The device is made of two Polymethylmethacrylate (PMMA) layers fabricated by micro-milling and solvent assisted bonding and allows us to ensure a flow rate of 18.6 μl/ℎ - 7%/day, due to a decrease of the fluid height while the liquid is driven from the reservoirs into the channels. Simulations and experiments were conducted to characterize flows and diffusion in the culture chamber. Melanoma tumor cells were used to test the device and carry out cell culturing experiments for 48 hours. Moreover, HeLa, Jurkat, A549 and HEK293T cell lines were cultivated successfully inside the microfluidic device for 72 hours.Entities:
Keywords: Cell Culture; Micro-Bioreactor; Passive Microfluidic Device
Year: 2020 PMID: 32121446 DOI: 10.3390/bios10030018
Source DB: PubMed Journal: Biosensors (Basel) ISSN: 2079-6374