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Combined Femtosecond Laser Glass Microprocessing for Liver-on-Chip Device Fabrication

by Čereška, Deividas , Merkininkaitė, Greta , Marcinkevičiūtė, Kristina , Schemmer, Peter , Kvietkauskas, Mindaugas , Jurkšas, Tomas , Strupas, Kęstutis , Žilėnaitė, Rugilė , Gulla, Aiste , Butkutė, Agnė , Baravykas, Tomas , Leber, Bettina

in Animal experimentation / Avoidance / Biomedical materials / Design / Laboratories / Laser applications / Laser beam welding / Laser etching / Liver / Liver cancer / Mass production / Porous materials / Potash / Potassium / Prototyping / Radiation / Technology application / Work stations

2023

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Combined Femtosecond Laser Glass Microprocessing for Liver-on-Chip Device Fabrication

2023

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Combined Femtosecond Laser Glass Microprocessing for Liver-on-Chip Device Fabrication

2023

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Journal Article

Combined Femtosecond Laser Glass Microprocessing for Liver-on-Chip Device Fabrication

Čereška, Deividas,

Merkininkaitė, Greta,

Marcinkevičiūtė, Kristina,

Schemmer, Peter,

Kvietkauskas, Mindaugas,

Jurkšas, Tomas,

Strupas, Kęstutis,

Žilėnaitė, Rugilė,

Gulla, Aiste,

Butkutė, Agnė,

Baravykas, Tomas,

Leber, Bettina

2023

Overview

Nowadays, lab-on-chip (LOC) devices are attracting more and more attention since they show vast prospects for various biomedical applications. Usually, an LOC is a small device that serves a single laboratory function. LOCs show massive potential for organ-on-chip (OOC) device manufacturing since they could allow for research on the avoidance of various diseases or the avoidance of drug testing on animals or humans. However, this technology is still under development. The dominant technique for the fabrication of such devices is molding, which is very attractive and efficient for mass production, but has many drawbacks for prototyping. This article suggests a femtosecond laser microprocessing technique for the prototyping of an OOC-type device—a liver-on-chip. We demonstrate the production of liver-on-chip devices out of glass by using femtosecond laser-based selective laser etching (SLE) and laser welding techniques. The fabricated device was tested with HepG2(GS) liver cancer cells. During the test, HepG2(GS) cells proliferated in the chip, thus showing the potential of the suggested technique for further OOC development.

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Publisher

MDPI AG,MDPI

Subject

Animal experimentation

/ Avoidance

/ Biomedical materials

/ Design

/ Laboratories

/ Laser applications

/ Laser beam welding