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Acoustofluidic platforms for particle manipulation
J. Novotny, A. Lenshof, T. Laurell
Jazyk angličtina Země Německo
Typ dokumentu časopisecké články, přehledy, práce podpořená grantem
Grantová podpora
MSM200312001
Programme for Research and Mobility Support of Starting Researchers of the Czech Academy of Sciences
CZ.02.1.01/0.0/0.0/16_026/0008446
European Regional Development Fund Project "SINGING 521 PLANT"
2019-00795
Swedish Research Council
FBKS-2019-27
Fru Berta Kamprads Stiftelse
801267
H2020 Future and Emerging Technologies
Odkazy
PubMed
34719049
DOI
10.1002/elps.202100291
Knihovny.cz E-zdroje
- MeSH
- akustika * MeSH
- biokompatibilní materiály MeSH
- mikrofluidika * MeSH
- viabilita buněk MeSH
- zvuk MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
- přehledy MeSH
There is an increasing interest in acoustics for microfluidic applications. This field, commonly known as acoustofluidics involves the interaction of ultrasonic standing waves with fluids and dispersed microparticles. The combination of microfluidics and the so-called acoustic standing waves (ASWs) led to the development of integrated systems for contact-less on-chip cell and particle manipulation where it is possible to move and spatially localize these particles based on the different acoustophysical properties. While it was initially suggested that the acoustic forces could be harmful to the cells and could impact cell viability, proliferation, or function via phenotypic or even genotypic changes, further studies disproved such claims. This review is summarizing some interesting applications of acoustofluidics in the manipulations of biomaterials, such as cells or subcellular vesicles, in works published mainly within the last 5 years.
Department of Biomedical Engineering Lund University Lund Sweden
Institute of Analytical Chemistry Czech Academy of Sciences Brno Czech Republic
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- $a There is an increasing interest in acoustics for microfluidic applications. This field, commonly known as acoustofluidics involves the interaction of ultrasonic standing waves with fluids and dispersed microparticles. The combination of microfluidics and the so-called acoustic standing waves (ASWs) led to the development of integrated systems for contact-less on-chip cell and particle manipulation where it is possible to move and spatially localize these particles based on the different acoustophysical properties. While it was initially suggested that the acoustic forces could be harmful to the cells and could impact cell viability, proliferation, or function via phenotypic or even genotypic changes, further studies disproved such claims. This review is summarizing some interesting applications of acoustofluidics in the manipulations of biomaterials, such as cells or subcellular vesicles, in works published mainly within the last 5 years.
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