Academic interests
Acoustics, data analysis, bio-physics.
Background
Master degree in Fundamental Physics from Université Paris-Sud (Orsay). Speciality: bio-physics.
Positions held
Publications
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Combriat, Thomas Michel Daniel; Olsen, Petter Angell; Låstad, Silja Borring; Malthe-Sørenssen, Anders; Krauss, Stefan Johannes Karl & Dysthe, Dag Kristian
(2024).
Acoustic Wave-Induced Stroboscopic Optical Mechanotyping of Adherent Cells.
Advanced Science.
ISSN 2198-3844.
doi:
10.1002/advs.202307929.
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Kwak, Dongho; Combriat, Thomas Michel Daniel; Wang, Chencheng; Scholz, Hanne; Danielsen, Anne & Jensenius, Alexander Refsum
(2022).
Music for Cells? A Systematic Review of Studies Investigating the Effects of Audible Sound Played Through Speaker-Based Systems on Cell Cultures .
Music & Science.
ISSN 2059-2043.
5.
doi:
10.1177/20592043221080965.
Full text in Research Archive
Show summary
There have been several studies investigating whether musical sound can be used as cell stimuli in recent years. We systematically searched publications to get an overview of studies that have used audible sound played through speaker-based systems to induce mechanical perturbation in cell cultures. A total of 12 studies were identified. We focused on the experimental setups, the sounds that were used as stimuli, and relevant biological outcomes. The studies are categorized into simple and complex sounds depending on the type of sound employed. Some of the promising effects reported were enhanced cell migration, proliferation, colony formation, and differentiation ability. However, there are significant differences in methodologies and cell type-specific outcomes, which made it difficult to find a systematic pattern in the results. We suggest that future experiments should consider using: (1) a more controlled acoustic environment, (2) standardized sound and noise measurement methods, and (3) a more comprehensive range of controlled sound parameters as cellular stimuli.
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Published
Jan. 15, 2020 12:18 PM
- Last modified
May 19, 2021 12:56 PM