Cristin-person-ID: 1260865
Person

Thomas Michel Daniel Combriat

  • Stilling:
    Forsker
    ved SFF - Hybrid Technology Hub ved Universitetet i Oslo

Resultater Resultater

Acoustic Wave-Induced Stroboscopic Optical Mechanotyping of Adherent Cells.

Combriat, Thomas Michel Daniel; Olsen, Petter Angell; Låstad, Silja Borring; Malthe-Sørenssen, Anders; Krauss, Stefan Johannes Karl; Dysthe, Dag Kristian. 2024, Advanced Science. UIO, OUSVitenskapelig artikkel

Pump-Less, Recirculating Organ-on-Chip (rOoC) Platform to Model the Metabolic Crosstalk between Islets and Liver.

Aizenshtadt, Aleksandra; Wang, Chencheng; Abadpour, Shadab; Menezes, Pedro Duarte; Wilhelmsen, Ingrid; Dalmao-Fernandez, Andrea; Stokowiec, Justyna; Golovin, Alexey; Johnsen, Mads; Combriat, Thomas Michel Daniel mfl.. 2024, Advanced Healthcare Materials. UIO, UoG, OUSVitenskapelig artikkel

Characterization of Mechanical and Cellular Effects of Rhythmic Vertical Vibrations on Adherent Cell Cultures .

Kwak, Dongho; Combriat, Thomas Michel Daniel; Jensenius, Alexander Refsum; Olsen, Petter Angell. 2023, Bioengineering. UIO, OUSVitenskapelig artikkel

Music for Cells? A Systematic Review of Studies Investigating the Effects of Audible Sound Played Through Speaker-Based Systems on Cell Cultures .

Kwak, Dongho; Combriat, Thomas Michel Daniel; Wang, Chencheng; Scholz, Hanne; Danielsen, Anne; Jensenius, Alexander Refsum. 2022, Music & Science. UIOVitenskapelig artikkel

Thermoplastic elastomer (Tpe)–poly(methyl methacrylate) (pmma) hybrid devices for active pumping pdms-free organ-on-a-chip systems.

Busek, Mathias; Nøvik, Steffen; Aizenshtadt, Aleksandra; Amirola Martinez, Mikel; Combriat, Thomas Michel Daniel; Grünzner, Stefan; Krauss, Stefan. 2021, Biosensors. TUD, UIO, OUSVitenskapelig artikkel
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