感触のある微粒子(Microparticles with feeling)

研究者らが流量と酸素を同時に測定する新手法を開発 Researchers develop a new method to simultaneously measure flow and oxygen

2022-05-23 マックス・プランク研究所

＜関連情報＞

• https://www.mpg.de/18668067/0518-mbio-microparticles-with-feeling-154772-x?c=2249
• https://www.sciencedirect.com/science/article/pii/S2667237522000790?via%3Dihub

流れ場と酸素濃度の同時可視化により、生体内の輸送・代謝プロセスを解明する Simultaneous visualization of flow fields and oxygen concentrations to unravel transport and metabolic processes in biological systems

Soeren Ahmerkamp,Farooq Moin Jalaluddin,YuanCui,Douglas R.Brumley,Cesar O.Pacherres,Jasmine S.Berg,Roman Stocker,Marcel M.M.Kuypers,Klaus Koren,Lars Behrendt
Cell Reports Methods  Published:23 May 2022
DOI:https://doi.org/10.1016/j.crmeth.2022.100216

Summary

From individual cells to whole organisms, O₂ transport unfolds across micrometer- to millimeter-length scales and can change within milliseconds in response to fluid flows and organismal behavior. The spatiotemporal complexity of these processes makes the accurate assessment of O₂ dynamics via currently available methods difficult or unreliable. Here, we present “sensPIV,” a method to simultaneously measure O₂ concentrations and flow fields. By tracking O₂-sensitive microparticles in flow using imaging technologies that allow for instantaneous referencing, we measured O₂ transport within (1) microfluidic devices, (2) sinking model aggregates, and (3) complex colony-forming corals. Through the use of sensPIV, we find that corals use ciliary movement to link zones of photosynthetic O₂ production to zones of O₂ consumption. SensPIV can potentially be extendable to study flow-organism interactions across many life-science and engineering applications.