Biology (Jan 2023)

SPIM-Flow: An Integrated Light Sheet and Microfluidics Platform for Hydrodynamic Studies of <i>Hydra</i>

  • Per Niklas Hedde,
  • Brian T. Le,
  • Erika L. Gomez,
  • Leora Duong,
  • Robert E. Steele,
  • Siavash Ahrar

DOI
https://doi.org/10.3390/biology12010116
Journal volume & issue
Vol. 12, no. 1
p. 116

Abstract

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Selective plane illumination microscopy (SPIM), or light sheet microscopy, is a powerful imaging approach. However, access to and interfacing microscopes with microfluidics have remained challenging. Complex interfacing with microfluidics has limited the SPIM’s utility for studying the hydrodynamics of freely moving multicellular organisms. We developed SPIM-Flow, an inexpensive light sheet platform that enables easy integration with microfluidics. We used SPIM-Flow to investigate the hydrodynamics of a freely moving Hydra polyp via particle tracking in millimeter-sized chambers. Initial experiments across multiple animals, feeding on a chip (Artemia franciscana nauplii used as food), and baseline behaviors (tentacle swaying, elongation, and bending) indicated the organisms’ health inside the system. Fluidics were used to investigate Hydra’s response to flow. The results suggested that the animals responded to an established flow by bending and swaying their tentacles in the flow direction. Finally, using SPIM-Flow in a proof-of-concept experiment, the shear stress required to detach an animal from a surface was demonstrated. Our results demonstrated SPIM-Flow’s utility for investigating the hydrodynamics of freely moving animals.

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