Micromachines (Apr 2020)

Survival Rate of Cells Sent by a Low Mechanical Load Tube Pump: The “Ring Pump”

  • Kaoru Uesugi,
  • Keizo Nishiyama,
  • Koki Hirai,
  • Hiroaki Inoue,
  • Yoichi Sakurai,
  • Yoji Yamada,
  • Takashi Taniguchi,
  • Keisuke Morishima

DOI
https://doi.org/10.3390/mi11040447
Journal volume & issue
Vol. 11, no. 4
p. 447

Abstract

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A ring pump (RP) is a useful tool for microchannels and automated cell culturing. We have been developing RPs (a full-press ring pump, FRP; and a mid-press ring pump, MRP). However, damage to cells which were sent by the RP and the MRP was not investigated, and no other studies have compared the damage to cells between RPs and peristaltic pumps (PPs). Therefore, first, we evaluated the damage to cells that were sent by a small size FRP (s-FRP) and small size MRPs (s-MRPs; gap = 25 or 50 μm, respectively). “Small size” means that the s-FRP and the s-MRPs are suitable for microchannel-scale applications. The survival rate of cells sent by the s-MRPs was higher than those sent by the s-FRP, and less damage caused by the former. Second, we compared the survival rate of cells that were sent by a large size FRP (l-FRP), a large size MRP (l-MRP) (gap = 50 μm) and a PP. “Large size” means that the l-FRP and the l-MRP are suitable for automated cell culture system applications. We could not confirm any differences among the cell survival rates. On the other hand, when cells suspended in Dulbecco’s phosphate-buffered saline solution were circulated with the l-MRP (gap = 50 μm) and the PP, we confirmed a difference in cell survival rate, and less damage caused by the former.

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