Microphysiological System (MPS) Related Products
Multi-Organ Microphysiological System BioStellar™ Plate

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Multi-Organ Microphysiological System BioStellar™ Plate

BioStellar™ Plate is an advanced microfluidic cell culture plate specifically designed for connection co-culturing categorized in multi-organ microphysiological systems (MPS). This innovative plate features an integrated kinetic pump mechanism that facilitates efficient fluid perfusion, eliminating the need for external pumps and tubing. This design significantly streamlines experimental setups, enhancing usability for researchers. Additionally, the BioStellar™ Plate offers versatile options for cell culture formats, which can be combined with commercially available cell culture inserts or Cell Desk. This flexibility allows users to tailor their experimental designs to meet specific research objectives. The incorporation of such features positions the BioStellarâ„¢ Plate as a valuable tool in the study of complex biological interactions and the development of more physiologically relevant in vitro models.

Features

  • Stirrer pump integrated microfluidic plate
  • Open access cell culture platform
  • Compatible with permeable cell culture inserts
  • MO-MPS: Co-culture up to 4 organs simultaneously
  • Reduce non-specific adsorption of drugs to the plate
Multi-Organ Microphysiological System BioStellar™ Plate

BioStellar™ Plate’s promotional video

Application

Drug Discovery and Biotechnology Research

Microphysiological System (MPS) Related Products

  • ADME test (Drug absorption, Drug metabolism, Drug bioavailability)
  • Drug safety test
  • Disease modeling
  • Organ crosstalk research

Specifications

Product Number Product Name Contents Price
BS-X9607 BioStellar™ Plate 2 plates/case Ask

Remark

  • For any inquiries, quotes, or orders for BS-X9607, please contact us from the inquiry form at the bottom of this page.

Publications

1. K. Shinha, W. Nihei, H. Nakamura, T. Goto, T. Kawanishi, N. Ishida, N. Yamazaki, Y. Imakura, S. Mima, K. Inamura, H. Arakawa, M. Nishikawa, Y. Kato, Y. Sakai, *H. Kimura,"A Kinetic-Pump Integrated Microfluidic Plate (KIM-Plate) with High Usability for Cell Culture-based Multi-Organ Microphysiological Systems",Micromachines,vol12,No.9,1007,2021.
2. Kurniawan DA, Leo S, Inamatsu M, Funaoka S, Aihara T, Mizuno A, Inoue R, Sakura T, Arakawa H, Kato Y, Matsugi T, Esashika K, Shiraki N, Kume S, Shinha K, Kimura H, Nishikawa M, Sakai Y. Gut-liver microphysiological systems revealed potential crosstalk mechanism modulating drug metabolism. PNAS Nexus 3(2): 070, 2024.

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