Z692050
3DKUBE™ 3D cell culture chambers
cell migration
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About This Item
UNSPSC Code:
41100000
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packaging
pkg of 24 ea
manufacturer/tradename
Kiyatec 3D030
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General description
3DKUBE Cell Migration configuration provides the user with an advanced 3D culture system for modeling complex cell chemotaxis phenomenon. This is accomplished with the use of the gasket-membrane insert that segregates the two 3D culture chambers while permitting cell migration across the porous membrane. Membrane is a hydrophilic, low protein binding polyethersulfone with 3.0 μm porosity.
Experiments can be designed to utilize chemotaxic agents or multiple cell types to drive cell migration or repulsion. Kits are provided in a convenient tray with peel-away Tyvek® seal and are gamma irradiated. Each 3D culture chamber is 6 mm in diameter and 250 μL in volume.
Experiments can be designed to utilize chemotaxic agents or multiple cell types to drive cell migration or repulsion. Kits are provided in a convenient tray with peel-away Tyvek® seal and are gamma irradiated. Each 3D culture chamber is 6 mm in diameter and 250 μL in volume.
Assembled Outer Dimensions: 43.7 mm L x 25.0 mm W x 24.0 mm H
Single Chamber Dimensions: 8.5 mm H x 6.0 mm diameter
Case Dimensions: 10 in. L x 9 in. W x 4 in. H
Package Dimensions: 4 in. L x 3 in. W x 0.8 in. H
Single Chamber Dimensions: 8.5 mm H x 6.0 mm diameter
Case Dimensions: 10 in. L x 9 in. W x 4 in. H
Package Dimensions: 4 in. L x 3 in. W x 0.8 in. H
Legal Information
3DKUBE is a trademark of Kiyatec, Inc.
Tyvek is a registered trademark of E. I. du Pont de Nemours and Company
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Karolina Janeczek Portalska et al.
Journal of tissue engineering and regenerative medicine, 10(5), 363-373 (2013-04-18)
Modular tissue engineering is a strategy to create scalable, self-assembling, three-dimensional (3D) tissue constructs. This strategy was used to deliver endothelial-like cells derived from bone marrow mesenchymal stromal cells (EL-MSCs) to locally induce vascularization. First, tissue engineered modules were formed
Sayed-Hadi Mirmalek-Sani et al.
Biomaterials, 34(22), 5488-5495 (2013-04-16)
Emergent technologies of regenerative medicine have the potential to overcome the limitations of organ transplantation by supplying tissues and organs bioengineered in the laboratory. Pancreas bioengineering requires a scaffold that approximates the biochemical, spatial and vascular relationships of the native
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