packaging
pkg of 24 ea
manufacturer/tradename
Kiyatec 3D030
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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