Results for Cell Culture devices ( 404 )
Idealized microvascular network for co-culture work (w/2D tissue compartment). Use idealized co-culture assays to mimic the cellular make up in vivo. Investigate cell-cell interactions and perfusion vs. diffusion-based effects. Analyze the experiments in real-time for all the cell populations. Intended to mimic the formation of and transport across tight and gap junctions such as the blood-brain barrier and other endothelial/tissue interfaces, the idealized co-culture constructs are available with several options for channel size, tissue chamber size and scaffolding, and barrier design. 200μm OC, 50μm slit spacing, 3µm wide slit, 50μm travel, 100μm depth, w/impedence capability.
Idealized microvascular network for co-culture work (w/2D tissue compartment). Use idealized co-culture assays to mimic the cellular make up in vivo. Investigate cell-cell interactions and perfusion vs. diffusion-based effects. Analyze the experiments in real-time for all the cell populations. Intended to mimic the formation of and transport across tight and gap junctions such as the blood-brain barrier and other endothelial/tissue interfaces, the idealized co-culture constructs are available with several options for channel size, tissue chamber size and scaffolding, and barrier design. 200μm OC, 50μm slit spacing, 2µm wide slit, 50μm travel, 100μm depth.
Idealized microvascular network for co-culture work (w/2D tissue compartment). Use idealized co-culture assays to mimic the cellular make up in vivo. Investigate cell-cell interactions and perfusion vs. diffusion-based effects. Analyze the experiments in real-time for all the cell populations. Intended to mimic the formation of and transport across tight and gap junctions such as the blood-brain barrier and other endothelial/tissue interfaces, the idealized co-culture constructs are available with several options for channel size, tissue chamber size and scaffolding, and barrier design. 200μm OC, 50μm slit spacing, 2µm wide slit, 100μm travel, 100μm depth.
Idealized microvascular network for co-culture work (w/3D tissue compartment). Use idealized co-culture assays to mimic the cellular make up in vivo. Investigate cell-cell interactions and perfusion vs. diffusion-based effects. Analyze the experiments in real-time for all the cell populations. Intended to mimic the formation of and transport across tight and gap junctions such as the blood-brain barrier and other endothelial/tissue interfaces, the idealized co-culture constructs are available with several options for channel size, tissue chamber size and scaffolding, and barrier design. 200μm OC, Pillars, 3 um gap, 100μ travel, 100μm depth; Chamber: 25um Diameter, 50um Separation; Barrier: 10um Diameter, 3um Separation.
Idealized microvascular network for co-culture work (w/3D tissue compartment). Use idealized co-culture assays to mimic the cellular make up in vivo. Investigate cell-cell interactions and perfusion vs. diffusion-based effects. Analyze the experiments in real-time for all the cell populations. Intended to mimic the formation of and transport across tight and gap junctions such as the blood-brain barrier and other endothelial/tissue interfaces, the idealized co-culture constructs are available with several options for channel size, tissue chamber size and scaffolding, and barrier design. 200μm OC, Pillars, 8 um gap, 100μ travel, 100μm depth; Chamber: 25um Diameter, 50um Separation; Barrier: 10um Diameter, 8um Separation.
Idealized microvascular network for co-culture work (w/3D tissue compartment). Use idealized co-culture assays to mimic the cellular make up in vivo. Investigate cell-cell interactions and perfusion vs. diffusion-based effects. Analyze the experiments in real-time for all the cell populations. Intended to mimic the formation of and transport across tight and gap junctions such as the blood-brain barrier and other endothelial/tissue interfaces, the idealized co-culture constructs are available with several options for channel size, tissue chamber size and scaffolding, and barrier design. 100μm OC, 50um Slit spacing, 2um slit gap, 100μ travel, 100μm depth; Chamber pillars – 25um Diameter, 50um Separation; Barrier pillars – 2um Slits, 50um Separation.
Idealized microvascular network for co-culture work (w/3D tissue compartment). Use idealized co-culture assays to mimic the cellular make up in vivo. Investigate cell-cell interactions and perfusion vs. diffusion-based effects. Analyze the experiments in real-time for all the cell populations. Intended to mimic the formation of and transport across tight and gap junctions such as the blood-brain barrier and other endothelial/tissue interfaces, the idealized co-culture constructs are available with several options for channel size, tissue chamber size and scaffolding, and barrier design. 100um OC, 50um Slit spacing, 2um slit width, 100um travel; Chamber pillars – 25um Diameter, 50um Separation; Barrier pillars – 2um Slits, 50um Separation.