| Adapters |
Female Luer or ibidi Adapter for 20/200 µl pipet tips |
| Volume of main channel | 50 µl |
| Height of main channel | 0.4 mm |
| Length of main channel | 25 mm |
| Width of main channel | 5 mm |
| Growth area, main channel | 1.25 cm² |
| Volume of upper channel | 30 µl |
| Height of upper channel | various |
|
Bottom: ibidi Polymer Coverslip |
|
| Material | SiO2 (glass) | ||
| Thickness | 0.3 µm (300 nm) | ||
| Membrane size | 2 mm x 2 mm | ||
| Available variations |
|
1.流动状态下跨内皮细胞迁移
2.2D或者3D凝胶内细胞层共培养和运输
3.顶部-基底细胞急性分析
4.液体-空气接触的皮肤和肺部模型
5.顶部-基底梯度的细胞屏障模型
6.基于过滤系统和孔状膜的细胞迁移分析
1.SiMPore’s G-FLAT™ 微孔径玻璃膜
2.中间具有玻璃光学膜的跨通道结构
3.与盖玻片相比,具有较好的光学特质
4.孔径大小0.5μm,3μm,5μm,8μm
5.膜厚度0.3μm(300nm)
6.物镜工作距离>0.5mm
7.完全兼容ibidi泵系统
8.特定剪切力大小和剪切力速率水平
(详情点击: Application Note 11)
Endothelial cells on 3 µm ibiPore membrane. Immunofluorescence overlay image of phase contrast, DAPI (blue), VE-Cadherins (green), F-Actin (red).
Fibroblast cells on 3 µm ibiPore membrane.
Phase contrast image, objective lens 4x.
| 膜类型 | 应用 | 细胞种类案例 |
|
0.5 µm pores, high porosity (20%) |
Permeabilitytransport studies, co-culture models. With this model, cell migration is not possible. |
Lung cells, epithelial cells |
|
3.0 µm pores, low porosity (5%) |
Transendothelial migration | Leukocytes (neutrophils, T-cells) |
|
5.0 µm pores, low porosity (5%) |
Invasion, migration | Monocytes, macrophages, lymphocytes |
|
8.0 µm pores, low porosity (5%) |
Invasion, migration | Tumorcancer cells, endothelialepithelial cells, fibroblasts, osteoblasts, melanoma, glioma |
越大的细胞 – 建议使用越大的孔径。
3微米孔
0.5微米孔
