这是 AIM Biotech 经过验证的 3D 细胞培养芯片,现在是 idenTx 家族的一部分。采用显微镜载玻片格式设计,idenTx 系列的这个zui基本的组件可以同时进行 3 个实验。它是建立实验可行性或一般低通量应用的里想选择。
一种易于使用的微流控芯片,用于创建 3D 多细胞模型,具有 3 通道设计和 2 个介质通道两侧的 3D 凝胶区域。每个芯片zui多执行三个实验。
每盒 25 片
du立wu菌包装
特征
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显微镜载玻片格式 75mm X 25mm
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与可聚合凝胶兼容,包括胶原蛋白、纤维蛋白原、Matrigel
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用于有效气体交换的透气层压板
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光学清晰,与相差显微镜、荧光显微镜和共焦显微镜兼容
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启用单型或器官型共培养模型
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能够控制跨 3D 凝胶区域的间隙流动
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能够控制整个 3D 凝胶区域的化学梯度
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wu菌和即用型
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专为通过真空抽吸进行快速介质交换而设计,没有过度抽吸的风险
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设计用于使用 Identix Luer 连接器进行模块化扩展
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适合 Identix 微量滴定板支架,便于搬运和堆叠
特点
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轻松转移到其他 idenTx 系统,用于未来更高通量的分析
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兼容多种成像方式
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与可聚合凝胶兼容
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启用单型或器官型共培养模型
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能够控制跨 3D 凝胶区域的间隙流动
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能够控制整个 3D 凝胶区域的化学梯度
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专为通过真空抽吸进行快速介质交换而设计,没有过度抽吸的风险
可以通过对化学物浓度梯度和流体的调控很好地模拟符合用户特定需求的微环境。
This is AIM Biotech’s proven 3D Cell Culture Chip, now part of the idenTx family. Designed in a microscope slide format, this most basic component of the idenTx family enables 3 simultaneous experiments. It is ideal for establishing experimental feasibility or for general low-throughput applications.
An easy-to-use microfluidic chip to create 3D multicellular models featuring a 3-channel design and 3D gel region flanked by 2 media channels. Perform up to three experiments per chip.
25 chips per box
Individual sterile packaging
Features
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Microscope slide format 75mm X 25mm
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Compatible with all polymerisable gels including collagen, fibrinogen, Matrigel
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Gas permeable laminate for effective gas exchange
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Optically clear and compatible with phase contrast, fluorescence and confocal microscopy
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Enables monotypic or organotypic co-culture models
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Enables the control of interstal flow across the 3D gel region
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Enables the control of chemical gradients across the 3D gel region
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Sterile & ready-to-use
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Designed for rapid media exchange through vacuum aspiration with no risk of over-aspiration
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Designed for modular expansion with Identix Luer Connectors
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Fits into Identix microtiter plate holders for easy handling and stacking
Benefits
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Easily transfer to other idenTx systems for future higher throughput assays
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Compatible with a wide range of imaging modales
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Compatible with all polymerizable gels
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Enables monotypic or organotypic co-culture models
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Enables the control of interstal flow across the 3D gel region
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Enables the control of chemical gradients across the 3D gel region
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Designed for rapid media exchange through vacuum aspiration with no risk of over-aspiration
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