Millicell® cell culture inserts, plates, and cultureware are designed to maximize user convenience and biological relevance in cell culture applications. Millicell® permeable inserts encourage the natural morphology and proliferation of adherent and suspension cell lines. Optimized membranes provide cells with structure and function that closely mimic their in vivo environment, leading to more biologically-relevant results for applications including toxicity screening, primary and secondary screening, cell signaling, cell proliferation, transport assays, and ADME/Tox drug safety studies. Millicell® HY multilayer flasks save time and space in the incubator when propagating cells. Our Millicell® EZ SLIDE culture chamber slides bring enhanced features and unique design that help you spend less time reseeding cells and struggling with difficult-to-use devices, and more time analyzing results.
In vivo, cells live in a three-dimensional environment and can access nutrients from all directions. In contrast, traditional plastic culture plates force cells to grow on a smooth, two-dimensional surface, leading to flattened nuclei and poor function. Millicell® inserts and plates feature a design that allows access to both the basolateral and apical surfaces of cell layers. This promotes natural, multidimensional growth and provides more relevant in vitro models than traditional plastic plates.
Millicell® EZ Slides can be used to culture, fix, stain and view your cells all in one device. No need to tediously move cover slips from your culture dish to a slide, or to remove the media chamber from the slide prior to fixing or staining. Easily remove the chamber structure without worrying about breaking slides or ruining cell layers. Acquire data simply and quickly with Millicell® EZ Slides.
Innovative multilayer cell culture flasks support uniform, consistent cell growth for high cell recovery. Manufactured with multiple identical layers, Millicell® HY flasks maximize cell culture surface area for the highest yields, while saving incubator space.