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3D Cell Culture Kits are now available

Supplier: Banksia Scientific Company By: Jon Pickersgill
17 November, 2017

We stock 3D Cell Culture Kits from PromoCell which offer a better option than 2D alternatives.

In their natural physical environment, cells that form tissues and organs do not exist as single cell entities but are surrounded by other cells. They are embedded within a complex non-cellular structure known as the extracellular matrix (ECM) which forms an interface between the cells and their adjacent stroma – anchoring and agglutinating the cells in a three-dimensional (3D) formation. 3D Cell Culture Kits from PromoCell offer a better option than 2D alternatives.

Despite this, most of the current cell research is still being performed using traditional two-dimensional (2D) monolayer cultures. However, the limitations and problems of 2D cell culture are increasingly known. As 2D cell culture does not adequately take into account the natural 3D environment of cells, it is frequently an insufficient model for in vivo model contexts. There is a growing evidence that 3D cell culture systems represent more accurately the actual physiological in vivo conditions where cells are permitted to grow or interact with their surroundings in a 3D fashion and are thus also more reflective of in vivo cellular processes/responses. As shape, size, and functionality of a cell is largely affected by the physical environment in which it is grown, cells in the 3D culture environment differ morphologically and physiologically from cells in the 2D culture environment and show clear differences with regard to many cellular processes such as cell proliferation, differentiation, apoptosis, and gene expression.

Artificially created 3D cell culture environments improve the functionality, differentiation and viability of cells. By mimicking the in vivo conditions and cellular responses, 3D matrices and scaffolds provide a more physiologically relevant microenvironment and screening platform for many cell types including cancer and stem cells in developmental morphogenesis, pharmacology, drug metabolism and drug toxicity studies.

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