Growth Media
Selective Cell Culture Growth Media for Human Primary Cells
Our selective, cell-type specific Medium Kits are optimized to promote desired cell types effectively. Each Medium Kit contains defined single components and is free from phenol red or antimicrobials to prevent stress and masking effects.
Our high-quality Cell Culture Media support optimal growth and maximize the longevity of primary cells.
Additionally, we offer xeno-free, low-, and no-serum media options tailored to specific cell types.
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Take advantage of our lot reservation and custom media production services tailored to meet your specific needs.
Also explore Subculture & Reagents, including options for Xeno-Free Passaging.
And don’t forget to check out our high-quality human Primary Cells and our wide selection of Tissue Dissociation Enzymes.
Discover our comprehensive portfolio of Extracellular Matrices for both 2D and 3D culture, and bioprinting applications.
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VascuLife Basal Medium
Cat.-Nr: LM-0002
VascuLife® Basal Medium is a low serum medium optimized for the culture of Human Endothelial Cells and Human Smooth Muscle Cells. VascuLife®... Read More
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VascuLife EnGS-Mv, Microvascular Endothelial Cell Growth Medium
Cat.-Nr: LL-0004
VascuLife® EnGS-Mv Medium (containing Endothelial Cell Growth Supplement; containing 5% FBS) is optimized for the culture of Human Microvascular... Read More
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VascuLife EnGS, Endothelial Cell Growth Medium
Cat.-Nr: LL-0002
VascuLife® EnGS (containing Endothelial Cell Growth Supplement) is a low-serum (2% FBS) medium optimized for the culture of Human Endothelial Cells,... Read More
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VascuLife VEGF-Mv Microvascular Endothelial Cell Growth Medium Complete Kit
Cat.-Nr: LL-0005
VascuLife® VEGF-Mv Microvascular Endothelial Cell Growth Medium Complete Kit (containing Vascular Endothelial Growth Factor; containing 5% FBS) is a... Read More
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VascuLife VEGF, Endothelial Cell Growth Medium
Cat.-Nr: LL-0003
VascuLife® VEGF (containing Vascular Endothelial Growth Factor) is a low serum medium (2% FBS) optimized for the rapid proliferation of Human... Read More