HIGHLIGHTS:
- Market leading precision medium for isolation and expansion of epithelial cells in a clinically ready formulation
- Chemically defined
- Extended QC, documentation, support, and process control for clinical researchers
Efficient isolation and expansion of epithelial cells from multiple tissue types in a clinically ready formulation.
Catalog | CnT-07-HC |
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Content | 500 ml basal medium + supplement pack |
CnT-07-HC is a fully defined medium for mouse and human keratinocyte culture. It is ideally suited for use during product development, protocol validation, and characterization of the cell-based product.
CnT-07- HC is a low calcium medium formulation designed for isolation and expansion of mouse and human epithelial cells. Is the original formulation from which the CnT-PR medium was developed. It is provided as a liquid culture medium kit including both basal medium and supplements.
For maximum isolation efficiency from epithelial tissues, it is recommended to supplement CnT-07-HC with the Higher Certified IsoBoost supplement (#CnT-ISO-50-HC), which has been found to double cell yield in the first week of culture.
Primary epithelial cells growing in CnT-07-HC display a highly proliferative phenotype. For differentiation experiments, it is recommended to switch to the CnT-PR-D or CnT-PR-3D differentiation media.
The medium undergoes a range of QC tests in our lab before being released for sale. Please see the datasheet for details.
Like to try a test sample? Click here for more information.
Thawing, seeding, and passaging protocols are particularly important for optimal cell growth. Please visit our Protocols Page for our recommendations.
Title | Authors | Year | Tissue type |
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Clinical Grade Human Pluripotent Stem Cell-Derived Engineered Skin Substitutes Promote Keratinocytes Wound Closure In Vitro | Sophie Domingues, Annabelle Darle, Yolande Masson, Manoubia Saidani, Emilie Lagoutte, Ana Bejanariu, Julien Coutier, Raif Eren Ayata, Marielle Bouschbacher, Marc Peschanski, Gilles Lemaitre, Christine Baldeschi | 2022 | Epidermal |
Human-Induced Pluripotent Stem Cell‒Derived Keratinocytes, a Useful Model to Identify and Explore the Pathological Phenotype of Epidermolysis Bullosa Simplex | Julien Coutier, Manon Bonnette, Sabrina Martineau, Aurélie Mercadier, Sophie Domingues, Manoubia Saidani, Margot Jarrige, Hélène Polveche, Annabelle Darle, Nathalie Holic, Smail Hadj-Rabia, Christine Bodemer, Gilles Lemaitre, Cécile Martinat, Christine Baldeschi | 2022 | Epidermal |
Title | Year | |
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CELLnTEC Catalog | 2023 | Download |