• Search

Human iPSC-Derived Ventricular Cardiomyocytes (Male)

All Axol's cardiomyocytes are derived from human iPSCs and ONLY human iPSCs. We do NOT use animal cells or embryonic stem cells (ESCs). 

Axol Bioscience; Quality Cells, Consistent Results, a brand you can trust. 


Payment Options

We accept Visa and MasterCard in our online store.

Worldwide Shipping

We can get your purchases to you wherever you are.

Customer Care

As an Axol customer you have access to our support team and product specialists.

Description

Human iPSC-Derived Ventricular Cardiomyocytes (1 million cells)

Product Specification

Starting material Fibroblasts
Donor gender Male
Donor age at sampling 74 yrs
Reprogramming method Episomal vector
Induction method Fully defined medium
Size 1 million cells
Growth properties Adherent
Disease information Healthy
Shipping conditions Dry ice
Storage conditions vapour phase nitrogen

References

  • Shen Y, Dana H, Abdelfattah A.S et al., A genetically encoded Ca2+ indicator based on circularly permutated sea anemone red fluorescent protein Biorxiv (2018)
  • Sutton K, Ridly J, El Haou S et al., Human Stem Cell-Derived Cardiomyocytes: In Vitro Assays and Screening Platforms for Exploring Ventricular and Atrial Phenotypes Journal of Pharmacological and Toxicological Methods (2017)
  • Martella D, Paoli P, Pioner J.M et al., Liquid Crystalline Networks toward Regenerative Medicine and Tissue Repair Small Wiley Online Library (2017)
  • Papp R, Bett GCL, Lis A et al., Genomic upregulation of cardiac Cav1.2α and NCX1 by estrogen in women. BioMed Central (2017)
  • Zuppinger C, Gibbons G, Dutta-Passecker P et al., Characterization of cytoskeleton features and maturation status of cultured human iPSC-derived cardiomyocytes. European Journal of Histochemistry (2017)
  • Chang Y, Broyles CN, Brook FA et al., Non-invasive phenotyping and drug testing in single cardiomyocytes or beta-cells by calcium imaging and optogenetics. PLoS One (2017)