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Human Cardiomyocyte Primary Cell Culture - T25 Plated Cells
Catalog Number : 36044-15-T25
Availability : In Stock
Price : $550.00
 

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 Human Cardiomyocyte Cell Culture - T25 Plated Cells

Also Avaliable as:

Frozen Vial Cells $550.00 shipped with Dry-ice. Cat#36044-15
T75 plated Cells $750.00 shipped at room temperature. Cat#36044-15-T75

120 Population doublings or up to 12 passages.

This product would require pre-coated flasks with Human Cardiomyocyte Cell Culture Extra-cellular Matrix Cat# E36044-15-T25 and Human Cardiomyocyte Cell Culture Media Cat# M36044-15

Source: Adult Cardiac Tissue

Positive Markers: ckit, Actinin, ANP, Connexin 43, Desmin, KDR, Nkx2.5, SERCA2,

Troponin I, Tropomyosin, MYH6, KCNH2, MYH7, α-sacrcomeric actin

For non-academic use please inquire for pricing.

Cells are only guaranteed with purchase of Celprogen Media and Celprogen Extra Cellular Matrix for appropriate cell culture, for 30 days from the date of shipment.

Human Cardiomyocyte Stem Cells as an Alternative to Cardiac Tissue Transplants Publication

Activity, Inhibition, and Induction of Cytochrome P450 2J2 Publication

Cell based high throughput assay to evaluate cardiovascular safety profile 

Novel 3D Primary Human Cardiomyocyte Culture System for Evaluation of Candidate Drug Related Cardiac Safety Profile 

Cardiomyocyte Poster: Novel 3D Primary Human Cardiomyocyte Culture System

 

 

 

A Model for Assessment of Cardiovascular Disorders 

Activity, inhibition and induction of cytochrome P450 2J2 in primary cardiomyocytes

ANALYSIS OF HIV-INDUCED CARDIOMYOPATHY USING ANTI-GP120

Cardiac Progenitor Cells in Congenital Heart Patients

Cardiomycoytes and Effect of Carbon Nanofiber

Cardiomyocytes and Application of Human iPS

Cardiomyocytes and HIV

Conductivity and Cardiomyocyte

Delivering stem cells into heart muscle may enhance cardiac repair and reverse injury

Enhanced Cardiomyocyte Function On Poly-Lactic-Co-Glycolic Acid

Enhanced Nanomagnetic Gene Transfection of Human Prenatal Cardiac

Greater cardiomyocyte density on aligned compared with random carbon nanofibers in polymer composites

Growth characteristics of different heart cells

High Content Analysis of Cardiac Differentiation from iPS Cells

In vitro functional study of Cardiomyocyte

Mechanisms of greater cardiomyocyte functions on conductive nanoengineered composites

mES Cell-derived Cardiomyocytes Characterization using the xCELLigence

Metabolic biomarkers of drug-induced cardiotoxicity

Model for assessment of cardiovascular disorders

Optimization of Cardiomyocytes on Poly Lactic-Co-Glycolic Acid Carbon Nanofiber Materials