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3. Electrical Stimulation of pediatric cardiac-derived c-kit+ progenitor cells improves retention and cardiac function in right ventricular heart failure. (22nd October 2019)

4. Electrical Stimulation of pediatric cardiac‐derived c‐kit+ progenitor cells improves retention and cardiac function in right ventricular heart failure. (22nd October 2019)

5. Experimental, Systems, and Computational Approaches to Understanding the MicroRNA-Mediated Reparative Potential of Cardiac Progenitor Cell–Derived Exosomes From Pediatric Patients. Issue 4 (17th February 2017)

6. Fibronectin and Cyclic Strain Improve Cardiac Progenitor Cell Regenerative Potential In Vitro. (16th August 2016)

7. Identification of Therapeutic Covariant MicroRNA Clusters in Hypoxia-Treated Cardiac Progenitor Cell Exosomes Using Systems Biology. Issue 2 (16th January 2015)

8. In vivo evaluation of bioprinted cardiac patches composed of cardiac-specific extracellular matrix and progenitor cells in a model of pediatric heart failure. (8th December 2021)

9. Inositol‐1, 4, 5‐trisphosphate induced Ca2+ release and excitation–contraction coupling in atrial myocytes from normal and failing hearts. (22nd December 2014)

10. Inositol‐1, 4, 5‐trisphosphate induced Ca2+ release and excitation–contraction coupling in atrial myocytes from normal and failing hearts. (22nd December 2014)