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Circulation
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April 30, 2013
MiR-378 controls cardiac hypertrophy by combined repression of mitogen-activated protein kinase pathway factors
Jayavarshni Ganesan, Deepak Ramanujam, Yassine Sassi, et al.
Molecular Therapy : the Journal of the American Society of Gene Therapy
|
December 2, 2021
The long non-coding RNA NRON promotes the development of cardiac hypertrophy in the murine heart
Jeannine Hoepfner, Julia Leonardy, Dongchao Lu, et al.
Journal of the American College of Cardiology
|
April 18, 2020
AntimiR-21 Prevents Myocardial Dysfunction in a Pig Model of Ischemia/Reperfusion Injury
Rabea Hinkel, Deepak Ramanujam, Veronika Kaczmarek, et al.
The Journal of Physiology
|
July 22, 2025
Efficient in vivo targeting of the myocardial scar using Moloney murine leukaemia virus complexed with nanoparticles
Timo Mohr, Miriam Schiffer, Deepak Ramanujam, et al.
Circulation Research
|
April 24, 2024
Contribution of VEGF-B-Induced Endocardial Endothelial Cell Lineage in Physiological Versus Pathological Cardiac Hypertrophy
Ibrahim Sultan, Markus Ramste, Pim Peletier, et al.
Nature Communications
|
November 22, 2017
Cardiac myocyte miR-29 promotes pathological remodeling of the heart by activating Wnt signaling
Yassine Sassi, Petros Avramopoulos, Deepak Ramanujam, et al.
Basic Research in Cardiology
|
November 1, 2014
FHL2 expression and variants in hypertrophic cardiomyopathy
Felix W Friedrich, Silke Reischmann, Aileen Schwalm, et al.
Nature Communications
|
July 28, 2023
Trimannose-coupled antimiR-21 for macrophage-targeted inhalation treatment of acute inflammatory lung damage
Christina Beck, Deepak Ramanujam, Paula Vaccarello, et al.
Nature Communications
|
January 12, 2022
MicroRNA-365 regulates human cardiac action potential duration
Dena Esfandyari, Bio Maria Ghéo Idrissou, Konstantin Hennis, et al.
Circulation
|
August 4, 2011
Critical role for stromal interaction molecule 1 in cardiac hypertrophy
Jean-Sébastien Hulot, Jérémy Fauconnier, Deepak Ramanujam, et al.
Page
of 3
Search research articles
Search
Showing results (11-20 of 24) with videos related to
Sort By:
Page
of 3
Circulation
|
April 30, 2013
MiR-378 controls cardiac hypertrophy by combined repression of mitogen-activated protein kinase pathway factors
Jayavarshni Ganesan, Deepak Ramanujam, Yassine Sassi, et al.
Molecular Therapy : the Journal of the American Society of Gene Therapy
|
December 2, 2021
The long non-coding RNA NRON promotes the development of cardiac hypertrophy in the murine heart
Jeannine Hoepfner, Julia Leonardy, Dongchao Lu, et al.
Journal of the American College of Cardiology
|
April 18, 2020
AntimiR-21 Prevents Myocardial Dysfunction in a Pig Model of Ischemia/Reperfusion Injury
Rabea Hinkel, Deepak Ramanujam, Veronika Kaczmarek, et al.
The Journal of Physiology
|
July 22, 2025
Efficient in vivo targeting of the myocardial scar using Moloney murine leukaemia virus complexed with nanoparticles
Timo Mohr, Miriam Schiffer, Deepak Ramanujam, et al.
Circulation Research
|
April 24, 2024
Contribution of VEGF-B-Induced Endocardial Endothelial Cell Lineage in Physiological Versus Pathological Cardiac Hypertrophy
Ibrahim Sultan, Markus Ramste, Pim Peletier, et al.
Nature Communications
|
November 22, 2017
Cardiac myocyte miR-29 promotes pathological remodeling of the heart by activating Wnt signaling
Yassine Sassi, Petros Avramopoulos, Deepak Ramanujam, et al.
Basic Research in Cardiology
|
November 1, 2014
FHL2 expression and variants in hypertrophic cardiomyopathy
Felix W Friedrich, Silke Reischmann, Aileen Schwalm, et al.
Nature Communications
|
July 28, 2023
Trimannose-coupled antimiR-21 for macrophage-targeted inhalation treatment of acute inflammatory lung damage
Christina Beck, Deepak Ramanujam, Paula Vaccarello, et al.
Nature Communications
|
January 12, 2022
MicroRNA-365 regulates human cardiac action potential duration
Dena Esfandyari, Bio Maria Ghéo Idrissou, Konstantin Hennis, et al.
Circulation
|
August 4, 2011
Critical role for stromal interaction molecule 1 in cardiac hypertrophy
Jean-Sébastien Hulot, Jérémy Fauconnier, Deepak Ramanujam, et al.
Page
of 3