Gianluigi Condorelli mainly investigates Internal medicine, Cell biology, Endocrinology, microRNA and Signal transduction. His biological study spans a wide range of topics, including DNA laddering, Kinase and Cardiology. His Cell biology research includes elements of Vascular smooth muscle, Cellular differentiation, Cell growth and Calcineurin.
His Endocrinology research incorporates elements of Protein kinase B and TUNEL assay. His microRNA study combines topics in areas such as Cancer research, Gene expression, Pathology, Regulation of gene expression and Computational biology. His Signal transduction research incorporates themes from Apoptosis, Neointima and Cell division.
His main research concerns Internal medicine, Cell biology, Endocrinology, microRNA and Heart failure. His studies in Internal medicine integrate themes in fields like Protein kinase B and Cardiology. The concepts of his Cell biology study are interwoven with issues in Epigenetics, Vascular smooth muscle and Cellular differentiation.
His study in Endocrinology is interdisciplinary in nature, drawing from both Receptor and Signal transduction. Gianluigi Condorelli works mostly in the field of microRNA, limiting it down to topics relating to Bioinformatics and, in certain cases, Disease. His study connects Immunology and Heart failure.
His scientific interests lie mostly in Internal medicine, Cell biology, microRNA, Cardiology and Heart failure. Gianluigi Condorelli incorporates Internal medicine and In patient in his studies. His work in Cell biology covers topics such as Gene which are related to areas like Vascular smooth muscle and Cell.
His microRNA research is multidisciplinary, relying on both Endothelial stem cell, RNA-binding protein and Function. In Heart failure, Gianluigi Condorelli works on issues like Immunology, which are connected to Disease, Single cell sequencing and Pressure overload. His research in Myocardial infarction intersects with topics in Coronary artery disease and Odds ratio.
His primary scientific interests are in Internal medicine, Cell biology, 2019-20 coronavirus outbreak, Retrospective cohort study and Translation. Gianluigi Condorelli regularly ties together related areas like Cardiology in his Internal medicine studies. He conducts interdisciplinary study in the fields of Cell biology and NAV1.5 Voltage-Gated Sodium Channel through his works.
His Retrospective cohort study study also includes
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MicroRNA-133 controls cardiac hypertrophy
Alessandra Carè;Daniele Catalucci;Federica Felicetti;Désirée Bonci.
Nature Medicine (2007)
ErbB2 is essential in the prevention of dilated cardiomyopathy
Steven A. Crone;You Yang Zhao;Lian Fan;Yusu Gu.
Nature Medicine (2002)
Interaction of myogenic factors and the retinoblastoma protein mediates muscle cell commitment and differentiation
Wei Gu;Jay W. Schneider;Jay W. Schneider;Gianluigi Condorelli;Gianluigi Condorelli;Sunjay Kaushal.
The knockout of miR-143 and -145 alters smooth muscle cell maintenance and vascular homeostasis in mice: correlates with human disease
Leonardo Elia;Manuela Quintavalle;Jianlin Zhang;Riccardo Contu.
Cell Death & Differentiation (2009)
Akt induces enhanced myocardial contractility and cell size in vivo in transgenic mice.
Gianluigi Condorelli;Alessandra Drusco;Giorgio Stassi;Alfonso Bellacosa.
Proceedings of the National Academy of Sciences of the United States of America (2002)
Adult c-kitpos Cardiac Stem Cells Are Necessary and Sufficient for Functional Cardiac Regeneration and Repair
Georgina M. Ellison;Carla Vicinanza;Carla Vicinanza;Andrew J. Smith;Iolanda Aquila.
Cardiomyocytes induce endothelial cells to trans-differentiate into cardiac muscle: Implications for myocardium regeneration
G. Condorelli;U. Borello;L. De Angelis;M. Latronico.
Proceedings of the National Academy of Sciences of the United States of America (2001)
Cardiovascular side effects of cancer therapies: a position statement from the Heart Failure Association of the European Society of Cardiology.
Thomas Eschenhagen;Thomas Force;Michael S. Ewer;Gilles W. De Keulenaer.
European Journal of Heart Failure (2011)
MicroRNA-133a Protects Against Myocardial Fibrosis and Modulates Electrical Repolarization Without Affecting Hypertrophy in Pressure-Overloaded Adult Hearts
Scot J. Matkovich;Wei Wang;Yizheng Tu;William H. Eschenbacher.
Circulation Research (2010)
MicroRNAs in cardiovascular disease: an introduction for clinicians
Simon P. R. Romaine;Maciej Tomaszewski;Gianluigi Condorelli;Gianluigi Condorelli;Nilesh Jayantilal Samani.
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