Internal medicine, Endocrinology, Cell biology, Disease and microRNA are his primary areas of study. His work in Internal medicine is not limited to one particular discipline; it also encompasses Cardiology. His Endocrinology research incorporates elements of Receptor, Knockout mouse and Cardioprotection.
His Cell biology research is multidisciplinary, incorporating elements of Microvesicles, Proteome, Muscle hypertrophy and Vascular smooth muscle. The various areas that Manuel Mayr examines in his Disease study include Lipidomics, Bioinformatics, Profiling and Gene regulatory network. His work carried out in the field of microRNA brings together such families of science as Diabetes mellitus, Carbohydrate metabolism, Real-time polymerase chain reaction, Gene silencing and Cardiac fibrosis.
His primary scientific interests are in Internal medicine, Cell biology, Proteomics, Endocrinology and microRNA. His Internal medicine study incorporates themes from Diabetes mellitus and Cardiology. Manuel Mayr combines subjects such as Microvesicles, Embryonic stem cell and Vascular smooth muscle with his study of Cell biology.
His Proteomics research includes themes of Proteome, Extracellular matrix and Computational biology. His study looks at the relationship between Extracellular matrix and topics such as Pathology, which overlap with Aorta. The microRNA study combines topics in areas such as Platelet, Gene silencing, Bioinformatics and Cancer research.
The scientist’s investigation covers issues in Internal medicine, Cardiology, Cell biology, microRNA and Extracellular matrix. His biological study deals with issues like Endocrinology, which deal with fields such as Paracrine signalling. He has researched Cell biology in several fields, including Messenger RNA and Epigenetics.
Manuel Mayr has included themes like Platelet, Cancer research, Regulation of gene expression and Protein biomarkers in his microRNA study. Manuel Mayr has researched Extracellular matrix in several fields, including Elastin, Pathology and ADAMTS. In his study, which falls under the umbrella issue of Pathology, Proteome and Pathogenesis is strongly linked to Aorta.
His primary areas of study are Internal medicine, Extracellular matrix, Heart failure, Cardiology and microRNA. His is doing research in Cohort, Disease, Myocardial fibrosis, Biomarker and Fibrosis, both of which are found in Internal medicine. His Extracellular matrix research is under the purview of Cell biology.
His Heart failure research incorporates themes from T cell, Innate immune system and Immune system. His research in Cardiology intersects with topics in Translational research and Galectin-3. His microRNA research includes themes of Regulation of gene expression, Cancer research and Functional annotation.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Plasma MicroRNA Profiling Reveals Loss of Endothelial MiR-126 and Other MicroRNAs in Type 2 Diabetes
Anna Zampetaki;Stefan Kiechl;Ignat Drozdov;Peter Willeit.
Circulation Research (2010)
Atheroprotective communication between endothelial cells and smooth muscle cells through miRNAs.
Eduard Hergenreider;Susanne Heydt;Karine Tréguer;Thomas Boettger.
Nature Cell Biology (2012)
Cardiac fibroblast–derived microRNA passenger strand-enriched exosomes mediate cardiomyocyte hypertrophy
Claudia Bang;Sandor Batkai;Seema Dangwal;Shashi Kumar Gupta.
Journal of Clinical Investigation (2014)
Chronic Infections and the Risk of Carotid Atherosclerosis Prospective Results From a Large Population Study
Stefan Kiechl;Georg Egger;Manuel Mayr;Christian J. Wiedermann.
Cardioprotection and lifespan extension by the natural polyamine spermidine
Tobias Eisenberg;Mahmoud Abdellatif;Sabrina Schroeder;Uwe Primessnig;Uwe Primessnig.
Nature Medicine (2016)
Prospective study on circulating MicroRNAs and risk of myocardial infarction
Anna Zampetaki;Peter Willeit;Lindsey Tilling;Ignat Drozdov.
Journal of the American College of Cardiology (2012)
Native T1 mapping in differentiation of normal myocardium from diffuse disease in hypertrophic and dilated cardiomyopathy.
Valentina O. Puntmann;Tobias Voigt;Zhong Chen;Manuel Mayr.
Jacc-cardiovascular Imaging (2013)
Serum Soluble Heat Shock Protein 60 Is Elevated in Subjects With Atherosclerosis in a General Population
Qingbo Xu;Georg Schett;Hannes Perschinka;Manuel Mayr.
Lipidomics Profiling and Risk of Cardiovascular Disease in the Prospective Population-based Bruneck Study
Christin Stegemann;Raimund Pechlaner;Peter Willeit;Sarah R. Langley.
Vascular Smooth Muscle Cell Calcification Is Mediated by Regulated Exosome Secretion
Alexander N. Kapustin;Martijn L.L. Chatrou;Ignat Drozdov;Ying Zheng.
Circulation Research (2015)
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