Dorota Szwarc-Hofbauer, MSc
Lecturer/Researcher
Head of the City of Vienna Teaching Competence Team Knowledge KnockIn
Education
- Since 2017 | Doctoral studies Molecular Mechanisms of Cell Biology, Medical University of Vienna & UAS Technikum Vienna
- 2013 – 2015 | Master of Science in Engineering (MSc) in Tissue Engineering and Regenerative Medicine, UAS Technikum Vienna
- 2009-2015 | Bachelor of Science in Engineering (BSc) in Biotechnology, Warsaw University of Life Sciences, Warsaw (PL)
Professional Activities
- Since 2015 | Junior Researcher/Lecturer, Department Life Science Engineering, UAS Technikum Vienna
- 2014 – 2015 | Research Assistant, Department Life Science Engineering, UAS Technikum Vienna
- 2012 – 2013 | Laboratory Assistant, Laboratory of Neurobiology, Nencki Institute of Experimental Biology, Warsaw (PL)
- 2012 | Intern, Laboratory of Molecular Biology, Institute of Biochemistry and Biophysics, Warsaw (PL)
Competencies
- Cell biology
- Molecular biology
- Cell signaling
- Shock wave treatment
- Cardiac regenerative therapies
- Mechanotransduction
Publications
Cyclic Tensile Stress Induces Skeletal Muscle Hypertrophy and Myonuclear Accretion in a 3D Model
- Janine Tomasch, Babette Maleiner, Carina Hromada, Dorota Szwarc-Hofbauer, Andreas Teuschl-Woller (2023)
- Tissue Eng. Part A.
Purinergic P2Y 2 receptors modulate endothelial sprouting
- Wolfgang Holnthoner, Dorota Szwarc (2020)
- Cell Mol Life Sci.
Shock wave treatment of muscle (stem) cells - a new implementation for regeneration
- Christiane Fuchs, Anna Weihs, Dorota Szwarc, Rainer Mittermayr, Dominik Rünzler, Andreas Teuschl (2017)
- Proceedings of the 20th International Congress of the ISMST
Shock wave treatment of 3D cardiac model systems activates ERK 1/2 signaling pathway and influences cardiomyogenesis
- Christiane Fuchs, Dorota Szwarc, Anna Weihs, Dominik Rünzler (2016)
- Proceedings of PACT "Designer Cells go Clinical" Symposium
Shock wave treatment of 3D cardiac model systems activates ERK 1/2 signaling pathway and influences cardiomyogenesis
- Christiane Fuchs, Dorota Szwarc, Anna Weihs, Dominik Rünzler (2016)
- Proceedings of LBG Meeting for Health Sciences 2016
Shock wave treatment positively influences cardiomyogenesis in an energy-dependent manner
- Christiane Fuchs, Dorota Szwarc, Anna Weihs, Dominik Rünzler (2016)
- Proceedings of PACT "Designer Cells go Clinical" Symposium
Shock wave treatment of muscle (stem) cells - a new implementation for regeneration
- Christiane Fuchs, Anna Weihs, Dorota Szwarc, Rainer Mittermayr, Dominik Rünzler, Andreas Teuschl (2017)
Molecular mechanisms underlying the potential of shock wave treatment for cardiac therapy
- Dorota Szwarc, Christiane Fuchs, Anna Weihs, Dominik Rünzler (2017)
Elucidating the molecular mechanisms underlying cardiac shock wave therapy
- Dorota Szwarc, Christiane Fuchs, Michaela Purtscher, Dominik Rünzler (2017)
The effect of shock waves on in vitro cartilage development in silk scaffolds
- Dorota Szwarc, Christiane Fuchs, Anna Weihs, Xavier Monforte Vila, Dominik Hanetseder, Andreas Teuschl, Dominik Rünzler (2016)
Shock wave treatment of 3D cardiac model systems activates ERK 1/2 signaling pathway and influences cardiomyogenesis
- Christiane Fuchs, Dorota Szwarc, Anna Weihs, Dominik Rünzler (2016)
A microfluidic-based easy-to-use cardiac tissue model for drug screening applications
- Michaela Purtscher, Ece Ergir, Dorota Szwarc, Xavier Monforte Vila, Dominik Rünzler, Carina Huber-Gries (2016)
Microfluidic based heart-tissue model for directed development of cardiac specific cell types
- Michaela Purtscher, Ece Ergir, Dorota Szwarc, Carina Huber-Gries (2016)