prof. MUDr. Julie Dobrovolná, Ph.D.
Head, Molecular Metabolism and Chronic Diseases
office: bldg. A18/227
Kamenice 753/5
625 00 Brno
phone: | +420 532 23 4757, 4614 |
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e‑mail: |
social and academic networks: |
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Field of study: Computational biology, bioinformatics and modelling
Topics of doctoral theses (supervisor)
- Urban Stress and Its Biomarkers: Investigating the Effects of Exposure to Built and Natural Environments – ongoing study
- Trajectory of Acute and Chronic Stress in Humans Subjected to Isolation Experiments (Space Research and Isolated Geographical Locations) – graduate 2024
Field of study: Environmental chemistry and toxicology
Topics of doctoral theses (supervisor)
- Biomarkers of intertissue dialogue between muscle, adipose and bone tissue – ongoing study
Field of study: Kinanthropology
Topics of doctoral theses (supervisor)
- The effect of resistance training and yoga on quality of life and muscle strength in adolescents and young adults after cancer treatment – ongoing study
- Psychological and physiological aspects of managing acute stress and selfdefence performance in model conflict scenarios. – ongoing study
Field of study: Molecular and Cell Biology and Genetics
Topics of doctoral theses (supervisor)
- Evolutionary mechanisms affecting the fixation of specific rates of aging in sexually reproducing organisms – graduate 2021
- Clarification of FSTL1 protein function in mitochondrial energy metabolism in vitro and in heart failure – graduate 2019
Field of study: Pathological Physiology
Topics of doctoral theses (supervisor)
- Association of proteomic markers with body composition – graduate 2024
- Analysis of objects in the cardiovascular ultrasound sequences and their implementation in the new diagnostic procedures – graduate 2022
- The pathophysiological role of nutritional determinants of growth in Central European children and adolescents – graduate 2021
- Entropy in relation to the initiation/course of a stress response and its connection with the transgenerational transmission of information – graduate 2021
Field of study: Physiology and Pathological Physiology
Topics of doctoral theses (supervisor)
- The role of omentin-1 in pathophysiology of complex diseases – graduate 2017
- Molecular biological methods for studying cells redox state in prostate carcinoma – graduate 2014