Institute of Physiology of the CAS, Prague, Czech Republic, EU
Position: Institute of Physiology of the Czech Academy of Sciences, Prague, Czech Republic, Head of the Laboratory of Biomaterials and Tissue Engineering, and the Head of the Group of Bioartificial Structures for Replacement and Regeneration of Damaged Tissues of the BIOCEV research centre, Vestec (Czech Republic).
Specialization: Tissue Engineering, Biomedical Engineering, Medical Physiology
At the NANOCON´22 conference Assoc. Prof. Lucie Bačáková will open the Session C Bionanotechnologies, Nanomaterials in Medicine by her lecture Nanocellulose-based materials as substrates for the cell adhesion and growth in tissue engineering and wound healing
Personal Background and Education:
Lucie Bačáková graduated from the Faculty of General Medicine, Charles University, Prague, Czechoslovakia, in 1984. She completed her Ph.D. in 1992 from the Czechoslovak Academy of Sciences in the field of physiology and pathophysiology of humans and animals. Her research fellowships abroad included a stay at the University of Washington, Dept. of Vascular Biology and Pathology, Seattle, USA (Prof. Stephen M. Schwartz, 1996), where she studied the blood vessel damage during atherosclerosis and hypertension, and a stay at the University of Pennsylvania, Dept. of Mechanical Engineering, Philadelphia, USA (Prof. Dennis E. Discher, 2000-2001), where she studied the role of the substrate stiffness in the cell adhesion and growth. In 2013, she became an Associate Professor at the 2nd Medical Faculty, Charles University (field: Medical Physiology and Pathophysiology). Since 2005, she has been the Head of the Department (now Laboratory) of Biomaterials and Tissue Engineering, Institute of Physiology of the Czech Academy of Sciences.
Lucie Bačáková specializes in studies on the adhesion, growth, phenotypic maturation, potential immune activation and potential damage of differentiated and stem cells on biomaterials developed for vascular, bone and skin tissue engineering. These studies are conducted mainly in vitro under conventional static conditions as well as in dynamic bioreactors, and promising cell-material constructs are tested on laboratory animals.
The main tasks of her research group are:
Summary of publication activity:
More than 260 papers in impacted journals; H-index 43; 6,363 citations without self-citations.