Laboratory of Cellular Regenerative Medicine ****************************************************************************************** * ****************************************************************************************** ****************************************************************************************** * Offer ****************************************************************************************** - Isolation and cultivation of primary cells from various tissues - Cultivation of commercial available cell lines - Cell viability measurement - Cytotoxicity measurement - Immunogenicity measurement - Evaluation of material biocompatibility - Evaluation of cell adhesion and migration on bio-materials - Fluorescent and confocal microscopy, including real-time monitoring - Cell analysis by flow cytometry - Cell sorting - Measurement of protein expression by ELISA and Luminex techniques - Eukaryotic cells transformation – transfection, electroporation - Image analysis (e.g. objects counts, lengths, areas or angels, image stitching, picture - Consultation and advisory during study design - Statistical analysis (data distribution, testing of hypothesis) - Cooperation on data interpretation ****************************************************************************************** * Expertise ****************************************************************************************** We explore mechanisms governing regeneration of some organs and tissues. Particularly, we three fields: The role of stem cells in regeneration generally - We investigate, how the stem cells are stimulated to rege-neration behavior, how they ar site of injury, and how the regeneration process occurs. Application potential of stem cells in liver regeneration - We study if and how extrahepatical stem cells (i.e. stem cells out of liver) could suppo regeneration and which mechanisms are utilized – hepatodiffe-rentiation, paracrine effect cell fusion. The role of dermal fibroblasts in wound healing - We are interested in the ability of dermal fi broblasts to participate in the regulation process, particularly in the persistence of chronic inflammation in the wound site. ****************************************************************************************** * Key Research Equipment ****************************************************************************************** We are well trained in cell isolation and culture, immunocytochemistry, flow cytometry, pr quantification by Luminex ans ELISA methods, cell viability and proliferation analysis. At also focus on the perfect study design and statistics. To guarantee quality standard, well established methods are performed under standard opera - Essential stuff and machines of cell culture laboratory - FACSAriaTM Fusion, BD Bioscience - FACSVerseTM Flow cytometer, BD Bioscience - Luminex® 200TM, Luminex - Inverted fluorescence microscope IX83, Olympus - Synergy HT and Synergy H1 Microplate readers, Biotek ****************************************************************************************** * Members ****************************************************************************************** - Lucie Vištejnová, Ph.D., M.Sc. – Research Group Leader - Dra. Azalia Mariel Carranza-Trejo - Martina Dolejšová, M.Sc. - Monika Holubová, Ph.D., M.Sc. - Assoc. Prof. Daniel Lysák, M.D., Ph.D. - Adam Skalický, M.D. - Anna Stunová, M.Sc. - Iveta Zímová, B.Sc. ****************************************************************************************** * Selected Publications ****************************************************************************************** - Vistejnova L., Safrankova B., Nesporova K., Slavkovsky R., Hermannova M., Hosek P., Vele L.: Low molecular weight hyaluronan mediated CD44 dependent induction of IL-6 and chemokin dermal fibroblasts potentiates innate immune response. Cytokine. 70, 97–103, 2014 - Smejkalova D., Nesporova K., Hermannova M., Huerta-Angeles G., Coziková G., Vistejnova L Novotny J., Kucerik J., Velebny V.: Paclitaxel isomerisation in polymeric micelles based o hyaluronic acid. Int J Pharmaceut. 466, 147–155, 2014 - Smejkalová D., Hermannova M., Buffa R., Cozikova D., Vistejnova L., Matulkova Z., Hrabic Structural characterization and biological properties of degradation byproducts from hyalu hydrolysis. Carbohydrate Polymers. 88, 1425–1434, 2012 - Vistejnova L., Dvorakova J., Hasova M., Muthny T., Velebny V., Soucek K., Kubala L.: The impedance-based method of cell proliferation monitoring with commonly used metabolic-based Neuroendocrinol Lett. 30, 121–127, Suppl. 1, 2009 - Betak, J., Buffa, R.,Nemcova, M., Pitucha, P., Kulhanek, J., Matejkova, I., Novakova, J. L., Klein, P., Pravda, M., Kubickova, G., Broulikova, M., Felgrova, M., Velebny, V.: Metho textile-treatable endless mono- and multifilaments, involves matching fibers and fabrics t gel layer, and performing through surface modification of fibrous material. WO2014082610-A - Smejkalova, D., Huerta-Angeles, G., Bobek, M., Hermannova, M., Vistejnova, L., Novotny, E., Nesporova, K., Nemcova, M., Slezingerova, K., Kulhanek, J., Cozikova, D., Sogorkova, J Klein, P., Velebny, V.: New substituted acylated derivatives of hyaluronic acid, useful in composition, which is useful in pharmaceutical or cosmetic applications, preferably topica WO2014082609-A1, 2014 ****************************************************************************************** * Are you interested in this expertise? ****************************************************************************************** Please contact CPPT UK Web: www.cppt.cuni.cz/ [ URL "https://cppt.cuni.cz/"] Mail: transfer@cuni.cz Phone: +420 224 491 255 ****************************************************************************************** * Experts and their department ****************************************************************************************** Lucie Vištejnová, Ph.D., M.Sc. Biomedical Center Web: www.biomedic-plzen.cz [ URL "http://www.biomedic-plzen.cz"]