National Repository of Grey Literature 5 records found  Search took 0.01 seconds. 
Nanotechnologies in regenerative medicine
Syková, Eva
Magnetic resonance imaging provides a noninvase method to study the fate of transplanted cells in vivo. Various biocomatible scaffolds based on non-woven nanofibres (products of ELMARCO or Technical University Liberec), have been developed for bridging tissue defects and for use as 3D stem cell careiers.
NANOTECHNOLOGY AND BIOMATERIALS IN MEDICINE
Kubinová, Šárka ; Jendelová, Pavla ; Lesný, Petr ; Holáň, Vladimír ; Syková, Eva
Our studies focus on the use of nanotechnology in cell therapy and tissue engineering for the treatment of brain and spinal cord injury, corneal defects and chronic wounds.
Quest for protein biomarkers of neural stem cells differentiation
Skalníková, Helena ; Halada, Petr ; Vodička, Petr ; Motlík, Jan ; Horing, O. ; Jensen, O. N. ; Gadher, S. J. ; Pelech, S. ; Kovářová, Hana
Understanding neurogenesis and neural cell differentiation presents a unique challenge for treatment of nervous system disorders. To gain more insight about molecular mechanism of differentiation of neural cells, we applied different proteomic approaches using classical 2-DE followed by MS and antibody microarrays. Based on 2-DE, profile of constituent proteins of neural stem cells and their differentiated progenies was estabilished at first and then the protein species that are significantly up or down regulated during the differentiation were selected. Differentiation of neural cells was accompanied by changes in the expression of proteins involved in DNA and RNA binding, mRNA processing and transport, stress responses, iron storage and redox regulation. Immunoblot verified changes of hnRNP A1, hnRNP A2/B1, RafB, heme-oxygenasy 2, GRK2 proteins and alphaB-crystallin (S45), CDK1/2 (Y15), PKC mu (S738+S742), proline-rich Akt substrate (T246) phosphorylations during differentiation.
Rastrovací elektronová mikroskopie mokrých vzorků syntetických polymerů
Šlouf, Miroslav ; Studenovská, Hana ; Rypáček, František ; Sikora, Antonín
Synthetic polymers with high content of water (wet synthetic polymers,hydrogels) are frequently used in tissue engineering. Investigation of their 3D-structure by means of scanning electron microscopy is very difficult: in a standard electron microscope water almost immediately evaporates and the structure breaks down. Nevertheless, hydrogels morphology can be visualised by means of low-vacuum scanning electron microscopy in cryo conditions (cryoLVSEM) and by environmental scanning electron microscopy (ESEM). The two techniques are described and compared.
Charakterizace míšních progenitorových buněk in vitro
Vitásková, Martina ; Klíma, Jiří ; Vodička, Petr ; Motlík, Jan
We performed in vitro studies with the spinal cord of mice and miniature pig. Employing papain dissociation system we isolated neural progenitor cells and cultured them in DMEM/F12 HEPES, Ala-Glu, gentamicin, heparin, B27 supplement without vitamin A, N2 supplement, EGF (Epidermal Growth Factor) and bFGF (Basic Fibroblast Growth Factor). We added retinoic acid and 10% fetal bovine serum into cultivation media to induce cell differentiation. Using immunocytochemistry we confirmed cell capability to differentiate into neurons (βIII-tubulin, Map 2A - Microtubule Associated Protein), astroglia (GFAP – Glial Fibrillary Acidic Protein), and oligodendroglia (CNPase - 2',3'-cyclic nucleotide 3'-phosphodiesterase). Cells can keep non-differentiated status for a longer period of time when cultured in low adhesion culturing flask or by addition of LIF (Leukemia Inhibitory Factor) to the cultivation media.

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