The 80 th Prague Meeting on Macromolecules, this time focused on Self-assembly in the world of polymers, took place in Prague on July 10-14, 2016. Its participants discussed theoretical aspects of polymer self-assembly, advanced methods of preparing and characterizing self-assembling macromolecular system; special attention was paid to biomimetic self-assembled nanostructures as well as to biological and technical applications of self-assembled macromolecular systems. and Jana Olivová.
For many important research topics in polymer science the use of radionuclides brings significant benefits concerning nanotechnology, polymer drug delivery systems, tissue engineering etc. This contribution describes important achievements of the radionuclide laboratory at Institute of Macromolecular Chemistry of the Academy of Sciences of the Czech Republic (IMC) in the area of polymers for biomedical applications. Particular emphasis will be given to water-soluble polymer carriers of radionuclides, thermoresponsive polymer radionuclide carriers, thermoresponsive polymers for local brachytherapy, polymer scaffolds modified with (radiolabeled) peptides and polymer copper chelators for the therapy of Wilson´s disease., M. Hrubý, J. Kučka, J. Pánek, P. Štěpánek., and Obsahuje bibliografii
Novel star polymers based on the water-soluble N-(2-hydroxypropyl)methacrylamide (HPMA) copolymer and cyclodextrin were synthesized and the physico-chemical behavior of these precursors was studied. Semitelechelic HPMA copolymers were grafted onto the cyclodextrin core, thus forming star-like structure. Both prepared systems were designed as possible polymer carriers for the controlled release of cytostatic drugs, which after the drug release and degradation will be eliminated from the organism. Two synthesis approaches were used to obtain similar polymer carriers with different degradation rates. All the polymers were prepared by reversible additionfragmentation chain-transfer polymerization, which guarantees low dispersity of the prepared systems., L. Kotrchová, T. Etrych., and Obsahuje bibliografii
Bio-degradable stents are be made of different synthetic polymers (like polylactide or polyglycolide) or their co-polymers (polydioxanone). They can be used for treating benign stenoses of the small and large intestine, particularly in Crohn’s disease. Endoscopic introduction of bio-degradable stents into small and large intestinal stenoses is feasible and relatively simple. Initial results are encouraging and the complication rate is low. However, there are still some difficulties that need to be overcome. The rate of early stent migration is still rather high (up to one third of patients). This might be solved by changes in the shape or rigidity of the stents as well as by further improvement in the design. Proof of long-term efficacy and safety requires further studies., Stanislav Rejchrt, Jan Bureš, Jan Brožík, Marcela Kopáčová, and Literatura 52