Project detail
Self-assembling colloids hyaluronan-surfactant, hyaluronan-amino acid for nanomedical applications
Duration: 01.04.2008 — 30.11.2011
Funding resources
Ministerstvo školství, mládeže a tělovýchovy ČR - COST
- part funder (2008-04-01 - 2011-11-30)
On the project
Projekt studuje fyzikálně-chemické interakce hyaluronan-tenzid a hyaluronan-aminokyselina ve vodném prostředí. Soustředí se zejména na biokompatibilní tenzidy a aminokyseliny s povrchově aktivními vlastnostmi. Účelem projektu je nalézt v uvedených systémech asociativní koloidy schopné solubilizovat hydrofobní látky, které by byly vhodnými kandidáty pro cílenou distribuci nepolárních aktivních látek, zejména léčiv. Dále projekt rozvine aplikaci ultrazvukové spektroskopie s vysokým rozlišením v oblasti studia interakcí biopolymer-tenzid.
Description in English
Project is focused on study of physico-chemical interactions in hyaluronan-surfactant and hyaluronan-amino acid
systems. Interactions in these systems should result in formation of self-assembling structures that can be used in
the targeted delivery of hydrophobic active substances, drugs, in particular. Hydrophilic, highly hydrated hyaluronan
chain which has a specific biological function, which is recognized and bound by cells through specific receptors
plays the role of transporting and targeting agent. Surfactants or amino acids should provide non-polar domains
solubilizing the hydrophobic substance. In particular, biocompatible surfactants like polar lipids or acylglycosides will
be investigated. Simple amino acids will be used to obtain basic information on
hyaluronan-amino acid interactions whereas alkylated (acylated) amino acids and betaine surfactants will be used in
the development of the carrier systems. Physico-chemical interactions between hyaluronan chain and
surfactant/amino acid aggregates (micelles), containing the solubilized hydrophobe, will form the final delivery
system, which, at the target, will decompose to its biodegradable constituents. Study on influence of temperature, pH
and ionic strength is included.
Further, the project will develop applications of the high resolution ultrasound spectroscopy in research of
biopolymer-surfactant interactions.
Keywords
aminokyselina, asociativní koloidy, cílená distribuce, hyaluronan, tenzid
Key words in English
amino acid, self-assembling colloids, hyaluronan, surfactant, targeted delivery
Mark
OC08004
Default language
Czech
People responsible
Pekař Miloslav, prof. Ing., CSc. - principal person responsible
Units
Faculty of Chemistry
- beneficiary (2008-04-01 - not assigned)
Results
KROUSKÁ, J.; HALASOVÁ, T.; MRAVEC, F.; PEKAŘ, M. Surface tension and fluorescence probe study of hyaluronan - surfactant system. In IX. Pracovní setkání fyzikálních chemiků a elektrochemiků. Brno: 2009. p. 87-88. ISBN: 978-80-7375-309-2.
Detail
KROUSKÁ, J.; HALASOVÁ, T.; MRAVEC, F.; PEKAŘ, M. Determination of critical micelle concentration in hyaluronan - surfactant system. ChemZi, 2009, vol. 9, no. 5, p. 133-134. ISSN: 1336-7242.
Detail
KRUTIŠOVÁ, T.; HALASOVÁ, T.; MRAVEC, F.; PEKAŘ, M. Influence of the preparing of a biopolymer-surfactant system on its aggregation behavior. Praha: ECIS, 2010. p. P2.57 (P2.57 p.)
Detail
MAIVALDOVÁ, I.; HALASOVÁ, T.; MRAVEC, F.; KLUČÁKOVÁ, M.; PEKAŘ, M. Interaction between phospholipids and hyaluronan - a fluorescence probe study. Praha: ECIS, 2010. p. P7.6 (P7.6 p.)
Detail
KROUSKÁ, J.; HALASOVÁ, T.; MRAVEC, F.; PEKAŘ, M. Effect of hyaluronan on tenside micellization. 2009.
Detail
KROUSKÁ, J.; PEKAŘ, M. Surface tension of hyaluronan-surfactant systems. Elektronický sborník. Berlín: TU Berlín, 2011.
Detail
MRAVEC, F.; KLUČÁKOVÁ, M.; PEKAŘ, M. Fluorescence Spectroscopy Study of Hyaluronan-Phospholipid Interactions. In Advances in Planar Lipid Bilayers and Liposomes. Burlington: Academic Press, 2011. p. 235-255. ISBN: 978-0-12-387720-8.
Detail
HALASOVÁ, T.; PIHÍKOVÁ, D.; SZEWIECZKOVÁ, J.; MRAVEC, F. Fluorescence probes and microrheology with fluorescent particles in investigation of aggregation behavior in ionic surfactant/non-ionic surfactant/polyelectrolyte system. Strasbourg: 12th International Conference on Methods and Applications of Fluorescence, 2011. p. 232-232.
Detail
HERZOG, M.; KROUSKÁ, J.; PEKAŘ, M. Dynamic tensiometry of hyaluronan-surfactant systems. Chemické listy. Chemické listy. Praha: Czech chemical society, 2011. p. s898 ( p.)ISSN: 0009-2770.
Detail
HEJNÁ, J.; MRAVEC, F.; HALASOVÁ, T.; PEKAŘ, M. INFLUENCE OF PH ON SYSTEM CONTAINING ANIONIC POLYELECTROLYTE AND CATIONIC OR NONIONIC SURFACTANT. Chemické listy. Brno: 2011. p. 903-903. ISSN: 0009-2770.
Detail
HALASOVÁ, T.; MRAVEC, F.; PEKAŘ, M. Interactions between hyaluronan and CTAB studied by fluorescence spectroscopy. Berlín: 25th Europian Colloid and Interface Society, 2011. p. T-137 (T-137 p.)
Detail
KLUČÁKOVÁ, M.; PEKAŘ, M. Interactions between hyaluronan and CTAB, ISE titration. Berlin: ECIS, 2011. p. 207-207.
Detail
KLUČÁKOVÁ, M.; PEKAŘ, M. Determining surfactant CMC in electrolyte solutions by ultrasound velocimetry. Antalya: ECIS, 2010. p. P.D43.025 (P.D43.025 p.)
Detail
HALASOVÁ, T.; KROUSKÁ, J.; MRAVEC, F.; PEKAŘ, M. Hyaluronan-surfactant interactions in physiological solution studied by tensiometry and fluorescence probe techniques. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2011, vol. 391, no. 1-3, p. 25-31. ISSN: 0927-7757.
Detail