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Fluorescence correlation spectroscopy in the study of the properties of colloidal systems
Marková, Kateřina ; Lehocký, Marián (referee) ; Kapusta, Peter (referee) ; Pekař, Miloslav (advisor)
Because of their properties, hydrogels are a highly sought-after matrix for medical purposes. These properties are often conditioned by the structure, therefore the emphasis is put on a precisely defined polymer network. In the presented dissertation, different types of hydrogels were researched using fluorescence correlation spectroscopy (FCS) in conjunction with microrheology. The combination of aforementioned methods is rarely used when determining the properties of hydrogels, and therefore, the method had to be standardized and optimized. For these purposes, fluorescently labeled silicate nanoparticles with a neutral surface charge were selected. In the course of the method optimization, the limits of the device were discovered within which the measured diffusion coefficients could still be considered valid. Furthermore, we have determined the parameters that affect the MSD curve and thus also the correctness of the actual measured data. An aqueous solution of agarose was chosen as a model colloidal system, as it ranges from a viscoelastic liquid to a solid hydrogel depending on the concentration. On this colloidal system, the diffusion properties of the nanoparticles used were tested as well as the structural properties of the system itself. Limit concentrations were found when the diffusion coefficient could no longer be detected using the selected method. The limit was successfully partially extended by adjusting the correlation time, however, the dispersion of the diffusion coefficient values was very high in such case. The values measured in this way were compared with the calibration-free method of bifocal fluorescence correlation spectroscopy (2f–FCS). Furthermore, changes in the diffusion coefficient were determined depending on the type of sample preparation. Alongside these experiments, image analysis was also performed, which provided interesting results in conjunction with FCS. The last experiment, which provided information about the properties of both the embedded nanoparticles and the polymer system, consisted of washing out of the particles from the hydrogel structure. The maximum entropy method with an analysis using log-normal distribution of diffusion coefficients was selected as the last and the most advanced polymer network analysis of the, which defined the system in a new and an alternative way. The results obtained using these advanced analyses were similar to the data calculated using the mathematical model of anomalous diffusion. The description of properties using rheological modules was a completely new approach. The properties were obtained using a series of conversions from the measured autocorrelation curve. Therefore, a rheological module obtained from microrheological data was the output of the approach. The shape of the curve is comparable to classical (macro)rheology, but the numerical values are lower by an entire order of magnitude. The smallest particles in the entire concentration range behaved as if they were in a purely viscous environment while the largest particles defined the behavior of the system depending on the concentration from very viscous to viscoelastic. The last type of measurement was the study of hyaluronan using selected nanoparticles and its fluorescently labeled analogue. All the methods that were used in the study of agarose hydrogel were applied to the viscoelastic system of hyaluronan to verify their applicability.
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Micro/macro-scale investigation of the viscoelastic properties of hydrogel materials
Obrusníková, Klára ; Pekař, Miloslav (referee) ; Smilek, Jiří (advisor)
Tato diplomová diplomová práce byla zaměřená na srovnání mezi mikroreologickými metodami a makroreologickým přístupem, zejména při charakterizaci hydrogelů. Dynamický rozptyl světla, fluorescenční korelační spektroskopie a optická pinzeta byly vybrány jako mikroreologické techniky, zatímco oscilační reometrie sloužila jako makroreologický nástroj. Výsledky z dynamického rozptylu světla a fluorescenční korelační spektroskopie pro hydrogely agarózy a gellanu byly porovnány s reometrií a mezi sebou. Hodnoty viskoelastických modulů získané z mikroreologických měření byly výrazně nižší než ty získané pomocí makroreologie. Jak dynamický rozptyl světla, tak fluorescenční korelační spektroskopie nabízejí širší škálu měřitelných frekvencí než reometrie, ale obě metody mají své limitace při charakterizaci hydrogelů. U dynamického rozptylu světla dochází k odrazu světla od gelové sítě, což způsobuje šum a zhoršuje kvalitu získaných výsledků. Fluorescenční korelační spektroskopie, přes svou vyšší specifitu, vykazuje jen velmi malé rozdíly mezi vzorky různých koncentrací. Optická pinzeta je na Fakultě chemické novou metodou, a byla provedena pouze kalibrační měření. Tuhost optické pasti, důležitá hodnota pro kalibraci optické pinzety, byla stanovena pro roztoky glycerolu.
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Microrheology with Fluorescence Correlation Spectroscopy
Kábrtová, Petra ; Sedláček, Petr (referee) ; Mondek, Jakub (advisor)
A comparison of three passive microrheological techniques was made with the emphasis on FCS. Fluorescently labelled and unlabelled polystyrene particles were used to probe a microrheological response of glycerol solutions, Mili-Q water and sodium hyaluronate solutions. In addition, for FCS technique an approximated equation for calculation of MSD values was derived and verified. It was found that FCS outmatches current microrheological techniques of DLS and video-based particle tracking by its ability to gain a broader data range including the area in which, until now, it was impossible to describe a microrheological behaviour of samples reliably.
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Fluorescence correlation spectroscopy in colloid systems
Janíček, Tomáš ; Smilek, Jiří (referee) ; Mravec, Filip (advisor)
This work is focused on studying of stability and interaction in colloidal systems created by micelles of surfactant CTAB in solution of hyaluronic acid and water. As method chose for this work was selected fluorescence correlation spectroscopy. As dye was used Nile red. Measurements were divided firstly by size of polymeric chain and secondly by concentration of hyaluronic acid. Purpose of this work was to find out how will CTAB particles react with different sizes and concentration of hyaluronic acid. For comparison to hyaluronic acid was used Poly(sodium-4-styrenesulfonate).
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Preparation, characterization and evaluation of application potential of semiIPN hydrogels
Papežíková, Hana ; Pekař, Miloslav (referee) ; Sedláček, Petr (advisor)
Aim of this thesis os to optimize set up of hydrogel based on semi-interpenetrated polymer networks. Polyhydroxyethylmethyl acrylate was chosen as an model example of hydrogel due to its common use in biomedicine. At first, thermoiniciation was used for preparation and changed to photoiniciation afterwards. Following the optimisation of the hydrogel set up with proper qualities, the polyelectrolyte sodium polystyrene sulfonate was implanted. Object of research was its impact on structure, flowing and transport features of hydrogels. All qualities were tested by drying, rheology, and fluorescence correlation spectroscopy. Results clearly validate influence of hydrogel features by polyelectrolytes.
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Optimalization of techniques of microrheology for characterization of biopolymer hydrogels
Dušenková, Alica ; Smilek, Jiří (referee) ; Sedláček, Petr (advisor)
The main aim of the bachelor thesis is optimalization of microrheological techniques for characterization of biopolymer hydrogels. Hydrogels, based on thermoreversible biopolymer agarose, were selected for these experiments. The influence of incorporated poly(sodium 4-styrenesulfonate) on structure and viscoelastic properties of agarose hydrogels was investigated through diffusion coefficient and MSD curves. Microrheological properties were studied by fluorescence correlation spectroscopy, by using fluorescent beads, which were embedded in hydrogel systems.
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Preparation of model membranes to study their interactions with biopolymers using fluorescence correlation spectroscopy
Adamcová, Zuzana ; Márová, Ivana (referee) ; Mravec, Filip (advisor)
This diploma thesis is focused on preparation and characterization of supported lipid bilayers as simplified models of cell membranes. The bilayers were prepared from source system of lecithin liposomes in phosphate buffer using the vesicle fusion method on a cover glass sufrace hydrophilized by plasma. Three fluorescent probes – Nile red, Oregon Green DHPE and DiO – were utilized to characterize diffusion within the bilayer using fluorescence correlation spectroscopy. For this purpose Z-scan FCS, which is a method developed specially for planar samples, was used. After the process of preparation and characterization of supported lipid bilayer was optimalized, interaction between this artificial membrane and solution of hyaluronic acid in phosphate buffer was studied. It was found out, that addition of this biopolymer causes slowing the diffusion of the fluorescent probe within the bilayer.
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Inverse FCS in colloidal systems research
Richterová, Veronika ; Venerová, Tereza (referee) ; Mravec, Filip (advisor)
This diploma thesis is focused on the study of inverse fluorescence correlation spectroscopy, especially with the regard for the usage of different fluorescent probes and different sized analysed particles. At first, the proper concentration of fluorescent probes was determined. In this concentration is the probe considered as a medium surrounding the analysed particles. Based on this concentration, which was determined as 400 M, several sets of samples were prepared. This samples contained different concentration of polystyrene particles of 100 and 500 nm diameter and multilamellar liposomes. Then, the FCS curves of samples with different fluorescent probes were measured. Fluorescein, rhodamine 6G and Atto 488 were used as fluorescent probes. As a result from experiments, it was found, that particles with 100 nm diameter cannot be analysed with none of the fluorescent probes. Inverse FCS method can be applied to systems, that contains particles with 500 nm diameter and fluorescein. Systems with rhodamine 6G have the same behaviour as typical FCS measurement. It is caused by dimerization of this probe and it cannot be used for 500 nm particles. Liposome samples can be established with iFCS method, but the results are biased by random distribution of liposomes size.
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Study on Interconnection between Structure and Rheological Properties of Hydrogels on Macro and Microscopic Level
Lepíková, Jana ; Klučáková, Martina (referee) ; Kalina, Michal (advisor)
Diploma thesis main goal is to obtain new pieces of knowledge about relationship between hydrogel structures and its flow and transport properties. Thesis is mainly focusing on combining pertinent biopolymers into model hydrogels based on agarose. Then perform correlation of results obtained by diffusion methods, and by rheologic measurements on macroscopic and microscopic level. Properties of hydrogels were measured by selected rheologic measurements, dynamic light scattering method, and correlative fluorescence spectroscopy. From these methods various parameters (MSD modules, values of complex viscosity) were obtained. Afterwards transport properties of prepared hydrogels were studied by observing Rhodamine 6G diffusion. Here two different approaches were used. From macroscopic perspective, simple principles of mass diffusion from dye solution to cuvettes filled with hydrogels containing individual biopolymers were used. From microscopic perspective, dye was added during the sample preparation and then the mass diffusion was investigated using FCS. Based on evaluated results it was discovered that added biopolymers don’t influence properties of carrier medium, in this case agarose hydrogels. During the study of prepared hydrogels’ reactivity and barrier properties some differences were observed. Charge of biopolymer and its charge density were discovered as main factors influencing transport of charged solutes into prepared hydrogels.
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Using diffusion techniques in the study of hydrogels
Holubová, Anna ; Žitňan, Michal (referee) ; Mravec, Filip (advisor)
Properties of colloidal systems, especially hydrogels, were studied using the method of fluorescence correlation spectroscopy (FCS). Hydrogels were prepared based on hyaluronan and cationic surfactant CTAB interactions. The proposed hydrophilic fluorescent probe, suitable for the study of phase-separated hydrogels in polymer-surfactant systems, was chosen ATTO 488 due to the suppression of triplet state. As a hydrophobic probe was chosen Nile Red. Individually were examined micellar systems of 10 mM CTAB and 0,5% sodium hyaluronate in water and 0,15 M NaCl in different concentrations of selected fluorescent probes. Subsequently the hydrogel systems were studied. The results showed that the measurement of hydrogels by this method is realizable. Short lifetimes were created by a complex probe and CTAB causing quenching and low levels of diffusion coefficients characterize the viscous environment of study system.
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