Příprava vrstev metodou plazmové polymerace a jejich charakterizace / Preparation of layers by plasma polymerization and their characterization

Kostyleva, Kseniia

January 2021

The diploma work deals with the preparation of biocompatible hydrophilic layers from a propane-butane mixture by plasma polymerization. Subsequent characterization of the layers was performed using both biological (antibacterial tests and biocompatibility test) and physico-chemical diagnostics (SEM, OES and surface energy determination). The theoretical part presents the basic principle of dielectric barrier discharge, its use and various types, including surface dielectric barrier discharge (SDBD), which was used during deposition. Next, cell cultures, cell morphology and clarification of the term biocompatibility were described. At the end of the theoretical part, all used during the experimental part of the diagnostics were also described. In the experimental part, the procedure of deposition of hydrophilic layers and the overall apparatus, which was used during deposition, were presented. Prior to the characterization of the samples, the discharge was diagnosed using optical emission spectroscopy. Furthermore, the level of hydrophilicity of the layers and their elemental composition on the surface was determined. Biological tests for biocompatibility and antibacterial properties provided information on the viability of the cells on the layers and their antibacterial effects.

Biokompatibilita porézních NCD vrstev s neurony / Biocompatibility of porous NCD layers with neurons

Freislebenová, Hana

January 2021

Nanodiamond is currently one of the most researched materials in the field of regenerative medicine in the study of treatment of neurodegenerative diseases. Due to direct interaction of this material with nerve tissue, it needs to be biocompatible with primary neurons. Furthemore, it is desirable for the used material to induce cell adhesion and stimulate the adherent cells to regeneration. This work evaluates the biocompatibility of porous boron-doped diamond layers with the culture of primary neurons. We compared the effect of diamond surface treatment by poly- D-lysine (PDL) coating on the adhesion and prosperity of the primary neuronal culture. We found that the tested nanodiamond layers are biocompatible with the primary neuronal culture. We further conclude that the PDL coating slightly increases the rate of cell adhesion to the surface but on the other hand induces greater adhesion of glial cells than the surface without PDL coating. Key words: nanodiamond, biocompatibility, adhesion, neurons

Analýza a identifikace proteinů při orgánových dysfunkcích pomocí proteomických metod / Analysis and identification of proteins in organ dysfunction using proteomic methods

Tůma, Zdeněk

January 2017

Proteomics is the large-scale study of proteins, particularly their structures and functions. Proteomics has been utilized in medicine for investigation of disease mechanisms and biomarker discovery. Instrumental methods cover sample preparation, protein and peptide separation and mass spectrometry. At present, there is no proteomic method that can be used as universal for every sample. Analytical methods need to be adapted and optimized for certain samples. The aim of this work was to create methodic procedures and to interpret results of experimental and clinical research. The first part of the thesis includes experiments utilizing proteomics to study changes in the plasma proteome clinically relevant porcine model of sepsis-induced peritonitis. Proteomic analyzes were also starting methodological strategies in experiments aimed at kidney physiology and pathophysiology of acute kidney injury during sepsis. Renal biopsies were analyzed in order to study the time course of proteome changes caused by sepsis and surgery. The second part of the thesis contains experiments studying biocompatibility. A method for elution of proteins interacting with adsorbents used in extracorporeal liver support system and with hemodialyzer capillaries was prepared. Analysis of proteins adsorbed to polysulfone...

Organické materiály pro organické polem řízené tranzistory a elektrochemické transistory / Organic materials for organic field-effect transistors and electrochemical transistors

Stříteský, Stanislav

January 2020

Tato práce je zaměřena na studium vlastností organických polovodivých materiálů se zaměřením na jejich vodivost a pohyblivost nosičů náboje. Hlavním cílem této práce je objasnit vztah mezi chemickou strukturou organických polovodičů a jejich vlastnostmi. Teoretická část práce je zaměřena na základy organických polovodičů, transport náboje a přehled vlastností organických polovodivých materiálů, které vedly k jejich aplikaci v polních a elektrochemických tranzistorech. Experimentální část představuje přehled použitých materiálů, způsoby jejich přípravy a charakterizační metody. V rámci výsledkové části bylo vyvinuto nebo optimalizováno několik metod pro přípravu tenkých vrstev a následně byl studován jejich vliv na výkon organických polem řízených tranzistorů. Byly charakterizovány a diskutovány relevantní vlastnosti nových organických polovodivých materiálů se zaměřením na pohyblivost nosičů náboje. Byla charakterizována a diskutována biokompatibilita několika organických polovodičů. Elektrické vlastnosti, stabilita a biokompatibilita elektroaktivních polymerních inkoustů na bázi PEDOT:PSS byla charakterizována a diskutována s ohledem na jejich možné použití v bioelektronice. Nakonec byl zkonstruován organický bioelektronický senzor pro detekci fyziologické odpovědi kardiomyocytů na základě studovaných materiálů.

Analýza a identifikace proteinů při orgánových dysfunkcích pomocí proteomických metod / Analysis and identification of proteins in organ dysfunction using proteomic methods

Tůma, Zdeněk

January 2017

Proteomics is the large-scale study of proteins, particularly their structures and functions. Proteomics has been utilized in medicine for investigation of disease mechanisms and biomarker discovery. Instrumental methods cover sample preparation, protein and peptide separation and mass spectrometry. At present, there is no proteomic method that can be used as universal for every sample. Analytical methods need to be adapted and optimized for certain samples. The aim of this work was to create methodic procedures and to interpret results of experimental and clinical research. The first part of the thesis includes experiments utilizing proteomics to study changes in the plasma proteome clinically relevant porcine model of sepsis-induced peritonitis. Proteomic analyzes were also starting methodological strategies in experiments aimed at kidney physiology and pathophysiology of acute kidney injury during sepsis. Renal biopsies were analyzed in order to study the time course of proteome changes caused by sepsis and surgery. The second part of the thesis contains experiments studying biocompatibility. A method for elution of proteins interacting with adsorbents used in extracorporeal liver support system and with hemodialyzer capillaries was prepared. Analysis of proteins adsorbed to polysulfone...

Biokompatibilita implantabilních materiálů se zaměřením na titanové dentální implantáty / Biocompatibility of Implantable Materials Focused on Titanium Dental Implants

Moztarzadeh, Amin

January 2017

This dissertation thesis deals with the evaluation of biocompatibility and osseointegration of nanostructured titanium materials used for dental implants. Bulk material topography and surface modification of titanium are currently of intense research mainly due to the significant impact on biocompatibility and improvement of osseointegration of dental implants. In the theoretical part are described types of titanium material and different methods of its surface modification. In vitro and in vivo biocompatibility and osseointegration tests are described as well. The experimental work consists of two parts of experiments. In the first experiment, we examined how grain size of nanostructured titanium material influences the behaviour of fibroblastic as well as osteoblastic cells growth on its surface. The experimentally obtained data were statistically analysed and discussed. Grain size was proven to be an important factor that influenced not only the strength of material but also its interactions with cells. The second experiment describes current methods used in the experimental evaluation of osseointegration of dental implants. The results of histological staining methods are illustrated and compared. A standardized and reproducible technique for stereological quantification of bone-implant contact...

Obrábění materiálů pro specifické dentální aplikace / Machining of materials for specific dental applications

Těšík, Martin

January 2019

This diploma thesis is focused on dental materials used in prosthetic medicine. In the introduction, the most important characteristic of dental materials is summarised, which is biocompatibility. Further it contains distribution of nowadays used dental materials, which are oxidic ceramics and titanium alloys. It describes pitfalls of machining of those materials. Final part is devoted to process of the production of the new dental crown, from the first arrival of the patient to the machining of final product. The thesis also compares the economics of dental crown production using milling and 3D printing.

Výroba dentálních náhrad / On the production of dental parts

Lekeš, Jonáš

January 2013

Tato práce popisuje části dentálních náhrad, lékařské pojmy, které se s nimi vážou a vysvětluje proces a problematiku koncepce a výroby těchto částí. Různé druhy biomateriálů jako kovy, keramika, polymery či kompozity jsou zde popsány, hlavní důraz je však kladen na titanové a chrom kobaltové slitiny a korozivzdorné oceli. Experimentální část nabízí 2 řešení zlepšení výroby součásti. První část experimentální části se zabývá zlepšením kvality styčné plochy pilíře zvýšením hustoty síťování součásti. Druhá část nabízí nahrazení operace frézování operací vrtání. Byly vybrány nástoje od 4 výrobců. Pro nalezení vhodného nástroje jsou provedeny 2 testy vrtání a vybrán nástroj vhodný pro obrábění titanové a chrom kobaltové slitiny.

Fyzikálně-chemické základy biokompatibility slitin přechodových kovů / Biocompatibility of transition metal alloys: physical-chemical background

Rafaj, Zdeněk

January 2017

Titanium alloys are widely used for manufacturing of bone implants. Recent studies proved superior mechanical and chemical properties of TiNb alloys. The performance of TiNb is analyzed on Ti39Nb alloy and on evaporated layers of Ti, Nb and TiNb. Performance is compared to Ti6Al4V and pure Ti. This work is focused on the early stage of a bone growth process (studied in vitro). An investigation of this early stage has not been found in any available literature. At this early stage, CaHPO4 compound is formed. This compound is accompa- nied by Mg oxide formation. It is a difference to later stage of this process (as observed in many studies) where the layer is created solely by hydroxylapatite, Ca10(PO4)6(OH)2. The thermal oxidation of surface leads to a grain structure and to a rougher surface. The surface with different roughness effects growth rate depending on material. Generally, the best performance is achieved with TiNb (only polished as well as subsequently thermally oxidized), followed by Ti. 1

Biokompatibilita implantabilních materiálů se zaměřením na titanové dentální implantáty / Biocompatibility of Implantable MaterialsFocused on Titanium Dental Implants

Moztarzadeh, Amin

January 2017

This dissertation thesis deals with the evaluation of biocompatibility and osseointegration of nanostructured titanium materials used for dental implants. Bulk material topography and surface modification of titanium are currently of intense research mainly due to the significant impact on biocompatibility and improvement of osseointegration of dental implants. In the theoretical part are described types of titanium material and different methods of its surface modification. In vitro and in vivo biocompatibility and osseointegration tests are described as well. The experimental work consists of two parts of experiments. In the first experiment, we examined how grain size of nanostructured titanium material influences the behaviour of fibroblastic as well as osteoblastic cells growth on its surface. The experimentally obtained data were statistically analysed and discussed. Grain size was proven to be an important factor that influenced not only the strength of material but also its interactions with cells. The second experiment describes current methods used in the experimental evaluation of osseointegration of dental implants. The results of histological staining methods are illustrated and compared. A standardized and reproducible technique for stereological quantification of bone-implant contact...