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Secretion of Marker Proteins from Alginate-Poly-L-Alginate Microcapsules and Hydroxythely Methacrylate-Methyl Methacrylate CapsulesTse, May 03 1900 (has links)
The objective of this study was to encapsulate cell lines that secrete marker proteins that cover a large molecular weight range (M^r from 45,000 to 300,000) and monitor the secretion of the marker proteins from alginate-poly-L-lysine-alginate (APA) microcapsules and hydroxyethyl methacrylatemethyl methacrylate (HEMA-MMA) thermoplastic capsules. Different parameters for the APA microcapsules, such as the duration of poly-L-lysine (PLL) and sodium citrate treatment, the initial cell density for encapsulation was studied, and their effects on secretion rate and cell proliferation were closely examined. Cell lines used for encapsulation secreted human growth hormone (hGH) (M^r 45,000), β-hexosaminidase (β-hexo.) (M^r 120,000) and β-glucuronidase (β-gluc.) (M^r 300,000). Monitoring the secretion rates, as well as the distribution of the marker proteins within the microcapsules following encapsulation enabled the permeability of the membrane to be assessed over one month in culture. Encapsulation of cell lines in both types of capsules was effective in producing viable cells capable of proliferating within a semi-permeable membrane. Encapsulating cells in single-coated APA microcapsules at 4°C, treated with 10 minutes PLL, 20 minutes sodium citrate and at a cell density of 2x10^6 cells/ml alginate was found to provide the most optimal conditions for prolonged viability of and stable secretion by the recombinant cells. Human growth hormone diffused readily across the capsule membrane into the culture media from both APA and HEMA-MMA capsules, at rates similar to the non-encapsulated cells. Human growth hormone did not accumulate in the intracapsular space in significant quantities.
β-glucuronidase and β-hexosaminidase could diffuse across APA capsule membrane, but not across HEMA-MMA capsule membrane into surrounding media. β-glucuronidase secretion from APA microcapsules was 8-fold lower than non-encapsulated cells. β-hexosaminidase secretion from APA microcapsules was 4.5-fold lower than non-encapsulated cells. Slight retention of both β-glucuronidase and β-hexosaminidase was observed in the intracapsular space of APA capsules. HEMA-MMA capsules completely blocked the secretion of both β-glucuronidase and β-hexosaminidase out of the capsule. Massive accumulation of both kinds of secretory enzymes was found in the intracapsular space of HEMA-MMA capsules. This indicated APA microcapsules have a molecular weight cut-off of >300,000 whereas HEMA-MMA microcapsules have a molecular weight cut-off of <120,000. / Thesis / Master of Science (MS)
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Desenvolvimento e caracterização de uma resina adesiva experimental acrescida de hidroxietil acrilamida / Development and characterization of an experimental adhesive with the addition of hydroxyethil acrylamideRodrigues, Stefani Becker January 2013 (has links)
O objetivo do presente estudo foi desenvolver e caracterizar resinas adesivas contendo hidroxietil acrilamida (HEAA). Três grupos de resinas adesivas foram formulados, GHEAA33% (33,3% de HEAA + 66,6% de bisfenol A glicedil dimetacrilato - BisGMA), GHEAA50% (50% de HEAA + 50% de BisGMA) e GHEMA (33,3% de hidroxietil metacrilato - HEMA + 66,6% de BisGMA). Parâmetros como resistência à flexão (n= 12), grau de inchamento (n= 3), temperatura de transição vítrea (n= 3) e degradação em solvente (n= 5) foram avaliados de cada resina adesiva. Em adição foi avaliado com calorimetria exploratória diferencial (DSC), o processo de polimerização das resinas experimentais (n= 3), bem como dos homopolímeros componentes, BisGMA, HEMA, HEAA, HEMA* sem adição de etil 4- dimetilaminobenzoato (EDAB) e HEAA* sem adição de EDAB. Os resultados foram analisados estatisticamente com auxílio de ANOVA de uma via, teste de Tukey e teste t pareado. Todas as resinas adesivas e homopolímeros, exceto HEMA, HEAA* e HEMA*, apresentaram uma alta taxa de polimerização e um alto grau de conversão. Não houve diferença estatística entre as resinas adesivas para a temperatura de transição vítrea e a degradação em solvente (p>0,05). Entretanto, o grupo GHEAA33% apresentou a menor variação de grau de inchamento (p<0,05) e os menores valores de resistência à flexão (p<0,05) quando comparado com o grupo GHEMA. Considerando que a hidroxietil acrilamida foi capaz de promover o aumento do processo de polimerização de resinas adesivas experimentais e, tendo em vista sua potencial resistência à degradação hidrolítica e ainda, com base nos resultados dos demais ensaios, o grupo GHEAA33%, parece reunir as melhores condições de desenvolvimento de resinas adesivas inovadoras. / The purpose of this study was to develop an experimental adhesive resin using hydroxyethyl acrylamide (HEAA). Three groups of experimental resin were formulated, GHEAA33% (33.3% HEAA + 66.6% Bisphenol A glycerolate dimethacrylate- BisGMA), GHEAA50% (50% HEAA + 50% BisGMA), and GHEMA (33.3% 2-Hydroxyethyl methacrylate- HEMA + 66.6% of BisGMA). Parameters such as flexural strength (n= 12), swelling degree (n= 3), glass transition temperature (n= 3), and softening in solvent (n= 5) were evaluated for each adhesive resin. In addition, the polymerization process of each adhesive resin group (n= 3), as well as for the homopolymers, BisGMA, HEMA, HEAA, HEMA* without ethyl 4-dimethylaminobenzoate (EDAB), and HEAA* without EDAB, were also evaluated using differential scanning calorimetry (DSC). The results were analyzed using one way ANOVA, Tukey’s test, and Student’s t-test. For all of the resins and homopolymers evaluated, except for homopolymers HEMA, HEMA* and HEAA* homopolymer, a high rate of polymerization and a high degree of conversion were observed. There was no significant difference (p > 0.05) for the glass transition temperature and for softening in solvent for the adhesive resins assayed. In contrast, the GHEAA33% group exhibited less swelling degree (p < 0.05) and reduced flexural strength (p < 0.05) compared to the GHEMA group. HEAA was also found to promote the polymerization process and was resistant to hydrolytic degradation. Thus, GHEAA33% appears to be a promising alternative for the production of innovative adhesive resins.
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Desenvolvimento e caracterização de uma resina adesiva experimental acrescida de hidroxietil acrilamida / Development and characterization of an experimental adhesive with the addition of hydroxyethil acrylamideRodrigues, Stefani Becker January 2013 (has links)
O objetivo do presente estudo foi desenvolver e caracterizar resinas adesivas contendo hidroxietil acrilamida (HEAA). Três grupos de resinas adesivas foram formulados, GHEAA33% (33,3% de HEAA + 66,6% de bisfenol A glicedil dimetacrilato - BisGMA), GHEAA50% (50% de HEAA + 50% de BisGMA) e GHEMA (33,3% de hidroxietil metacrilato - HEMA + 66,6% de BisGMA). Parâmetros como resistência à flexão (n= 12), grau de inchamento (n= 3), temperatura de transição vítrea (n= 3) e degradação em solvente (n= 5) foram avaliados de cada resina adesiva. Em adição foi avaliado com calorimetria exploratória diferencial (DSC), o processo de polimerização das resinas experimentais (n= 3), bem como dos homopolímeros componentes, BisGMA, HEMA, HEAA, HEMA* sem adição de etil 4- dimetilaminobenzoato (EDAB) e HEAA* sem adição de EDAB. Os resultados foram analisados estatisticamente com auxílio de ANOVA de uma via, teste de Tukey e teste t pareado. Todas as resinas adesivas e homopolímeros, exceto HEMA, HEAA* e HEMA*, apresentaram uma alta taxa de polimerização e um alto grau de conversão. Não houve diferença estatística entre as resinas adesivas para a temperatura de transição vítrea e a degradação em solvente (p>0,05). Entretanto, o grupo GHEAA33% apresentou a menor variação de grau de inchamento (p<0,05) e os menores valores de resistência à flexão (p<0,05) quando comparado com o grupo GHEMA. Considerando que a hidroxietil acrilamida foi capaz de promover o aumento do processo de polimerização de resinas adesivas experimentais e, tendo em vista sua potencial resistência à degradação hidrolítica e ainda, com base nos resultados dos demais ensaios, o grupo GHEAA33%, parece reunir as melhores condições de desenvolvimento de resinas adesivas inovadoras. / The purpose of this study was to develop an experimental adhesive resin using hydroxyethyl acrylamide (HEAA). Three groups of experimental resin were formulated, GHEAA33% (33.3% HEAA + 66.6% Bisphenol A glycerolate dimethacrylate- BisGMA), GHEAA50% (50% HEAA + 50% BisGMA), and GHEMA (33.3% 2-Hydroxyethyl methacrylate- HEMA + 66.6% of BisGMA). Parameters such as flexural strength (n= 12), swelling degree (n= 3), glass transition temperature (n= 3), and softening in solvent (n= 5) were evaluated for each adhesive resin. In addition, the polymerization process of each adhesive resin group (n= 3), as well as for the homopolymers, BisGMA, HEMA, HEAA, HEMA* without ethyl 4-dimethylaminobenzoate (EDAB), and HEAA* without EDAB, were also evaluated using differential scanning calorimetry (DSC). The results were analyzed using one way ANOVA, Tukey’s test, and Student’s t-test. For all of the resins and homopolymers evaluated, except for homopolymers HEMA, HEMA* and HEAA* homopolymer, a high rate of polymerization and a high degree of conversion were observed. There was no significant difference (p > 0.05) for the glass transition temperature and for softening in solvent for the adhesive resins assayed. In contrast, the GHEAA33% group exhibited less swelling degree (p < 0.05) and reduced flexural strength (p < 0.05) compared to the GHEMA group. HEAA was also found to promote the polymerization process and was resistant to hydrolytic degradation. Thus, GHEAA33% appears to be a promising alternative for the production of innovative adhesive resins.
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Desenvolvimento e caracterização de uma resina adesiva experimental acrescida de hidroxietil acrilamida / Development and characterization of an experimental adhesive with the addition of hydroxyethil acrylamideRodrigues, Stefani Becker January 2013 (has links)
O objetivo do presente estudo foi desenvolver e caracterizar resinas adesivas contendo hidroxietil acrilamida (HEAA). Três grupos de resinas adesivas foram formulados, GHEAA33% (33,3% de HEAA + 66,6% de bisfenol A glicedil dimetacrilato - BisGMA), GHEAA50% (50% de HEAA + 50% de BisGMA) e GHEMA (33,3% de hidroxietil metacrilato - HEMA + 66,6% de BisGMA). Parâmetros como resistência à flexão (n= 12), grau de inchamento (n= 3), temperatura de transição vítrea (n= 3) e degradação em solvente (n= 5) foram avaliados de cada resina adesiva. Em adição foi avaliado com calorimetria exploratória diferencial (DSC), o processo de polimerização das resinas experimentais (n= 3), bem como dos homopolímeros componentes, BisGMA, HEMA, HEAA, HEMA* sem adição de etil 4- dimetilaminobenzoato (EDAB) e HEAA* sem adição de EDAB. Os resultados foram analisados estatisticamente com auxílio de ANOVA de uma via, teste de Tukey e teste t pareado. Todas as resinas adesivas e homopolímeros, exceto HEMA, HEAA* e HEMA*, apresentaram uma alta taxa de polimerização e um alto grau de conversão. Não houve diferença estatística entre as resinas adesivas para a temperatura de transição vítrea e a degradação em solvente (p>0,05). Entretanto, o grupo GHEAA33% apresentou a menor variação de grau de inchamento (p<0,05) e os menores valores de resistência à flexão (p<0,05) quando comparado com o grupo GHEMA. Considerando que a hidroxietil acrilamida foi capaz de promover o aumento do processo de polimerização de resinas adesivas experimentais e, tendo em vista sua potencial resistência à degradação hidrolítica e ainda, com base nos resultados dos demais ensaios, o grupo GHEAA33%, parece reunir as melhores condições de desenvolvimento de resinas adesivas inovadoras. / The purpose of this study was to develop an experimental adhesive resin using hydroxyethyl acrylamide (HEAA). Three groups of experimental resin were formulated, GHEAA33% (33.3% HEAA + 66.6% Bisphenol A glycerolate dimethacrylate- BisGMA), GHEAA50% (50% HEAA + 50% BisGMA), and GHEMA (33.3% 2-Hydroxyethyl methacrylate- HEMA + 66.6% of BisGMA). Parameters such as flexural strength (n= 12), swelling degree (n= 3), glass transition temperature (n= 3), and softening in solvent (n= 5) were evaluated for each adhesive resin. In addition, the polymerization process of each adhesive resin group (n= 3), as well as for the homopolymers, BisGMA, HEMA, HEAA, HEMA* without ethyl 4-dimethylaminobenzoate (EDAB), and HEAA* without EDAB, were also evaluated using differential scanning calorimetry (DSC). The results were analyzed using one way ANOVA, Tukey’s test, and Student’s t-test. For all of the resins and homopolymers evaluated, except for homopolymers HEMA, HEMA* and HEAA* homopolymer, a high rate of polymerization and a high degree of conversion were observed. There was no significant difference (p > 0.05) for the glass transition temperature and for softening in solvent for the adhesive resins assayed. In contrast, the GHEAA33% group exhibited less swelling degree (p < 0.05) and reduced flexural strength (p < 0.05) compared to the GHEMA group. HEAA was also found to promote the polymerization process and was resistant to hydrolytic degradation. Thus, GHEAA33% appears to be a promising alternative for the production of innovative adhesive resins.
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Surface Modification of Model pHEMA Contact Lenses with Aptamers for Controlled Drug ReleaseShaw, Aakash January 2020 (has links)
An efficient delivery system and patient compliance are two of the most important factors for any drug delivery system design to be successful. The current standard, particularly to the ocular anterior segment, are topical applications including eye drops. However, due to ocular physical barriers including blinking, the varying tear film layers, and the structure of the corneal epithelium, less that 5% of drug reach the target tissue from a single eye drop dose. While most treatment regiments combat this with increased frequency of dosage and higher than needed concentrations, the need for a more efficient and controlled system has been recognized to reduce the risk of possible side effects. Contact lenses (CL) have been a widely discussed potential drug delivery device given their accepted use in the population, their ability to hold drug, as well as their placement on the ocular surface.
The current work focuses on testing a novel delivery system using CLs with the incorporation of drug specific oligonucleotide chains known as aptamers on the surface of the lenses. This application of contact lenses is aimed at capitalizing on the strong affinity of aptamers to hold drug on the surface of the lenses until they are applied to the eyes. The aptamers were covalently attached to the surface via the activation of the hydroxyl groups on pHEMA as a model lens material using 1’1-carbonyldiimidazone CDI chemistry and subsequent reaction with the amine group on the 5' end of the aptamer. The presence of aptamers was confirmed using 6-carbofluorescein (6-FAM) fluorescence detection and x-ray photoelectron spectroscopy (XPS). The release of kanamycin B in comparison to regular pHEMA gels using a soaking uptake method was assessed.
In this work, aptamers were confirmed through fluorescence to have been successfully reacted onto the surface, however XPS was not able to confirm a consistent reading. This may have been due to low initial amounts of aptamer or uneven distributions along the surface. The efficiency of the aptamer reaction was not tested and would need to be further investigated. The contact angle had a significant change with increased hydrophilicity at 60.7 ± 1.55° compared to 66.6 ± 0.67°, however physically it should not affect wettability. The lower aptamer amounts resulted in no significant difference during drug release. Kanamycin B was detected using liquid chromatography mass spectroscopy (LCMS) with a reverse phase method using a C18 column however quite a few errors in the methodology led to the conclusion that this method of drug release requires further investigation. It is recommended an aptamer-surface reaction efficiency be determined with the use of a much larger starting aptamer amount, as well as a follow up drug release. / Thesis / Master of Applied Science (MASc)
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A Mixed Biosensing Film Composed of Oligonucleotides and Poly (2-hydroxyethyl methacrylate) Brushes to Enhance Selectivity for Detection of Single Nucleotide PolymorphismsWong, April Ka Yee 02 September 2010 (has links)
This work has explored the capability of a mixed film composed of oligonucleotides and oligomers to improve the selectivity for the detection of fully complementary oligonucleotide targets in comparison to partially complementary targets which have one and three base-pair mismatched sites. The intention was to introduce a “matrix isolation” effect on oligonucleotide probe molecules by surrounding the probes with oligomers, thereby reducing oligonucleotide-to-oligonucleotide and/or oligonucleotide-to-surface interactions. This resulted in a more homogeneous environment for probes, thereby minimizing the dispersity of energetics associated with formation of double-stranded hybrids. The mixed film was constructed by immobilizing pre-synthesized oligonucleotides onto a mixed aminosilane layer and then growing the oligomer portion by surface-initiated atom transfer radical polymerization (ATRP) of 2-hydroxy methacrylate (PHEMA). The performance of the mixed film was compared to films composed of only oligonucleotides in a series of hybridization and melt curve experiments. Surface characterization techniques were used to confirm the growth of the oligomer portion as well as the presence of both oligonucleotides and oligomer components. Polyatomic bismuth cluster ions as sources for time-of-flight secondary ion mass spectrometry experiments could detect both components of the mixed film at a high sensitivity even though the oligomer portion was at least 200-fold in excess.
At the various ionic strengths investigated, the mixed films were found to increase the selectivity for fully complementary targets over mismatched targets by increasing the sharpness of melt curves and melting temperature differences (delta Tm) by 2- to 3-fold, and by reducing non-specific adsorption. This resulted in improved resolution between the melt curves of fully and partially complementary targets. A fluorescence lifetime investigation of the Cy3 emission demonstrated that Cy3-labeled oligonucleotide probes experienced a more rigid microenvironment in the mixed films.
These experiments demonstrated that a mixed film composed of oligonucleotides and PHEMA can be prepared on silica-based substrates, and that they can improve the selectivity for SNP discrimination compared to conventional oligonucleotide films.
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Sistemas adesivos a base de acrilamidas : síntese, caracterização e desenvolvimento / Acrylamides adhesive system : synthesis, characterization and development.Rodrigues, Stefani Becker January 2016 (has links)
O objetivo deste estudo foi sintetizar e caracterizar monômeros metacrilamidas, desenvolver, caracterizar e avaliar as propriedades de sistemas adesivo convencional de três passos. Foram sintetizadas bis(metacrilamida)s e tris(metacrilamida) e caracterizadas por espectroscopia de Infravermelho por Transformada de Fourier (FTIR), Ressonância Magnética Nuclear (RMN) de 1H e 13C, por Cromatografia Líquida de Alta Eficiência com Espectrometria de Massas (UHPLC-QTOF-MS) e Calorimetria Exploratória Diferencial Modulada (MDSC). Quatro bis(metacrilamidas), (1) N,N’-(propane-1,3-diyl)bis(N-ethyl-2-methylacrylamide), (2) N,N’-(octane-1,8-diyl)bis(2-methylacrylamide), (3) N,N’-(butane-1,4-diyl)bis(2-methacrylamide) e (4) N,N’-(1,4 phenylene)bis(2-methylacrylamide)monômero (1), (2), (3) e (4), e uma tris(metacrilamida) TMA, foram sintetizadas. Pela análise de FTIR-ATR foram observadas as bandas correspondentes ao estiramento do grupo C=O (1660 cm-1), C=C (1610 cm-1), N-H (3300 cm-1) e C-N (1520 cm-1). As análises de RMN identificaram a presença das ligações duplas referentes aos grupos metacrilamidas em deslocamentos químicos entre 5,3 e 5,8 ppm para 1H e entre 120 e 140 ppm para 13C.Os valores de massa exata m/z foram: 267,2068, 281,2222, 225,1595, 245,1283 e 351,2385 g/mol para os monômeros (1), (2), (3), (4) e TMA, respectivamente. A cinética de polimerização do TMA e dos adesivos experimentais contendo 2-hidroxietil acrilamida (HEAA) ou 2-hidroxietil metacrilato (HEMA) com as seguintes formulações foram investigadas por meio de DSC-PCA, n=3: TMA33%/HEAA66%, TMA50%/HEAA50%, TMA66%/HEAA33%, TMA50%/HEMA50%, BisGMA/HEAA/TMA e BisGMA/HEMA.Características e propriedades mecânicas das resinas adesivas BisGMA/HEAA/TMA e BisGMA/HEMA foram avaliadas por resistência coesiva (UTS, n=5), degradação em solvente (ΔKHN, n=5), ângulo de contato (n=5), microtração (μTBS, n=20) e análise de fratura. Um primer a base de acrilamidas foi desenvolvido (H2O/HEAA/AMPS) (2-acrylamida-2-methilpropano ácido sulfônico) para ser utilizado no grupo experimental com metacrilamidas. Os valores de pH e ângulo de contato do primer experimental foram comparados com o primer do ScotchBond Multi-purpose (grupo controle). O monômero (1) resultou em um monômero amarelo claro de baixa viscosidade, entretanto, não apresentou foto ou termopolimerização. A energia de ativação determinada pelo método de Kissinger foi – 165,8 kJmol-1; -182,7 kJmol-1 e -156,7 kJmol-1 para os monômeros (2), (3) e (4), respectivamente. Sistemas adesivos convencionais de três passos a base de metacrilamidas e a base de metacrilatos foram desenvolvidos. Resinas adesivas contendo somente HEAA e TMA (TMA33%/HEAA66%, TMA50%/HEAA50%, TMA66%/HEAA33%) apresentaram grau de conversão abaixo de 40% após 40 s de fotoativação. Alto grau de conversão (acima de 60%) só foi encontrado para as resinas adesivas BisGMA/HEAA/TMA e BisGMA/HEMA e sem diferença significativa entre elas, p>0,05. Os valores de UTS (BisGMA/HEMA- 67,7 ±5 MPa e BisGMA/HEAA/TMA- 60,5 ±7 MPa), μTBS (BisGMA/HEMA- 57 ± 14 MPa e BisGMA/HEAA/TMA- 53,1 ±15 MPa) e ângulo de contato (BisGMA/HEMA- 39,5 ±9 e BisGMA/HEAA/TMA- 46,7 ±15) não apresentaram diferença estatística, p>0.05. O primer experimental apresentou um valor pH mais baixo (2,7) bem como de ângulo de contato (18,5 ±5) em relação ao comercial (pH-4 e θ-33,5 ±4). A síntese proposta para os monômeros (1), (2), (3), (4) e TMA foi caracterizada nesse trabalho. Um primer somente com acrilamidas foi desenvolvido e a presença do novo monômero TMA na resina adesiva BisGMA/HEAA permitiu a formulação de um sistema adesivo convencional de três passos sem a presença do monômero HEMA. / The aim of this study was synthesized and characterizes methacrylamides monomers, development, characterizer and evaluated the properties of 3-step etch-and-rise adhesive system. Bis(methacrylamide)s and tris(methacrylamide) were synthesized. The monomer structures were confirmed by 1H and 13C Nuclear Magnetic Resonance (NMR), Fourier Transform Infrared Spectroscopy (FTIR-ATR), Ultra-high liquid chromatography quadrupole time of flight mass spectrometry (UHPLC-QTOF-MS) and modulated differential scanning calorimetry (mDSC). Four bis(methacrylamide)s monomers (1) N,N’-(propane-1,3-diyl)bis(N-ethyl-2-methylacrylamide), (2) N,N’-(octane-1,8-diyl)bis(2-methylacrylamide), (3) N,N’-(butane-1,4-diyl)bis(2-methacrylamide) and (4) N,N’-(1,4 phenylene)bis(2-methylacrylamide) and one tris(methacrylamide), TMA, were synthesized. All IR spectra of the monomers showed the C=C axial deformation at 1610 cm-1. The 1H NMR spectra the olefinic hydrogens were observed at 5.3 an 5.8 ppm and in the 13C NMR, the vinylic carbons at 120 and 140 ppm. The exact m/z values were: 267.2068, 281.2222, 225.1595, 245.1283 and 351.2385 g/mol for monomers (1), (2), (3), (4) and TMA respectively. Monomer (1) not presented photo (DSC-PCA) or thermal polymerization. The activation energy determined using Kissinger methodology was: - 165.8 kJmol-1; -182.7 kJmol-1 and -156.7 kJmol-1 for monomers (2), (3) and (4), respectively. 3-step adhesive systems with methacrylamides and methcrylates were development. Kinetics of photopolymerization of TMA and experimental adhesive resin containing 2-hydroxyethylacrylamide (HEAA) or 2-hydroxyethylmethacrylate (HEMA) in the following formulations: (TMA 33%/HEAA 66%, TMA 50%/HEAA 50%, TMA66%/HEAA33%, TMA50%/HEMA50%, BisGMA66%/HEAA24%/TMA10% and BisGMA66%/HEMA33%) were investigated through DSC-PCA. Characteristics and mechanical properties for BisGMA 66%/HEAA 24%/TMA 10% and BisGMA 66%/HEMA 33% adhesives were evaluated with ultimate tensile strength (UTS, n=5), softening in solvent (ΔKHN, n=5), contact angle (n=5), microtensile bond strength (μTBS, n=20) and failure analysis. A primer was also formulated with H2O/HEAA/AMPS (2-acrylamido-2-methylpropane sulfonic acid) and the pH and contact angle value were verified and compared to commercial ScotchBond primer. Adhesive resin with HEAA and TMA (TMA33%/HEAA66%, TMA50%/HEAA50%, TMA66%/HEAA33%) showed lower conversion and polymerization rate after 40 s of light activation. Higher conversion (up to 60%) was found for BisGMA/HEAA/TMA and BisGMA/HEMA adhesive resin without significant difference between adhesive resin, p>0.05. UTS (BisGMA/HEMA- 67.7 ±5 MPa e BisGMA/HEAA/TMA- 60.5 ±7 MPa), immediate μTBS (BisGMA/HEMA- 57 ± 14 MPa e BisGMA/HEAA/TMA- 53.1 ±15 MPa), ΔKHN (BisGMA/HEMA- 56 ± 7 e BisGMA/HEAA/TMA- 64 ±4) and contact angle (BisGMA/HEMA- 39.5 ±9 e BisGMA/HEAA/TMA- 46.7 ±15) showed no statistical difference, p>0.05. The experimental primer presented more acidity pH (2.7) and lower contact angle (18.5 ±5) when compared to commercial primer (pH- 4 e θ- 33.5 ±4). A new acrylamide based-primer was formulated and the presence of the new tris(methacrylamide) monomer (TMA) was enable the preparation of a 3-step etch-and-rise adhesive system without HEMA monomer.
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Nouveaux biopolymères avec des possibles utilisations dans le domaine de la stomatologie et dans le domaine de l'orthopédieZecheru, Teodora 10 October 2008 (has links) (PDF)
La thèse présente l'étude des polymères biocompatibles dans le domaine de la libération contrôlée de médicaments. Les principes de la libération contrôlée sont soulignés et les applications des polymères sont décrites. Séries de copolymères de HEMA ont été synthétisées par polymérisation en suspension-dispersion, polymérisation précipitante et en masse. La fonctionnalisation a été donnée par l'introduction de monomères comme : methacryloxyethyl phospahte, guanidino-propyl methacrylate, diethylaminoethyl methacrylate, diallyldimethyl ammonium chloride, methacryloyloxyethyl acetoacetate, methacryloyloxyethyl trimethylammonium chloride, glycidyl methacrylate, tetrahydrofurfuryl methacrylate. Les polymères ont été caractérisés physico-chimiquement et biologiquement. Les rapports de réactivité des monomères dans les systèmes : MMA-TIPA, HEMA-AA, AA-dDMA, HEMA-dDMA-AA ont été étudiés. Une autre direction a été l'étude du comportement de ces copolymères avec des colorants fluorescents, et d'un copolymère contenant du MMA et un monomère iodé, pour la détection biologique. Pour l'obtention de systèmes actifs de libération, on aa utilisé deux méthodes : liaison physique en cas de thalidomide et liaison chimique pour le nafcilline. La liaison polymère-médicament a été analysée par FT-IR et UV, et a été confirmée par MEB et EDX. On a effectué des études in vitro pour vérifier les interactions entre les polymères chargés avec médicaments et les cellules, en utilisant comme méthode d'analyse le FOM, dans le cas du thalidomide, et l'UV-VIS, pour le nafcilline. Les résultats obtenus donnent une vraie option pour une future utilisation dans le domaine de l'anti-angiogenèse des tumeurs.
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Living Radical Polymerization Of Hydroxyethyl Methacrylate And Its Block Copolymerization With Poly(dimethyl Siloxane) MacroazoinitiatorVargun, Elif 01 June 2009 (has links) (PDF)
Hydrophilic poly(2-hydroxyethyl methacrylate), PHEMA, and hydrophobic poly(dimethyl siloxane), PDMS, segments containing copolymers have been widely used as a biomaterial. These amphiphilic copolymers also used as an emulsifying agent in polymer solutions and compatibilizer in polymer blends. In this case, solution polymerizations of HEMA by radiation, ATRP and RAFT methods were studied. The thermal degradation mechanism of PHEMA, which was prepared in aqueous solution by gamma radiation technique, was studied in detail. The DSC, TGA and Mass Spectroscopy analyses revealed that the degradation is linkage and depolymerization with a combination of monomer fragmentation. The ATRP of HEMA was performed with ethyl-2-bromoisobutyrate (EBriB) initiator and CuCl/bipyridine catalyst in MEK/1-propanol solvent mixture. Cu(II) complexes and PHEMA obtained via ATRP were characterized by UV-vis, FTIR and 1H-NMR analysis. The RAFT polymerization of HEMA with different [RAFT]/[AIBN] ratios were also investigated in three solvents (methyl ethylketone, ethyl acetate and toluene). The controlled polymerization of HEMA with the ratio of [RAFT]/ [AIBN]=18 at 80 oC in MEK and ethyl acetate, shows the first-order kinetic up to the nearly 40 % conversion Macroazoinitiator PDMS-MAI was synthesized from bifunctional PDMS and then copolymerized with MMA, EMA, HEMA and TMS-HEMA monomers Different characterization methods such as FTIR, 1H-NMR, solid state NMR, GPC, XPS, SEM, DSC, etc. have been used for the characterization of block copolymers. P(DMS-b-TMSHEMA) was converted to the P(DMS-b-HEMA) block copolymer by deprotection of TMS groups. The phase separated morphology was observed for the P(DMS-b-HEMA) copolymer, which was different from P(DMS-b-MMA) and P(DMS-b-EMA) copolymers.
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Thermal analyses of hydrophilic polymers used in nanocomposites and biocompatible coatingsMohomed, Kadine 01 June 2006 (has links)
ABSRACT: This research focuses on two hydrophilic polymers that form hydrogels when they sorb water: Poly(2-hydroxyethyl methacrylate) (PHEMA) and Poly(2,3-dihydroxypropyl methacrylate) (PDHPMA). Present work in the field obviated the need to properly characterize the thermal and dielectric properties of these materials.The dielectric permittivity, e', and the loss factor, e", of dry poly(2-hydroxyethyl methacrylate) and poly(2,3-dihydroxypropyl methacrylate) were measured using a dielectric analyzer in the frequency range of 0.1Hz to 100 kHz and between the temperature range of -150 °C to 275°C. The dielectric response of the sub-Tg gamma transition of PHEMA has been widely studied before but little to no DEA data above 50°C is present in the literature. This study is the first to present the full range dielectric spectrum of PHEMA, PDHPMA and their random copolymers up to and above the glass transition region.
The electric modulus formalism and several mathematical proofs were used to reveal the gamma, beta, alpha and conductivity relaxations. Dielectric analysis gives insight into the network structure of the polymer; it has been shown through thermal analyses that as the DHPMA content increased in HEMA-DHPMA copolymers the polymer matrix increased in available free volume and facilitated the movement of ions in its matrix. This is of significance as we then investigated the feasibility of using PHEMA, PDHPMA and their random copolymers as materials for a biocompatible coating for an implantable glucose sensor. The biocompatibility of hydrogels can be attributed to the low interfacial tension with biological fluids, high gas permeability, high diffusion of low molecular weight compounds, and reduced mechanical and frictional irritation to surrounding tissue. Once the biocompatibility of the hydrogels was established, the task to coat the polyurethane (PU)/epoxy coated metal glucose sensor was addressed.
Plasma polymerization was found to be the most feasible technique for the application of the biocompatible hydrogel as a coating on the implantable glucose sensor. It has also been shown that thermal analysis techniques provide a mode of investigation that can be used to investigate the interfacial interactions of a novel hydroxylated, self-assembled nanoparticle with two functionally different polymers, poly(2-dihydroxyethyl methacrylate) and poly(methyl methacrylate).
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