EFEITO DA INCORPORAÇÃO DE FÁRMACOS ANTIFÚNGICOS SOBRE A MORFOLOGIA DE SUPERFÍCIE E A LIBERAÇÃO IN VITRO DE MATERIAIS MACIOS TEMPORÁRIOS PARA BASE DE PRÓTESE / Effect of the addition of antifungals on the surface morphology and the in vitro leaching from temporary soft denture materials

Aliaga, Adelaida Sánchez

21 February 2014

Made available in DSpace on 2017-07-24T19:22:34Z (GMT). No. of bitstreams: 1 Adelaida S Aliaga.pdf: 5670394 bytes, checksum: 9cdda52bc2a6b833409747ce8d7cf507 (MD5) Previous issue date: 2014-02-21 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Purpose: The purpose of this study was to evaluate the surface morphology and roughness and the in vitro leachability of temporary soft liners modified by the incorporation of antifungals, generally used for the denture stomatitis treatment, in their minimum inhibitory concentrations (MIC) for the biofilm of Candida albicans. Material and methods: The surface analyses of the tissue conditioner Softone (S) and the resilient liner Trusoft (T) modified or not by the addition of nystatin (Ny), miconazole (Mc), ketoconazole (Ke), chlorhexidine diacetate (Chx), and itraconazole (It) were made by using scanning electron microscopy and confocal laser microscopy. In vitro leachability of Ny and Chx was measured using Ultraviolet visible spectroscopy. Additional analyses of the modified materials containing Ny and Chx were made using differential scanning calorimetry (DSC). The antifungals were incorporated at their previously determined MIC for the biofilm of C. albicans (Ny = 0.032 g; Mc = 0.256 g; Ke = 0.128 g; Chx = 0.064 g; and It = 0.256 g/g of material). The specimens were stored in distilled water at 37ºC for up to 14 days previously to the analyses. Results: Softone had more irregular surface morphology than Trusoft did. Morphological changes were noted in both materials with increasing immersion time, particularly in those containing drugs. Ny and Ke showed the smallest particle sizes, while Chx and It showed the largest ones. Groups containing Chx and It presented extremely porous and irregular surface. Modified specimens had superior roughness (Ra) values in comparison with the control specimens. There was a trend towards an increase in Ra parameter after 7 days, followed by a decrease to values lower than the initial ones after 14 days, in the control and specimens with Ny, Mc, and Ke. Both materials had biexponential kinetics of release: a rapid initial release followed by a slower leaching. Softone leached more concentration of the antifungals than Trusoft and chlorhexidine was released at higher concentration than nystatin. DSC analysis revealed low Tg for Softone and that the fusion temperature of the drugs changed little after they had been added to the materials. Conclusion: The addition of Chx or It changed more significantly the surface of the materials. Softone was able to release more drug concentration and it was noted a weak chemical bond between the drugs and the evaluated materials. / Objetivo: A proposta deste estudo foi avaliar a morfologia e a rugosidade de superfície e a liberação in vitro de materiais macios temporários com incorporação de fármacos antifúngicos, comumente utilizados para o tratamento da estomatite protética, em suas concentrações mínimas inibitórias (CMI) ao biofilme de Candida albicans. Material e métodos: As análises de superfície do condicionador de tecido Softone (S) e do reembasador resiliente Trusoft (T) tanto controles como modificados pela incorporação de nistatina (Ni), miconazol (Mc), cetoconazol (Ce), diacetato de clorexidina (Clx) e itraconazol (It) foram feitas por meio de microscopia eletrônica de varredura e microscopia confocal laser. A liberação in vitro dos fármacos Ni e Clx foi quantificada utilizando espectrofotometria na região do Ultravioleta visível. Análises adicionais dos materiais contendo Ni e Clx foram feitas utilizando calorimetria exploratória diferencial (DSC). Os antifúngicos foram incorporados em suas CMI ao biofilme de C. albicans determinadas em estudo prévio (Ni = 0,032 g; Mc = 0,256 g; Ce = 0,128 g; Clx = 0,064 g e It = 0,256 g/g do material). Os corpos de prova foram armazenados em água destilada a 37ºC por até 14 dias previamente às análises. Resultados: O Softone apresentou morfologia mais irregular que o Trusoft. Foi notada alteração de superfície em ambos os materiais, principalmente naqueles contendo fármacos, com o aumento do tempo de imersão. Os maiores e os menores tamanhos de partículas foram dos fármacos Clx e It e Ni e Ce, respectivamente. Os grupos contendo Clx e It demonstraram superfícies extremamente porosas e irregulares. Os espécimes modificados apresentaram valores superiores de rugosidade média (Ra) em relação aos controles. Houve uma tendência de aumento de Ra após 7 dias, seguida por uma diminuição a valores inferiores aos iniciais após 14 dias para o grupo controle e aqueles contendo Ni, Mc e Ce. Ambos os materiais apresentaram cinética de liberação biexponencial: rápida liberação inicial seguida por uma liberação mais lenta. O Softone liberou maior concentração dos fármacos que o Trusoft e a clorexidina foi liberada em maior quantidade que a nistatina. As análises em DSC revelaram Tg mais baixa para o Softone e que a temperatura de fusão dos fármacos pouco alterou após terem sido incorporados aos materiais. Conclusão: A incorporação de Clx ou It alterou mais significativamente a superfície dos materiais. O Softone foi capaz de liberar maior concentração dos fármacos Clx e Ni e foi detectada uma fraca ligação química entre estes fármacos e os materiais avaliados.

sstomatite sob prótese

microscopia eletrônica de varredura

microscopia confocal

espectrofotometria ultravioleta

calorimetria diferencial de varredura.

denture stomatitis

denture liners

anti-infective agents

scanning electron microscopy

confocal microscopy

ultraviolet spectrophotometry

differential scanning calorimetry

CNPQ::CIENCIAS DA SAUDE::ODONTOLOGIA

Etude du comportement et de la résistance mécanique d'un pancréas bioartificiel pour l'homme. Caractérisation expérimentale et simulation numérique. / Study of the behaviour and the mechanical properties of a human bioartificial pancreas. Experimental characterization and numerical simulation.

Cristofari, François

11 December 2017

Afin de traiter les patients atteint de diabète de type 1, un pancréas bioartificiel permettant d’encapsuler des cellules produisant de l’insuline a été développé : il est constitué de membranes poreuses qui les isolent des anticorps du patient, tout en permettant le passage du glucose et de l’insuline. Avant sa mise sur le marché, il est nécessaire de vérifier que son comportement mécanique lui permet d’être implanté chez l’homme sans risque pour le patient. La résistance des membranes sous chargement mécanique est donc étudiée en particulier. Leur structure est d’abord mise en évidence par microscopie électronique à balayage et nanotomographie à rayons X. Des essais de traction sont ensuite effectués à l’échelle macroscopique et à l’échelle microscopique, l’utilisation de techniques de mesure de champs par corrélation d’images permettant de caractériser les déformations des membranes à chaque échelle. En parallèle, une modélisation numérique par éléments finis est développée en se basant sur les caractéristiques microstructurales et mécaniques des membranes. Une méthodologie de comparaison entre le comportement prédit par le modèle et le comportement expérimental des membranes est alors proposée et utilisée. Les résultats de cette étude sont finalement considérés pour juger de la possibilité d’utiliser ce dispositif en phase clinique. / In order to treat type 1 diabetics, a bioartificial pancreas has been developed. It consists in the encapsulation of insulin producing cells: it is made of porous membranes which isolate cells from patient antibodies, allowing the glucose and the insulin to pass through. Before its commercialization, it is necessary to verify that its mechanical behavior allows it to be implanted in a human body without any risk for the patient. The mechanical strength of the membranes under loading is therefore studied. Their structure is first obtained using scanning electron microscopy and X-ray nanotomography. Tensile tests are then done at both macroscopic and microscopic scales, digital image correlation techniques being used to characterize the membranes at each scale. At the same time, a numerical model using finite element method is built based on the microstructural and mechanical characteristics of the membranes experimentally identified. A methodology to compare the experimental and numerical results behavior of the membranes is proposed and used. The results of the study are finally considered to assess the possibility to use the device in clinic phase.

Nanotomographie

Microscopie électronique à balayage

Traction in situ

Mesure de champs

Méthode Eléments Finis

Confrontation modèle/expériences

Nanotomography

Scanning electron microscopy

In situ tensile tests

Digital Image Correlation

Finite Element Method

Confrontation model/experiments

Efeito do uso sistêmico de alendronato sódico no tecido ósseo e nas estruturas dentárias mineralizadas: estudo químico, mecânico e morfológico, em modelo murino / Effect of the systemic use of sodium alendronate on bone tissue and mineralized dental structures: A chemical, mechanical and morphological study in a murine model.

Marília Pacifico Lucisano

10 December 2010

Os bisfosfonatos representam uma classe de drogas que agem sobre o metabolismo ósseo e são amplamente utilizadas na prevenção e tratamento de estados osteopênicos e osteoporóticos. Os objetivos do presente estudo foram avaliar, in vivo, o efeito do uso sistêmico de alendronato sódico: na densidade mineral óssea de ratos, por meio da densitometria óptica radiográfica e da técnica de absortometria radiológica de dupla energia (DXA); e nas estruturas dentárias mineralizadas de incisivos murinos, por meio da espectrometria na região do infravermelho, espectroscopia de fluorescência, microdureza transversal, microscopia eletrônica de varredura e microscopia de luz polarizada. Foram utilizados 45 ratos Wistar, com 36-42 dias de idade, pesando em média 200-230g, os quais foram divididos em dois grupos: experimental (n= 25) e controle (n= 20). No grupo experimental foram administradas duas doses semanais de 1mg/Kg de alendronato de sódio quimicamente puro diluído em água destilada, via gavagem, enquanto que os animais do grupo controle receberam apenas água destilada. Decorrido o período de 60 dias, os animais foram mortos por sobredose anestésica e, em seguida, foram extraídos os incisivos superiores e removidas as tíbias. As tíbias foram submetidas à avaliação da densidade mineral óssea por meio de análise radiográfica e da técnica de absortometria radiológica de dupla energia (DXA). Os incisivos superiores foram submetidos às seguintes avaliações: análise química por espectrometria na região do infravermelho e espectroscopia de fluorescência, microdureza transversal do esmalte e da dentina; microscopia eletrônica de varredura e microscopia de luz polarizada. Os resultados numéricos obtidos foram submetidos à análise estatística por meio do teste não-paramétrico de Kruskal-Wallis, utilizando o software SAS (Statistical Analysis System) for Windows versão 9.1.3. O nível de significância adotado foi de 5%. O grupo experimental apresentou valores de densidade mineral óssea superiores (p<0,05) em relação ao grupo controle, pelos métodos da densitometria óptica radiográfica e DXA. A análise química pelos métodos de espectrometria na região do infravermelho e espectroscopia de fluorescência permitiu detectar a presença do alendronato na estrutura dentária mineralizada do grupo experimental e que a porcentagem dessa incorporação foi de 0,0018% por elemento dental. Os resultados da microdureza transversal do esmalte e da dentina não revelaram diferença estatisticamente significante entre os grupos experimental e controle (p>0,05). Não foram observadas diferenças morfológicas significativas entre as amostras de ambos os grupos por meio da análise por microscopia eletrônica de varredura e microscopia de luz polarizada. Com base nos resultados obtidos, conclui-se que o tratamento com alendronato sódico provocou aumento na densidade mineral óssea da metáfise proximal da tíbia e que o alendronato incorporou-se nas estruturas dentárias mineralizadas, porém sem provocar efeitos significativos na microdureza e na morfologia do esmalte e da dentina de incisivos de ratos. / Bisphosphonates represent a class of drugs that act on bone metabolism and are widely used in the prevention and treatment of osteopenic and osteoporotic states. The objectives of this study were to evaluate, in vivo, the effect of the systemic use of sodium alendronate on: the mineral bone density of rats, by radiographic optical densitometry and dual-energy x-ray absorptiometry (DXA); the mineralized dental structures of murine incisors, by analysis of infrared (IR) spectrometry, fluorescence spectroscopy, cross-sectional microhardness (CSMH), scanning electron microscopy (SEM) and polarized light microscopy (PLM). Forty-five Wistar rats aged 36-42 days and weighing 200-230 g were assigned to two groups: experimental (n= 25) and control (n= 20). The experimental group received two weekly doses of 1 mg/kg of chemically pure sodium alendronate diluted in distilled water, via gavage, while the animals of the control group received only distilled water. After 60 days, the animals were killed by anesthetic overdose, and the maxillary incisors were extracted and the tibias were removed. The mineral bone density of the tibias was analyzed radiographically and by DXA. The maxillary incisors were subjected to the following evaluations: chemical analysis by IR spectrometry and fluorescence spectroscopy, enamel and dentin CSMH, SEM and PLM. The results were subjected to statistical analysis by the Kruskal-Wallis non-parametric test, using the SAS (Statistical Analysis System) software for Windows version 9.1.3. The significance level was set at 5%. The experimental group presented higher mineral bone density (p<0.05) than the control group, by radiographic optical densitometry and DXA. The chemical analysis by IR spectrometry and fluorescence spectroscopy revealed the presence of alendronate in the mineralized dental structure of the specimens of the experimental group, with a percentage of incorporation of 0.0018% per tooth. The results of enamel and dentin CSMH did not show statistically significant difference between the experimental and control groups (p>0.05). There were no significant morphological differences among the specimens of the groups by SEM and PLM. Based on the obtained results, it may be concluded that the treatment with sodium alendronate caused an increase in the mineral bone density of the proximal tibial metaphysis, and that alendronate was incorporated in the mineralized dental structures without causing significant effects in the enamel and dentin microhardness and morphology of rat incisors.

Alendronato sódico

Densidade mineral óssea

Dentina

Esmalte

Microdureza transversal

Microscopia de luz polarizada

Microscopia eletrônica de varredura

cross-sectional microhardness

dentin

enamel

mineral bone density

polarized light microscopy

scanning electron microscopy

sodium alendronate

Efeito do uso sistêmico de alendronato sódico no tecido ósseo e nas estruturas dentárias mineralizadas: estudo químico, mecânico e morfológico, em modelo murino / Effect of the systemic use of sodium alendronate on bone tissue and mineralized dental structures: A chemical, mechanical and morphological study in a murine model.

Lucisano, Marília Pacifico

10 December 2010

Os bisfosfonatos representam uma classe de drogas que agem sobre o metabolismo ósseo e são amplamente utilizadas na prevenção e tratamento de estados osteopênicos e osteoporóticos. Os objetivos do presente estudo foram avaliar, in vivo, o efeito do uso sistêmico de alendronato sódico: na densidade mineral óssea de ratos, por meio da densitometria óptica radiográfica e da técnica de absortometria radiológica de dupla energia (DXA); e nas estruturas dentárias mineralizadas de incisivos murinos, por meio da espectrometria na região do infravermelho, espectroscopia de fluorescência, microdureza transversal, microscopia eletrônica de varredura e microscopia de luz polarizada. Foram utilizados 45 ratos Wistar, com 36-42 dias de idade, pesando em média 200-230g, os quais foram divididos em dois grupos: experimental (n= 25) e controle (n= 20). No grupo experimental foram administradas duas doses semanais de 1mg/Kg de alendronato de sódio quimicamente puro diluído em água destilada, via gavagem, enquanto que os animais do grupo controle receberam apenas água destilada. Decorrido o período de 60 dias, os animais foram mortos por sobredose anestésica e, em seguida, foram extraídos os incisivos superiores e removidas as tíbias. As tíbias foram submetidas à avaliação da densidade mineral óssea por meio de análise radiográfica e da técnica de absortometria radiológica de dupla energia (DXA). Os incisivos superiores foram submetidos às seguintes avaliações: análise química por espectrometria na região do infravermelho e espectroscopia de fluorescência, microdureza transversal do esmalte e da dentina; microscopia eletrônica de varredura e microscopia de luz polarizada. Os resultados numéricos obtidos foram submetidos à análise estatística por meio do teste não-paramétrico de Kruskal-Wallis, utilizando o software SAS (Statistical Analysis System) for Windows versão 9.1.3. O nível de significância adotado foi de 5%. O grupo experimental apresentou valores de densidade mineral óssea superiores (p<0,05) em relação ao grupo controle, pelos métodos da densitometria óptica radiográfica e DXA. A análise química pelos métodos de espectrometria na região do infravermelho e espectroscopia de fluorescência permitiu detectar a presença do alendronato na estrutura dentária mineralizada do grupo experimental e que a porcentagem dessa incorporação foi de 0,0018% por elemento dental. Os resultados da microdureza transversal do esmalte e da dentina não revelaram diferença estatisticamente significante entre os grupos experimental e controle (p>0,05). Não foram observadas diferenças morfológicas significativas entre as amostras de ambos os grupos por meio da análise por microscopia eletrônica de varredura e microscopia de luz polarizada. Com base nos resultados obtidos, conclui-se que o tratamento com alendronato sódico provocou aumento na densidade mineral óssea da metáfise proximal da tíbia e que o alendronato incorporou-se nas estruturas dentárias mineralizadas, porém sem provocar efeitos significativos na microdureza e na morfologia do esmalte e da dentina de incisivos de ratos. / Bisphosphonates represent a class of drugs that act on bone metabolism and are widely used in the prevention and treatment of osteopenic and osteoporotic states. The objectives of this study were to evaluate, in vivo, the effect of the systemic use of sodium alendronate on: the mineral bone density of rats, by radiographic optical densitometry and dual-energy x-ray absorptiometry (DXA); the mineralized dental structures of murine incisors, by analysis of infrared (IR) spectrometry, fluorescence spectroscopy, cross-sectional microhardness (CSMH), scanning electron microscopy (SEM) and polarized light microscopy (PLM). Forty-five Wistar rats aged 36-42 days and weighing 200-230 g were assigned to two groups: experimental (n= 25) and control (n= 20). The experimental group received two weekly doses of 1 mg/kg of chemically pure sodium alendronate diluted in distilled water, via gavage, while the animals of the control group received only distilled water. After 60 days, the animals were killed by anesthetic overdose, and the maxillary incisors were extracted and the tibias were removed. The mineral bone density of the tibias was analyzed radiographically and by DXA. The maxillary incisors were subjected to the following evaluations: chemical analysis by IR spectrometry and fluorescence spectroscopy, enamel and dentin CSMH, SEM and PLM. The results were subjected to statistical analysis by the Kruskal-Wallis non-parametric test, using the SAS (Statistical Analysis System) software for Windows version 9.1.3. The significance level was set at 5%. The experimental group presented higher mineral bone density (p<0.05) than the control group, by radiographic optical densitometry and DXA. The chemical analysis by IR spectrometry and fluorescence spectroscopy revealed the presence of alendronate in the mineralized dental structure of the specimens of the experimental group, with a percentage of incorporation of 0.0018% per tooth. The results of enamel and dentin CSMH did not show statistically significant difference between the experimental and control groups (p>0.05). There were no significant morphological differences among the specimens of the groups by SEM and PLM. Based on the obtained results, it may be concluded that the treatment with sodium alendronate caused an increase in the mineral bone density of the proximal tibial metaphysis, and that alendronate was incorporated in the mineralized dental structures without causing significant effects in the enamel and dentin microhardness and morphology of rat incisors.

Alendronato sódico

cross-sectional microhardness

Densidade mineral óssea

dentin

Dentina

enamel

Esmalte

Microdureza transversal

Microscopia de luz polarizada

Microscopia eletrônica de varredura

mineral bone density

polarized light microscopy

scanning electron microscopy

sodium alendronate

Avaliação da limpeza das paredes em canais radiculares instrumentados pelas técnicas rotatória e self-adjusting file (SAF) associadas ao uso de diferentes quelantes / Evaluation of the cleanness of root canals walls instrumented with rotary and the self-adjusting file (SAF) techniques associated with different chelators

José Antonio Brufato Ferraz

27 April 2012

O presente trabalho avaliou, por microscopia eletrônica de varredura (MEV), a limpeza das paredes dos canais radiculares instrumentados pelas técnicas rotatória e Self-adjusting file (SAF®) com uso do NaOCl a 1% como solução irrigadora e o uso do EDTA a 15% e da Quitosana 0,20% como soluções quelantes, e quantificou os íons cálcio removidos pelas diferentes soluções irrigadoras por meio de espectrometria de absorção atômica. Trinta dentes caninos inferiores humanos foram divididos em dois grupos (n=15), de acordo com a técnica de instrumentação utilizada: A - instrumentos FlexMaster® usados na técnica Free Tip Preparation, assegurado alargamento mínimo de 200, até o instrumento # 60.02, irrigados com 1 mL de NaOCl 1% em cada troca de instrumento e B - sistema SAF®, com prévio alargamento manual até o instrumento K #20, aplicação da SAF® por 4 minutos, com fluxo de irrigação pelo sistema VATEA de 5mL/min. Os dentes foram divididos em três subgrupos conforme a irrigação final: G1-NaOCl 1%, G2- EDTA 15% e G3 Quitosana 0,20%. Utilizou-se 5mL de cada solução à 1mL/min. A solução extravasada pelo forame foi coletada e submetida à análise espectrométrica. O EDTA 15% apresentou maior capacidade de remoção de íons cálcio do que a Quitosana a 0,20% (p<0,05) e o NaOCl 1% não removeu íons. Os espécimes foram analisados em MEV. As fotomicrografias obtidas foram avaliadas qualitativamente em relação à remoção da camada de smear observada. Não houve diferença entre as instrumentações rotatória e SAF® nos terços dos canais avaliados. Analisadas as interações entre as técnicas utilizadas e aos terços do canal, o EDTA 15% apresentou melhores resultados que a Quitosana 0,20% (p<0,05), sendo ambas as soluções melhores que o NaOCl 1%. Conclui-se que as soluções quelantes testadas foram capazes de remover íons cálcio das paredes dos canais radiculares - com superioridade do EDTA 15% sobre a Quitosana 0,20%, e o NaOCl a 1% não apresentou essa capacidade - e removeram a camada de smear das paredes dos canais radiculares com superioridade do EDTA 15%, sem interferência das técnicas de instrumentação avaliadas rotatória e SAF®. / The present study evaluated, by scanning electron microscopy (SEM), the cleanness of the root canal walls instrumented by rotary and the self-adjusting file (SAF®) techniques using 1% NaOCl as an irrigating solution and 15% EDTA, 0.20% Chitosan as chelator solutions, and quantified the calcium ions removed by the different irrigants with atomic absorption spectrometry. Thirty human mandibular canine teeth were divided into 2 groups (n=15) according to the instrumentation technique used: A- FlexMaster® instruments used with the Free tip Preparation, assuring a minimal enlargement of 200m, up to a #60 .02 instrument, irrigated with 1mL of 1% NaOCl between each instrument; and B- SAF® system, with previous enlargement to a type K #20 manual instrument, application of SAF during 4 minutes, with VATEA irrigation system at a flow of 5mL/min. The teeth were divided into three subgroups according to the final irrigation protocol: G1- 1% NaOCl, G2- 15% EDTA and G3- 0.20 % Chitosan. Five mL of solution were used at 1mL/min. The solution extruded thru the foramen was collected and submitted to spectrometric analysis. 15% EDTA showed higher calcium ion removal capacity then 0.20% Chitosan (p<0.05) and the 1% NaOCl did not remove ions. The specimens were evaluated by means of SEM. The photomicrographs obtained were qualitatively evaluated in terms of smear layer removal. There was no significant difference between the rotary and SAF® instrumentation systems in the evaluated canal thirds. The interaction techniques used and canals thirds showed that the 15% EDTA revealed better results than the 0.02% Chitosan (p<0.05), and both were better than 1% NaOCl. It can be concluded that the tested chelating solutions removed calcium ions from the root canals walls with better results for 15% EDTA than 0.20% Chitosan; 1% NaOCl did not present this capacity - and removed the smear layer form the root canal walls with better results for 15% EDTA, with no difference between the evaluated techniques rotary and SAF®.

Agentes quelantes

Camada de smear

EDTA

Espectrometria de absorção atômica

Microscopia Eletrônica de Varredura

preparo rotatório

Quitosana

Self-adjusting file (SAF®)

atomic absorption spectrometry

Chelating agents

Chitosan

EDTA

rotary preparations

scanning electron microscopy

self-adjusting file (SAF®)

Análise morfológica e da resistência adesiva dos tecidos dentais duros irradiados com lasers de pulsos ultracurtos / Evaluation of dental hard tissues irradiated with ultra-short pulsed lasers. Influence on surface morphology and microtensile bond strength

Silva, Marina Stella Bello

16 September 2010

O desenvolvimento da Odontologia Restauradora culminou com a era das restaurações estéticas adesivas e da intervenção minimamente invasiva, para as quais técnicas inovadoras e materiais de última geração vêm sendo constantemente introduzidos. As técnicas conservadoras visam não somente a remoção do substrato dental cariado, mas também o preparo das paredes da cavidade para a realização da restauração adesiva. Este estudo visou avaliar a possibilidade de introdução dos lasers de pulsos ultracurtos na Odontologia Restauradora, com o intuito de suprir os requisitos básicos para a realização de uma restauração conservadora adequada. A intenção foi de manter os benefícios já conhecidos relacionados à remoção seletiva de cárie com os lasers de alta potência, bem como superar as desvantagens relacionadas às fontes lasers atualmente disponíveis para este fim, como aumento excessivo de temperatura e adesão prejudicada da superfície irradiada à resina composta. Para a melhor avaliação da interação entre os lasers de pulsos ultracurtos e o substrato dental, os experimentos foram realizados em três fases. A Fase 1 visou avaliar o efeito de diferentes comprimentos de onda (355 nm, 532 nm, 1045 nm e 1064 nm), durações de pulso (pico e femtossegundos) e protocolos de irradiação (velocidade de escaneamento da superfície, espessura do espécime, método de refrigeração e taxa de repetição de pulso) em esmalte e dentina. Para a Fase 2, os parâmetros de irradiação que apresentaram resultados mais favoráveis na Fase 1 foram analisados para relacionar o aumento de temperatura com a taxa de ablação e a eficiência de ablação para cada parâmetro. A Fase 3 teve como objetivo analisar a interface adesiva e os valores de microtração da dentina irradiada com os parâmetros selecionados e estudados na Fase 2, utilizando sistemas adesivos do tipo condicione e lave e autocondicionante com diferentes protocolos de adesão (Clearfil SE Bond com e sem Primer, Adper Single Bond com e sem condicionamento ácido). Os resultados obtidos na Fase 1 indicam que a dentina e o esmalte irradiados com lasers de femtossegundos de 1045 nm e picossegundos de 1064 nm apresentam superfície rugosa livre de carbonização. Os protocolos de irradiação selecionados mostram que a irradiação deve ser conduzida com maior velocidade de escaneamento da superfície, e não há necessidade de refrigeração durante a irradiação. Todos os parâmetros utilizados promoveram ablação seletiva do substrato dental, e apresentaram maior taxa de ablação para dentina que para esmalte. A Fase 2 permitiu observar que todos os parâmetros de irradiação selecionados não provocaram aumento de temperatura maior que 6,1 ºC para esmalte e 4,6 ºC para dentina, quando o aumento de temperatura foi aferido no lado oposto ao irradiado, em espécimes de 1 mm de espessura e sem refrigeração. Exceção foi observada para a maior potência do laser de picossegundos, para a qual a temperatura aumentou até 12 ºC em esmalte e 15 ºC em dentina. Os valores obtidos no ensaio de microtração variaram de acordo com os parâmetros de irradiação e o sistema adesivo. A adesão à dentina irradiada com lasers de pulsos ultracurtos apresentou valores de resistência adesiva semelhantes ou significantemente maiores que os obtidos nos grupos controle, para todos os parâmetros de irradiação selecionados. Os resultados obtidos neste estudo indicam que os lasers de pulsos ultracurtos apresentaram resultados favoráveis para o preparo cavitário em esmalte e dentina em relação à morfologia produzida na superfície e ao aumento de temperatura provocado durante a irradiação. A resistência adesiva à dentina irradiada foi semelhante, ou mesmo significantemente maior que a obtida nos grupos controle. Portanto, os lasers de pulsos ultracurtos são considerados uma técnica promissora para a realização de intervenção minimamente invasiva com lasers de alta potência. / The development of restorative dentistry has reached the era of esthetic adhesive restorations and minimally invasive approach, for which innovative techniques and advanced materials are constantly introduced. Conservative techniques aim not only to remove carious dental substrate, but also to prepare cavity surfaces for adhesive restoration. The main objective of this study was to evaluate the possibility of introducing ultra-short pulsed lasers in Restorative Dentistry, in attempt to fulfill the basic requirements of adequate conservative restoration, by maintaining the well-known benefits of lasers for caries removal, but also overcoming disadvantages related to current laser sources available for this purpose, such as temperature increase and damaged adhesion to resin composite. In order to better evaluate the interaction between ultra-short pulsed lasers and dental substrates, experimental procedures were divided in three phases. Phase 1 aimed to evaluate the effect of different wavelengths (355 nm, 532 nm, 1,045 nm, and 1,064 nm), pulse durations (pico and femtoseconds) and irradiation protocols (surface scanning speed, sample thickness, cooling method, pulse repetition rate) on enamel and dentin. For Phase 2, laser parameters with most favorable results in Phase 1 were evaluated to relate temperature increase to ablation rate or ablation efficiency. Phase 3 aimed to analyze adhesive interface and microtensile bond strength to dentin irradiated with the selected parameters by using etch-and-rinse and self-etch adhesive systems with different bonding protocols (Clearfil SE Bond with and without Primer, Adper Single Bond with and without acid etching). The results of Phase 1 indicate that dentin and enamel irradiated with 1,045-nm fs-laser and 1,064-nm ps-laser present a rough surface without carbonization. Irradiation should be conducted with higher scanning speed, and no additional cooling during irradiation was necessary. All parameters provided selective tissue ablation, with higher ablations rate for dentin than enamel. Phase 2 indicated that all parameters tested provoked temperature increase of up to 6.1 ºC for enamel and 4.6 ºC for dentin, when temperature increase was measured at the back side of 1-mm thick samples without cooling during irradiation, except for higher power for ps-laser, for which temperature increased up to 12 ºC for enamel and 15 ºC for dentin. Microtensile bond strength values varied according to laser parameters and adhesive systems used. Adhesion to dentin irradiated with ultra-short pulsed lasers resulted in similar or significantly higher bond strength values than control groups, for all laser parameters analyzed. Based on the results of this study, ultra-short pulsed lasers presented favorable results for cavity preparation in dentin and enamel regarding surface morphology and temperature increase. Adhesion to irradiated dentin was either similar or superior to traditional techniques. Thus, ultra-short pulsed lasers are considered a promising technique for the promotion of laser-supported minimally invasive approach.

Bond strength

Dentin. Enamel

Dentina. Esmalte

Femtoseconds

Femtossegundos

High-power lasers

Lasers de alta potência

Microscopia eletrônica de varredura

Microtensile testing

Microtração

Picoseconds

Picossegundos

Pulsos ultracurtos

Resistência adesiva

Scanning electron microscopy

Ultra-short pulses

Reduction of ferric and ferrous compounds in the presence of graphite using mechanical alloying

Moloto, Ledwaba Harry

05 1900

M.Tech. (Department of Chemistry, Faculty of Applied Sciences), Vaal University of Technology / Many oxidic iron compounds—iron oxides; oxy-hydroxides and hydroxides—not only play an important role in a variety of disciplines but also serve as a model system of reduction and catalytic reactions. There are more than 16 identifiable oxidic iron compounds. The reduction of these compounds has been investigated for centuries. Despite this, the reduction behavior of the oxides is not fully understood as yet. To date the reduction mechanism is still plagued with uncertainties and conflicting theories, partly due to the complex nature of these oxides and intermediates formed during the reduction. Thermodynamically, the reduction of iron oxide occurs in steps. For example, during the reduction of hematite (a-Fe2O3) magnetite (Fe3O4) is first formed followed by non-stoichiometric wüstite (Fe1-yO) and lastly metallic iron (a-Fe). The rate of transformation depends on the reduction conditions. Further, this reduction is accompanied by changes in the crystal structure. The reduction behavior of iron oxides using graphite under ball-milling conditions was investigated using Planetary mono mill (Fritsch Pulverisette 6), Mössbauer Spectroscopy (MS), X-ray Diffraction (XRD), Scanning electron microscopy (SEM) and Transmission Electron Microscopy (TEM). It was found that hematite transformed into magnetite, Wüstite and or cementite depending on the milling conditions. The study shows that by increasing the milling time, the rotational speed and / or the ball to powder ratio, the extent of the conversion of hematite to its reduction products increased. Further investigations are required for the elucidation of the reduction mechanism. The reaction og magnetite and graphite at different milling conditions lead to the formation of Fe2+ and Fe3+ species, the former increasing at the expense of Fe3O4. Fe3O4 completely disappeared after a BPR of 50:1 and beyond. The Fe2+ species was confirmed to be due to FeO using XRD analysis. HRSEM images Fe2O3 using scanning electron microscopy prior to and after milling at different times showed significant changes while the milling period was increased, HRSEM images showed that the once well defined hematite particles took ill-defined shapes and also became smaller in size, which was a results of the milling action that induced reaction between the two powders to form magnetite. EDX spectra at different milling times also confirmed formation of magnetite. EDX elemental analysis and quantification confirmed the elemental composition of starting material consisting mainly of iron. Similarly, HRSEM images of Fe3O4 using Scanning electron microscopy (SEM) prior to and after milling at different BPR showed significant changes when the milling period was increased. EDX spectra at different milling times also confirmed formation of partial FeO and EDX elemental analysis and quantification confirmed the elemental composition of starting material consisting mainly of iron than Fe2O3. TEM images of both Fe2O3 and Fe3O4 particles at different milling conditions displayed observable particle damages as a function of milling period.The once well - defined particles (Fe2O3 and Fe3O4 ) successively took ill – defined shapes, possibly accompanied by crystallite size reduction. MAS showed that the reactive milling of α- Fe2O3 and C resulted in reduction to Fe3O4 , FeO and or cementite depending on the milling conditions etc Time, milling speed and BPR variation which influenced the reduction. The study shows that by increasing the milling time, the rotational speed and / or the ball to powder ratio, the extent of the conversion of hematite to its reduction products increased. XRD study investigations even though were unable to detect spm species (Fe2+ and Fe3+ ) which has smaller crystallites below detection limits ,the variation in time showed an increment in the magnetite peaks accompanied by recession of hematite and graphite peaks as the milling time was increased which relates to the MAS observation.XRD also corroborated the data obtained from MAS that showed that the main constituent was magnetite and further evidence in support of the reduction of hematite to magnetite under reactive milling was obtained using XRD . Overall, the work demonstrated selective reduction of Fe2O3 to Fe3O4 and Fe3O4 to FeO by fine tuning the milling conditions. It is envisaged that the reduction of FeO to Fe and possible carburization to FexC could also be achieved.

Dissertations, Academic -- South Africa

Oxidation

Mechanical alloying

Scanning electron microscopy

Transmission electron microscopy

Mössbauer spectroscopy

Iron oxides

Ferric oxide

Ferrous oxide

Hematite

Structural Characterisation, Residual Stress Determination and Degree of Sensitisation of Duplex Stainless Steel Welds

Gideon Abdullah, Mohammed Abdul Fatah, barrygideon@hotmail.com

January 2009

Welding of duplex stainless steel pipeline material for the oil and gas industry is now common practice. To date, research has been conducted primarily on the parent material and heat affected zones in terms of its susceptibility to various forms of corrosion. However, there has been little research conducted on the degree of sensitisation of the various successive weld layers, namely the root, fill and cap layers. The focus of this research study was to: (i) provide an in-depth microstructural analysis of the various weld passes, (ii) study the mechanical properties of the weld regions; (iii) determine degree of sensitisation of the various weld passes; and (iv) investigate the residual stress levels within the various regions/ phases of the welds. Four test conditions were prepared using manual Gas Tungsten Arc Welding with 'V' and 'U' bevel configuration. Structural analysis consisted of (i) optical microscopy, scanning electron microscopy and magnetic force microscopy; (ii) ferrite determination using Magna-Gauge, Fischer Ferrite-scope and Point Count method. Mechanical testing consisted of Vickers hardness measurements, Charpy impact studies and transverse tensile testing. The degree of sensitisation was determined by three test methods: a modified ASTM A262, ASTM A923 and a modified Double Loop Electrochemical Potentiodynamic Reactivation (DL-EPR) test. Residual stress levels were determined using two neutron diffraction techniques: a reactor source and a time of flight spallation source. Microstructure observed by optical microscopy and magnetic force microscopy shows the formation of both fine and coarse structures within the weld metal. There was no evidence of secondary austenite, being present in any of the weld metal conditions examined. In addition, no detrimental intermetallic phases or carbides were present. The DL-EPR test results revealed that the fill layer regions for all four conditions and the base material showed the highest values for Ir/Ia and Qr/Qa. All four test conditions passed the ASTM A262 and A923 qualitative type tests, even under restricted and modified conditions. Residual stress measurements by neutron diffraction conducted at Lucas Heights Hi-Flux Reactor revealed that the ferrite phase stress was tensile in the heat affected zones and weld, and appeared to be balanced by a local compressive austenite phase stresses in the normal and transverse directions. Residual stress measurements by neutron diffraction conducted at Los Alamos Nuclear Science Centre revealed that in the hoop direction, ferrite (211) and austenite (311) exhibit tensile strains in the weld. In the axial and radial direction, the strains for both phases were more compressive. Correlations between the degree of sensitization and microstructural changes / ferrite content were observed. Higher degrees of sensitization (Ir/Ia and Qr/Qa) were associated with reduced ferrite (increased austenite) content. Correlations between the stresses generated, the evolved microstructures and degree of sensitization were evident. Stresses within the cap region were generally shown to be of a tensile nature in the transverse and longitudinal direction. In summary, the study has shown that correlations exist between the weld microstructure, susceptibility to sensitisation and levels / distribution of internal stresses within the weld regions.

Gas Tungsten Arc Welding

Residual Stress

Sensitisation

Intergranular Corrosion

Duplex Stainless Steel

Optical Microscopy

Scanning Electron Microscopy

Magnetic Force Microscopy

Reactor Source

Time of Flight Spallation Source

Neutron Diffraction

Transmission Electron Microscopy of Graphene and Hydrated Biomaterial Nanostructures : Novel Techniques and Analysis

Akhtar, Sultan

January 2012

Transmission Electron Microscopy (TEM) on light element materials and soft matters is problematic due to electron irradiation damage and low contrast. In this doctoral thesis techniques were developed to address some of those issues and successfully characterize these materials at high resolution. These techniques were demonstrated on graphene flakes, DNA/magnetic beads and a number of water containing biomaterials. The details of these studies are given below. A TEM based method was presented for thickness characterization of graphene flakes. For the thickness characterization, the dynamical theory of electron diffraction is used to obtain an analytical expression for the intensity of the transmitted electron beam as a function of thickness. From JEMS simulations (experiments) the absorption constant λ in a low symmetry orientation was found to be ~ 208 nm (225 ± 9 nm). When compared to standard techniques for thickness determination of graphene/graphite, the method has the advantage of being relatively simple, fast and requiring only the acquisition of bright-field (BF) images. Using the proposed method, it is possible to measure the thickness change due to one monolayer of graphene if the flake has uniform thickness over a larger area. A real-space TEM study on magnetic bead-DNA coil interaction was conducted and a statistical analysis of the number of beads attached to the DNA-coils was performed. The average number of beads per DNA coil was calculated around 6 and slightly above 2 for samples with 40 nm and 130 nm beads, respectively. These results are in good agreement with magnetic measurements. In addition, the TEM analysis supported an earlier hypothesis that 40 nm beads are preferably attached interior of the DNA-coils while 130 nm beads closer to the exterior of the coils. A focused ion-beam in-situ lift-out technique for hydrated biological specimens was developed for cryo-TEM. The technique was demonstrated on frozen Aspergillus niger spores which were frozen with liquid nitrogen to preserve their cellular structures. A thin lamella was prepared, lifted out and welded to a TEM grid. Once the lamella was thinned to electron transparency, the grid was cryogenically transferred to the TEM using a cryo-transfer bath. The structure of the cells was revealed by BF imaging. Also, a series of energy filtered images was acquired and C, N and Mn elemental maps were produced. Furthermore, 3 Å lattice fringes of the underlying Al support were successfully resolved by high resolution imaging, confirming that the technique has the potential to extract structural information down to the atomic scale. The experimental protocol is ready now to be employed on a large variety of samples e.g. soft/hard matter interfaces.

Graphene flakes

magnetic beads/DNA coils

hydrated biomaterials

transmission electron microscopy

bright-field/dark-field imaging

high resolution imaging

Growth and characterization of SiC and GaN

Ciechonski, Rafal

January 2007

At present, focus of the SiC crystal growth development is on improving the crystalline quality without polytype inclusions, micropipes and the occurrence of extended defects. The purity of the grown material, as well as intentional doping must be well controlled and the processes understood. High-quality substrates will significantly improve device performance and yield. One of the aims of the thesis is further understanding of polytype inclusion formation as well as impurity control in SiC bulk crystals grown using PVT method also termed seeded sublimation method. Carbonization of the source was identified as a major reason behind the polytype inclusion occurrence during the growth. The aim of this work was further understanding of sublimation growth process of 4H-SiC bulk crystals in vacuum, in absence of an inert gas. For comparison growth in argon atmosphere (at 5 mbar) was performed. The effect of the ambient on the impurity incorporation was studied for different growth temperatures. For better control of the process in vacuum, tantalum as a carbon getter was utilized. The focus of the SiC part of the thesis was put on further understanding of the PVT epitaxy with an emphasis on the high growth rate and purity of grown layers. High resistivity 4H-SiC samples grown by sublimation with high growth rate were studied. The measurements show resistivity values up to high 104 cm. By correlation between the growth conditions and SIMS results, a model was applied in which it is proposed that an isolated carbon vacancy donor-like level is a possible candidate responsible for compensation of the shallow acceptors in p-type 4H-SiC. A relation between cathodoluminescence (CL) and DLTS data is taken into account to support the model. To meet the requirements for high voltage blocking devices such as high voltage Schottky diodes and MOSFETs, 4H-SiC epitaxial layers have to exhibit low doping concentration in order to block reverse voltages up to few keV and at the same time have a low on-state resistance (Ron). High Ron leads to enhanced power consumption in the operation mode of the devices. In growth of thick layers for high voltage blocking devices, the conditions to achieve good on-state characteristics become more challenging due to the low doping and pronounced thicknesses needed, preferably in short growth periods. In case of high-speed epitaxy such as the sublimation, the need to apply higher growth temperature to yield the high growth rate, results in an increased concentration of background impurities in the layers as well as an influence on the intrinsic defects. On-state resistance Ron estimated from current density-voltage characteristics of Schottky diodes on thick sublimation layers exhibits variations from tens of mΩ.cm2 to tens of Ω.cm2 for different doping levels. In order to understand the occurrence of high on-state resistance, Schottky barrier heights were first estimated for both forward and reverse bias with the application of thermionic emission theory and were in agreement with literature reported values. Decrease in mobility with increasing temperature was observed and its dependencies of T–1.3 and T–2.0 for moderately doped and low doped samples, respectively, were estimated. From deep level measurements by Minority Carrier Transient Spectroscopy (MCTS), an influence of shallow boron related levels and D-center on the on-state resistance was observed, being more pronounced in low doped samples. Similar tendency was observed in depth profiling of Ron. This suggests a major role of boron in a compensation mechanism. In the second part of the thesis growth and characterization of GaN is presented. Excellent electron transport properties with high electron saturate drift velocity make GaN an excellent candidate for electronic devices. Especially, AlGaN/GaN based high electron mobility transistors (HEMT) have received an increased attention in last years due to their attractive properties. The presence of strong spontaneous and piezoelectric polarization due to the lattice mismatch between AlGaN and GaN is responsible for high free electrons concentrations present in the vicinity of the interface. Due to the spatial separation of electrons and ionized donors or surface states, 2DEG electron gas formed near the interface of the heterostructure exhibits high sheet carrier density and high mobility of electrons. Al0.23Ga0.77N/GaN based HEMT structures with an AlN exclusion layer on 100 mm semiinsulating 4H-SiC substrates have been grown by hot-wall MOCVD. The electrical properties of the two-dimensional electron gas (2DEG) such as electron mobility, sheet carrier density and sheet resistance were obtained from Hall measurements, capacitance-voltage and contact-less eddy-current techniques. The effect of different scattering mechanisms on the mobility have been taken into account and compared to the experimental data. Hall measurements were performed in the range of 80 to 600 K. Hall electron mobility is equal to 17140 cm2(Vs)-1 at 80 K, 2310 cm2(Vs)-1 at room temperature, and as high as 800 cm2(Vs)-1 at 450 K, while the sheet carrier density is 1.04x1013 cm-2 at room temperature and does not vary very much with temperature. Estimation of different electron scattering mechanisms reveals that at temperatures higher than room temperature, experimental mobility data is mainly limited by optical phonon scattering. At relevant high power device temperature (450 K) there is still an increase of mobility due to the AlN exclusion layer. We have studied the behaviour of Ga-face GaN epilayers after in-situ thermal treatment in different gas mixtures in a hot-wall MOCVD reactor. Influence of N2, N2+NH3 and N2+NH3+H2 ambient on the morphology was investigated in this work. The most stable thermal treatment conditions were obtained in the case of N2+NH3 gas ambients. We have also studied the effect of the increased molar ratio of hydrogen in order to establish proper etching conditions for hot-wall MOCVD growth.

SiC

GaN

Deep level transient spectroscopy

Minority Carrier Transient Spectroscopy

Hall effect

Cathodoluminescence

Scanning electron microscopy

Atomic Force microscopy

sublimation growth

MOCVD

heterostructures

High Electron Mobility transistor

point defects

Material physics with surface physics

Materialfysik med ytfysik