Global ETD Search

21	Estudo in vitro da terapia fotodinâmica antimicrobiana em Candida albicans mediada por azul de metileno e glicose / In vitro study of antimicrobial photodynamic therapy in Candida albicans mediated by methylene blue and glucose SUZUKI, LUIS C. 20 May 2015 (has links) Submitted by Claudinei Pracidelli (cpracide@ipen.br) on 2015-05-20T18:06:29Z No. of bitstreams: 0 / Made available in DSpace on 2015-05-20T18:06:29Z (GMT). No. of bitstreams: 0 / Neste estudo foi proposto um modelo de formação de biofilme fúngico formado por Candida albicans em dois diferentes substratos associado ou não à glicose para o estudo dos efeitos da terapia fotodinâmica (PDT) utilizando o azul de metileno (AM) como fotossensibilizador, avaliando os efeitos de dois comprimentos de onda distintos incluindo a investigação na captação do AM quando sensibilizados previamente com a glicose. Foi avaliada a susceptibilidade da levedura em suspensão de células crescidas por 24 h (início da fase estacionária) com e sem a adição prévia da glicose. Foram investigadas duas linhagens de C. albicans para a padronização do biofilme, ATCC 90028 e ATCC 10231. Com os biofilmes formados, avaliamos a captação de AM para determinarmos a mais eficiente concentração e tempo de pré-irradiação (PIT). Por último, avaliamos sua sensibilidade à PDT em dois comprimentos de onda distintos (λ = 645 nm e λ = 660 nm) em função do tempo de irradiação (potência = 16 mW, taxa de fluência = 127,3 mW/cm2). A linhagem de célula que possibilitou a formação de biofilme foi a ATCC 10231 em discos de hidrogel. A menor concentração que possibilitou uma melhor captação do AM foi de 500 μM com um PIT de 30 min e em contato prévio com a glicose 50 mM por 90 min. O comprimento de onda mais eficiente, que promoveu redução em leveduras e biofilmes foi o de λ = 660 nm, reduzindo melhor no estudo de leveduras quando sensibilizados com glicose. Nos biofilmes, a redução foi iniciada mais precocemente sem a adição de glicose (com 6 min de irradiação e fluência = 46 J/cm2), porém, em 12 min (fluência = 92 J/cm2) o grupo com glicose passou a ter maior eficiência. / Tese (Doutorado em Tecnologia Nuclear) / IPEN/T / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP photodynamic therapy candida yeasts fungal diseases antimicrobial agents methylene blue glucose photosensitivity in vitro
22	Kalibrace citlivosti dozimetru viditelného světla / Sensitivity calibration of visible light dosimeter Škarvadová, Adéla January 2018 (has links) The diploma thesis deals with light dosimeters and modern printing and coating techniques for thin-film formation. The subject of experimental study is the optimization of photosensitive compositions for the preparation of disposable, printed and thin-film dosimeters for visible light. Sensitivity, reproducibility and irreversibility of their color change were optimized. Compositions were calibrated for desired light dose. Functional samples for gallery were fabricated and stability of functional samples were tested at high temperatures of storing.
23	Développement de cellule synthétique comme micro-réacteur pour l'étude de l'activité enzymatique des NO-synthases et la compréhension de leur fonctionnement en conditions physiologiques / Single synthetic cell microreactor for the fundamental understanding of NOS enzymatic activity and its implication in system biology Beauté, Louis 27 May 2019 (has links) Le monoxyde d’azote (NO), un neurotransmetteur important en biologie, a attiré l’attention ces dernières années pour son rôle majeur joué dans l’apparition d’une myriade de maladies telles que certains cancers, diabètes etc. Comprendre les mécanismes biologiques liés à la production du NO pourrait aboutir à la découverte de nouveaux moyens thérapeutiques. Cependant, le fonctionnement de l’enzyme qui produit le monoxyde d’azote, la NO-Synthase, n’est pas complétement élucidé. Dans ce but, des approches biomimétiques peuvent apporter une solution. Les microréacteurs ou proto-cellules, enveloppes imitant sommairement la compartimentation cellulaire sont un outil de choix, permettant de répliquer un environnement contrôlé où les concentrations et distances de réactions sont proches d’une cellule, permettant ainsi d’étudier le fonctionnement de la NO-Synthase. Cette thèse présente trois problématiques qui ont pour but de développer un tel microréacteur encapsulant la NO-Synthase : (1) la libération contrôlé d’espèces réactives déclenchée par un stimulus lumineux, (2) le suivi de l’activité de l’enzyme par des sondes fluorescentes et (3) le contrôle de la réaction enzymatique dans l’espace et dans le temps. Deux systèmes ont été étudiés pour libérer de manière contrôlée des espèces: la première consiste à déstabiliser des nano polymersomes par photo-clivage du copolymère qui le constitue. Le deuxième système est basé sur une rapide augmentation de la pression osmotique par irradiation à l’intérieur des polymersomes, induisant un éclatement de ceux-ci et la libération d’espèces encapsulées. La deuxième problématique abordée est le suivi de l’activité enzymatique au moyen de sondes hydrophobes et hydrophiles fluorescentes qui détectent le monoxyde d’azote à différent endroits du microréacteur. Le dernier point abordé est l’étude des microréacteur et la libération contrôlé en leur sein. / Nitric oxide (NO) has been identified as an important chemical messenger in cells and living organisms. Understanding the mechanism involved in NO production by NO-synthase is of fundamental importance. Mimicking basic cell functions by encapsulating NO-synthase in a controlled and confined cell like environment, could help provide information about the enzyme. Polymersomes resulting from the self-assembly of amphiphilic block copolymers were used as the synthetic cell like microreactor. To this end, three major challenges were addressed in this thesis: (1) controlling species release and concentration inside the microreactor, (2) measuring the enzyme response by NO detection and (3) controlling enzymatic reactions in space and time inside a microreactor. Light was used as the exogenous stimulus to induce release; its application is instantaneous, non-invasive and easy to control spatially and temporally. Two different ways to release species via light excitation were explored. The first strategy involves destabilization of nanopolymersomes by block separation, induced by copolymer photocleavage. The second strategy was to induce fast osmotic pressure increase of the polymersomes internal medium, resulting in bursting and species release. In order to monitor NO production by NO-synthase in different parts of the microreactor, hydrophobic and hydrophilic fluorescent NO probes have been synthesized and studied showing excellent correlation with NO concentration. The release of species inside microreactor was finally achieved in order to control enzymatic reaction. Photosensible Polymersomes Cellule artificielle Enzyme Sonde fluorescente Photosensitivity Polymersomes Protocell Enzyme Fluorescent probe
24	Current concepts of photosensitivity in cutaneous lupus erythematosus Klein, Benjamin, Kunz, Manfred 28 November 2023 (has links) Cutaneous lupus erythematosus (CLE) represents a complex autoimmune disease with a broad phenotypic spectrum ranging from acute to chronic destructive cutaneous lesions. Patients with CLE exhibit high photosensitivity and ultraviolet (UV) irradiation can lead to systemic flares in systemic lupus erythematosus. However, the exact mechanisms how UV irradiation enhances cutaneous inflammation in lupus are not fully understood. Recently, new molecular mechanisms of UV-driven immune responses in CLE were identified, offering potential therapeutic approaches. Especially the induction of type I interferons, central cytokines in lupus pathogenesis which are released by various skin cells, have become the focus of current research. In this review, we describe current pathogenic concepts of photosensitivity in lupus erythematosus, including UV-driven activation of intracellular nucleic acid sensors, cellular cytokine production and immune cell activation. Furthermore, we discuss activated pathways contributing to enhanced apoptosis as well as intracellular translocation of autoantigens thereby promoting CLE upon UV light exposure. info:eu-repo/classification/ddc/610 ddc:610
25	Flashing Light-Evoked Pupil Responses in Subjects with Glaucoma or Traumatic Brain Injury Shorter, Patrick D. 28 May 2015 (has links) No description available. Medicine Neurosciences Ophthalmology Optics
26	Fibre Bragg Grating Components for Filtering, Switching and Lasing Yu, Zhangwei January 2008 (has links) Fibre Bragg gratings (FBGs) are key components for a vast number of applications in optical communication systems, microwave photonics systems, and optical sensors, etc. The main topic of this thesis is fibre Bragg grating fabrication and applications in direct microwave optical filtering, high speed switching and switchable dual-wavelength fibre lasers. First, a brief overview is given about the photosensitivity in optical fibre, basic FBG fabrication techniques, the popular coupled-mode theory for describing fundamental characteristics of FBGs and the Transfer Matrix method for the numerical simulations of complex-structured FBGs. An advanced FBG fabrication system based on the technique of multiple printing in fibre (with a continuous-wave source) has been used to write complex FBGs incorporating phase shifts, apodization and chirp. A single double-peaked superimposed grating working in reflection can be employed as a direct optical filter for millimetre-wave signals. Bit error rate measurements confirmed that the filter exhibited nearly on-off behaviour in the passband with a 3-dB bandwidth of 2 GHz for a central frequency of 20 GHz, as expected from the optical spectrum reflection. The presented technique can be used in radio-over-fibre systems or simultaneous up-conversion of ultra-wide band signals and filtering. This thesis focused mostly on the research of two 4-cm long Hamming-apodized gratings written in side-hole fibres with internal electrodes. The temperature dependence measurements showed that the birefringence of the component increased with the temperature. Dynamic measurement has shown nanosecond full off-on and on-off switching. During the electrical pulse action, the grating wavelength was blue-shifted for the x-polarization and red-shifted for the y-polarization due to the mechanical stress. Both peaks subsequently experienced a red-shift due to the relaxation of mechanical stress and the increasing core temperature transferred from the metal in many microseconds. All the wavelength shifts of the two polarizations depend quadratically on the electrical pulse voltage and linearly on the pulse duration. Numerical simulations gave accurate description of the experimental results and were useful to understand the physics behind the birefringence switching. Finally, two switchable dual-wavelength erbium-doped fibre lasers based on FBG feedback were proposed. In one method, an overlapping cavity for the two lasing wavelengths and hybrid gain medium in the fibre laser were introduced. Dual-wavelength switching was achieved by controlling the Raman pump power. The other method employed an injection technique and the dual-wavelength switching was controlled by the power of the injection laser. The switching time was measured to be ~50 ms. Detailed characteristics of the dual-wavelength switching in the two fibre lasers were experimentally studied and corresponding principles were physically explained. / QC 20100922 fibre Bragg grating photosensitivity apodization chirp phase-shift microwave optical filtering Elektroteknik, elektronik och fotonik
27	Development and advanced characterization of novel chemically amplified resists for next generation lithography Lee, Cheng-Tsung 19 September 2008 (has links) The microelectronics industry has made remarkable progress with the development of integrated circuit (IC) technology which depends on the advance of micro-fabrication and integration techniques. On one hand, next-generation lithography (NGL) technologies which utilize extreme ultraviolet (EUV) and the state-of-art 193 nm immmersion and double patterning lithography have emerged as the promising candidates to meet the resolution requirements of the microelectronic industry roadmap. On the other hand, the development and advanced characterization of novel resist materials with the required critical imaging properties, such as high resolution, high sensitivity, and low line edge roughness (LER), is also indispensable. In conventional multi-component chemically amplified resist (CAR) system, the inherent incompatibility between small molecule photoacid generator (PAG) and the bulky polymer resin can lead to PAG phase separation, PAG aggregation, non-uniform PAG and acid distribution, as well as uncontrolled acid migration during the post-exposure baking (PEB) processes in the resist film. These problems ultimately create the tri-lateral tradeoff between achieving the desired lithography characteristics. Novel resist materials which can relief this constraint are essential and have become one of the most challenging issues for the implementation NGL technologies. This thesis work focuses on the development and characterization of novel resist materials for NGL technologies. In the first part of the thesis work, advanced characterization techniques for studying resist fundamental properties and lithographic performance are developed and demonstrated. These techniques provide efficient and precise evaluations of PAG acid generation, acid diffusivity, and intrinsic resolution and LER of resist materials. The applicability of these techniques to the study of resist structure-function relationships are also evaluated and discussed. In the second part of the thesis work, the advanced characterization and development of a novel resist system, the polymer-bound-PAG resists, are reported. The advantages of direct incorporation of PAG functionality into the resist polymer main chain are investigated and illustrated through both experimental and modeling studies. The structure-function relationships between the fundamental properties of polymer-bound-PAG resists and their lithographic performance are also investigated. Recommendations on substantial future works for characterizing and improving resist lithographic performance are discussed at the end of this thesis work. Resolution Photosensitivity Line edge roughness Polymer-bound-PAG resist Lithography Chamically amplified resist Microelectronics Photoresists Microlithography Integrated circuits
28	Estudo dos efeitos da terapia fotodinâmica em periodontite induzida em ratos YAMADA JUNIOR, AECIO M. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:53:35Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:09:32Z (GMT). No. of bitstreams: 0 / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP PHOTODYNAMIC THERAPY DENTISTRY ANTIMICROBIAL AGENTS METHYLENE BLUE RATS BACTERIA PHOTOSENSITIVITY lasers IN VIVO IN VITRO LASER RADIATION ORAL CAVITY
29	Estudo dos efeitos da terapia fotodinâmica em periodontite induzida em ratos YAMADA JUNIOR, AECIO M. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:53:35Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:09:32Z (GMT). No. of bitstreams: 0 / O objetivo deste trabalho foi observar a ação da terapia fotodinâmica (PDT) antimicrobiana do azul de metileno (AM) frente ao Aggregatibacter actinomycetemcomitans em estudo in vitro e em periodontite induzida em ratos. No estudo in vitro foram utilizadas suspensões de cultura de A. Actinomycetemcomitans selvagens na avaliação de diferentes parâmetros de irradiação na busca de otimizar a redução bacteriana. No estudo in vivo foram selecionados 20 ratos Wistar machos, adultos, com massa corpórea semelhante de aproximadamente 300 g. Os animais foram submetidos a uma antibioticoterapia durante cinco dias. A indução foi elaborada através da colocação de ligaduras embebidas em A. actinomycetemcomitans por um período de 15 dias. Após este período, observou-se clinicamente e por sondagem a presença da doença sendo os animais divididos em dois grupos: Grupo RM (n=10) - remoção mecânica de placa e Grupo RM + PDT (n=10) - remoção mecânica de placa + terapia fotodinâmica. Para a PDT, o azul de metileno a 0,01% foi aplicado topicamente diretamente nas bolsas periodontais que foram então irradiadas com um laser de emissão vermelha, A = 660nm, P= 100 mW, t= 54s e E= 5,4 J. Foram realizadas coletas microbiológicas antes, imediatamente após tratamento, 3 dias e sete dias para análises por cultura e reação de polimerase em cadeia (PCR). Os resultados microbiológicos obtidos no experimento in vitro apresentaram uma eficácia da terapia fotodinamica frente ao A. actinomycetemcomitans, 98,4% quando irradiado com uma energia de 5,4J e 99,9% com energia de 9J. No estudo in vivo, foi obtida uma redução microbiana de 93,5% no grupo RM+PDT, frente a uma redução de 87,7% no grupo RM. No controle do dia 7 foi observado uma recolonização em ambos os grupos. As análises por PCR confirmaram a presença do microorganismo em todas as coletas. Estes estudos sugerem que a terapia fotodinâmica pode ser uma alternativa promissora para sua utilização coadjuvante em periodontia. / Tese (Doutoramento) / IPEN/T / Instituto de Pesquisas Energéticas e Nucleares - IPEN-CNEN/SP photodynamic therapy dentistry antimicrobial agents methylene blue rats bacteria photosensitivity lasers in vivo in vitro laser radiation oral cavity
30	Xeroderma Pigmentosum A Deficiency Results in Increased Generation of Microvesicle Particles in Response to Ultraviolet B Radiation Christian, Lea Rajeshkumar 28 May 2021 (has links) No description available. Pharmacology Toxicology Photosensitivity Xeroderma Pigmentosum A XPA Microvesicle particles MVP Platelet Activating Factor PAF Ultraviolet B Radiation UVB

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