Global ETD Search

11	Evaluation de la pression intracrânienne absolue par une technologie non invasive auditive / Evaluation of absolute intracranial pressure by non-invasive auditory technology Gonzalez Torrecilla, Sandra 06 September 2019 (has links) Il n'existe pas de méthode non invasive validée pour déterminer la valeur absolue de la pression intracrânienne (PIC). Le liquide céphalorachidien (LCS) et le liquide cochléaire sont reliés par l'aqueduc cochléaire. Le but de ce projet est d'utiliser l'absorbance de l'oreille, optimale lorsque les structures vibrantes sont en position de repos, de sorte que les étriers lorsque la pression à l'extérieur de l'oreille (dans le conduit auditif externe -P_cae ) contrarie la PIC par les osselets de l'oreille moyenne. Les sujets ont été testés dans différentes positions d'inclinaison du corps, ce qui augmente la PIC, à l'aide d'un tympanomètre à large bande. 78 oreilles (sujets témoins entre 20 et 30 ans) ont montré que l'absorbance est maximale à toutes les fréquences à P_cae = 0 mmH2O en position début, elle diminue de façon complexe à P_cae zéro, mais à nouveau identique l'absorbance maximale à P_cae = 13 mm H2O ± 7 en position allongée, et 23 mm H2O ± 14 en position Trendelenburg (-30°), en 68 oreilles sur 78. Les 10 oreilles restantes présentaient un dysfonctionnement anatomique. Un modèle physique a été établi à partir d'un modèle d'oreille électromécanique classique, qui reproduit le comportement observé en attribuant à la PIC la cause des changements d'absorbance et en prédisant la capacité du P_cae pour compenser les changements d'absorbance dus à la PIC. De plus, 3 patients traités par un test de perfusion ont été testés, ainsi que 2 patients traités par ponction lombaire. Ces patients ont montré l'effet de la pression positive et négative dans les courbes d'absorbance. La littérature permet d'établir une corrélation entre la PIC absolue (dans chaque position du corps) et l'absorbance, nous pouvons conclure qu'en raison de la géométrie de l'oreille moyenne, la relation d'équilibre entre les valeurs absolues est PIC = 15 x P_cae , où 15 est le rapport des surfaces entre la MT et la platine de l’étrier. Des sujets suivis par une mesure invasive de la PIC seront nécessaires pour la continuation de cette étude. / There is no validated non-invasive method for determining the absolute value of intracranial pressure (ICP). Ear connect cerebrospinal fluid (CSF) and cochlear fluid via cochlear aqueduct. The goal of this project is to use ear absorbance, optimal when the vibrating structures are in resting position, so the stapes when the pressure outside the ear (in the external ear canal -Peec) counteracts the ICP through the middle ear ossicles. Subjects are testing in different tilt body position, which increase ICP, using a tympanometer Wideband. 78 ears of control subjects between 20 and 30 years have shown that the absorbance is maximum at all frequencies at Peec = 0 mmH2O in standing posture, decreases in a complex way at zero Peec, but again identical to the maximum absorbance at Peec = 13 mm H2O ± 7 in supine, and 23 mm H2O ± 14 in Trendelenburg posture (-30 °), this in 68 ears out of 78. The remaining 10 ears had an anatomical dysfunction. A physical model was established from a classical electromechanical ear model, which reproduces the observed behavior by attributing to the ICP the cause of changes in absorbance and predicting the ability for Peec to offset the absorbance changes due to ICP. Furthermore, 3 patients treated with a perfusion test were tested as well as 2 patients treated by a lumbar puncture. These patients showed the effect of positives and negatives pressure in absorbance curves. Literature make possible a correlation between absolute ICP (in every tilt body position) and absorbance, we can conclude that due to the geometry of the middle ear, the equilibrium relationship between absolute values is ICP = 15 x Peec, where 15 is the ratio of the areas between the tympanic membrane and the stape plate. Subjects tested by invasive measurement of ICP will be required for the continuation of this study. Pression intracrânienne Inclinaison du corps Hydrocéphalie Ponction lombaire soustractive Absorbance Intracranial pressure Tilt body position Hydrocephalus Subtractive lumbar puncture Absorbance
12	Pollution anthropique de cours d'eau : caractérisation spatio-temporelle et estimation des flux / Anthropogenic pollution of rivers : spatiotemporal caracterisation and estimation of the flows Assaad, Aziz 24 April 2014 (has links) La Directive Cadre sur l'Eau exige le retour au bon état des cours d'eau en Europe. Ces cours d'eau reçoivent en effet différentes pollutions liées aux différentes activités économiques des populations installées le long de leurs rives. On s'intéresse souvent de façon isolée à des types particuliers de pollution: pollution agricole dues aux pesticides, engrais et résidus d'élevage en milieu rural, pollution spécifique d'une industrie (sidérurgie, papeterie, etc.), pollution domestique plus ou moins bien traitée, etc. Or dans de nombreux cas, on a affaire à un mélange de polluants. Dans le cas de la Moselle, la pollution générée par les activités humaines dans la partie française du bassin versant de la Moselle impacte la qualité des eaux de surface en aval, et donc celle du Rhin. Notre but est de contribuer à caractériser l’état de certains affluents de la Moselle (Madon, Meurthe, Vologne et Fensch) en fonction de leurs pressions anthropiques et de proposer une stratégie pour calculer les flux des polluants le long de ces cours d’eau. Dans ce contexte des compagnes de prélèvement avec un pas spatial fin. Outre les paramètres habituels de caractérisation de l’état des masses d’eau (conductivité, pH, carbone organique dissous, azote ammoniacal, nitrates, etc.) une attention particulière a été portée aux propriétés optiques (absorbance UV-visible, fluorescence synchrone) de la matière organique dissoute afin de mieux comprendre son origine. Les spectres de fluorescence synchrone ont été étudiés par déconvolution ou par analyse en composantes principales. En outre une méthode a été développée, basée sur la spectroscopie de fluorescence synchrone, pour détecter la présence des azurants optiques. Enfin une méthodologie a été mise au point appliquée au Madon pour calculer les flux journaliers moyens de pollution à chaque station d'échantillonnage pour chaque période d'échantillonnage à partir de données géographiques. Cette méthode permet ensuite d’évaluer les flux de pollution / The Water Framework Directive demands a return to good condition for rivers in Europe. These rivers receive different types of pollution related to various economic activities of populations installed along their banks. We are often interested in an isolated manner to particular types of pollution: pollution due to agricultural pesticides, fertilizers and livestock waste in rural areas, pollution due to a specific industry (steel, paper mill, etc.), more or less well treated domestic pollution, etc. But in many cases, we are dealing with a mixture of pollutants. In the case of the Moselle, the pollution generated by human activities in the French part of the Moselle watershed impacts surface water quality downstream and therefore the Rhine. Our goal is to characterize the state of some tributaries of the Moselle (Madon, Meurthe, Vologne and Fensch) versus anthropogenic pressures and propose a strategy to calculate the flow of pollutants along these rivers. In this context, sampling campaigns with a dense spatial stations have been organized. In addition to the usual parameters characterizing water quality (conductivity, pH, dissolved organic carbon, ammonia nitrogen, nitrate, etc.) a particular attention has been given to optical properties (UV-visible absorbance, synchronous fluorescence) of dissolved organic matter in order to understand its origin. Synchronous fluorescence spectra were studied by deconvolution or by principal components analysis. A method has been developed, based on the synchronous fluorescence spectroscopy, to detect the presence of optical brighteners. Finally, a methodology has been developed in Madon watershed in order to calculate the mean daily pollution flux at each sampling station for each sampling period from geographic data Pollution anthropique Activités humaines Absorbance UV-visible Fluorescence synchrone Flux de pollution Anthropogenic pollution Economic activities UV-visible absorbance Synchronous fluorescence Pollution flux 628.168
13	Absorbance Modulation Optical Lithography: Simulating the Performance of an Adaptable Absorbance Mask in the Near-Field. Foulkes, John Edward January 2010 (has links) The challenge for lithography today is to continue the reduction of feature size whilst facing severe theoretical and practical limitations. In 2006 Rajesh Menon and Hank Smith proposed a new lithography system named absorbance modulation optical lithography (AMOL) [Menon 2006]. AMOL proposed replacing the normal metal mask of a lithography system with an absorbance modulation layer (AML), made from a photochromic material. This allows, through the competition between two incident wavelengths, the creation of an adaptive absorbance mask. The AML allows intimate contact to an underlying resist and hence the optical near-field may be used to create sub-diffraction limited exposures. The aim of this thesis is to model AMOL and demonstrate the abilities and the limits of the system, particularly focusing on sub-diffraction limited imaging. This thesis describes the construction of a vector electromagnetic simulation to explore the idea and performance of AMOL, and an exploration of the ability of AMOL to propagate sub-diffraction limited images into a photoresist. A finite element method (FEM) model was constructed to simulate the formation of apertures in the AML and light transmission through the system. Three major areas of interest were explored in this thesis; the effect of polarisation on imaging, using a plasmonic reflector layers (PRLs) to improve the depth of focus (DOF), and introducing a superlens to AMOL. Investigations of polarisation demonstrated strong preference for a transverse magnetic (TM) polarised exposing wavelength for near-field exposures. Associated with polarisation, and supporting work with absorbance gratings, the importance of the material parameters of the AML in allowing sub-diffraction limited exposures was discussed. It was also noted that, in common with all near-field systems, the depth of focus (DOF) was poor, worse than comparable metal systems. This thesis also demonstrates that the introduction of a PRL can improve the DOF and process latitude for resist thicknesses up to 60 nm and, although performance was reduced when using a silver PRL, the substantial improvements to the DOF and process latitude make a PRL valuable for an AMOL system. This thesis also models the superlens to an AMOL system, which theoretically allows propagation of the image in the near-field. It is demonstrated that the superlens can project an AMOL image into an underlying resist, but that this image is degraded, especially for thick and non-ideal superlenses. The superlens does have a second useful effect, as it can act as a dichroic filter; decreasing the intensity ratio in the resist by a factor of ten, overcoming issues of resist sensitivity. The superlens can allow image projection and filtering with AMOL, however improvements to the available superlens materials or changes to the AML will be needed to avoid image deterioration. This thesis has developed the first full-vector model of an absorbance modulation optical lithography (AMOL) system. This model has been used to increase the understanding of the complex effects that go into the creation of sub-diffraction limited features with AMOL. In particular the model has been used to investigate polarisation, PRLs and superlenses in AMOL. This thesis demonstrates the ability of AMOL to create narrow apertures and sub-diffraction limited exposures in a photoresist, and describes the limitations of AMOL, including material parameters and DOF. AMOL is a new and interesting lithography technique; this thesis simulates the abilities and challenges of sub-diffraction lithography using an AMOL system. Lithography AMOL Finite Element Method Superlens plasmonics Gratings
14	Avaliação da radiação UV na córnea humana em procedimentos oftalmológicos / Evaluation of UV radiation on human cornea in ophthalmic procedures Lincoln, Victor Antonio Cacciacarro 10 August 2012 (has links) A radiação ultravioleta pode tanto ser um benefício, como um malefício para o olho humano. Os benefícios são quando é utilizada em procedimentos oftalmológicos para a correção da visão, como nas cirurgias foto-refrativas - UVC - 193 nm; ou para, entre outros tratamentos, impedir a progressão de patologias, como é o caso do crosslinking do colágeno corneano, para ceratocones em estágios inicias que utiliza UVA - 370 nm. Os malefícios são os já amplamente conhecidos pela comunidade científica e populacional, sobre a incidência excessiva de radiação UV nos olhos, causando danos severos ao olho humano. Entretanto, a córnea tem uma proteção natural contra os raios UVA e UVB. Neste trabalho, estudou-se os dois procedimentos oftalmológicos citados a fim de investigar possíveis danos ao olho humano, como a perda da proteção natural da córnea pós cirurgia foto-refrativa, que retira lamelas da córnea; e a quantidade de radiação que adentra o olho humano, durante o crosslinking do colágeno corneano, que utiliza Riboflavina como sintetizador e bloqueador da radiação UVA. Um sistema portátil foi desenvolvido para avaliação da proteção UV e seus danos para o primeiro caso. O protótipo consiste de um sistema de duplo feixe e analisa a transmitância do tecido corneano na faixa de 300-400 nm, e apresenta um fator de correlação r2>0,98. As medidas com remoção de tecido indicaram a importância das camadas da córnea, e a remoção do estroma apresentou uma perda significativa da proteção natural UV, com aumento de 8,2-10,1 pontos percentuais. Já para o crosslinking, que utiliza a combinação riboflavina e UVA, com irradiância de 3 mw/\'CM POT.2\' por 30 minutos foi feito o monitoramento da transmitância UVA durante o tratamento. Foi realizado o protocolo do procedimento atual, ou seja, uma gota de Riboflavina 0,1%, 400mOsm, foi instilada na córnea desepitelizada, a cada 5 minutos (total de 12 gotas). A irradiação UV (365 ± 5 nm, 3 mW/\'CM POT.2\') foi realizada após 30 min de instalação por uma adicional de mais 30 min. A transmitância média da córnea desepitelizada sem Riboflavina foi de 61,6%; após a 1ª instilação de Riboflavina a transmitância foi de 44,9%; após a 6ª gota 22,4%; após a 7ª gota (início da irradiação), 19,5%; após a 8ª gota, 17,3%; após a 9ª, 15,8%; após a 10ª; 14,5%; após a 11ª; 13,5%; e após a 12ª instilação, 12,6%. A transmitância média em termos de energia durante os 30 min de irradiação apresentou uma variação de 0,590 até 0,380 mW/\'CM POT.2\', valores além do limite atualmente aceito para endotélio de córneas de coelhos, que apresenta um nível de segurança citotóxico de 0,36 mW/\'CM POT.2\'. / Ultraviolet radiation can either be a benefit as an harm to the human eye. The benefits are when used in ophthalmic procedures for vision correction, as in the photorefractive surgery - UVC - 193 nm; or to, among other treatments, preventing the progression of diseases, such as the corneal collagen crosslinking, for keratoconus in the early stages - that uses UVA - 370 nm. The harm effects are already widely known by the scientific community and general population, about excessive incidence of UV radiation in the eye, that can cause severe damage to the human eye. However, the cornea has a natural UVA and UVB protection. In this work, we studied the two ophthalmic procedures cited in order to investigate possible damage to the human eye, as the loss of cornea UV natural protection after photorefractive surgery, which removes corneal lamella; and the amount of radiation that penetrates the human eye during the corneal collagen crosslinking, that uses Riboflavin as a synthesizer and UVA radiation blocking. A portable system was developed to evaluate the UV protection and the UV damage for the first case. The prototype consists of a double beam system that analyzes the corneal tissue transmittance in the 300-400 nm range, and presents a correlation factor r2>0.98. Measurements with tissue removal showed the importance of each corneal layer, specially the stroma removal that shows a significant loss of natural UV protection, with an increase of 8.2 to 10.1 percentage points. As for the crosslinking, using riboflavin and UVA irradiance combination, with 3 mw/\'CM POT.2\' for 30 minutes, was performed a monitoring of UVA transmittance during treatment. Current procedure protocol was performed, i.e., one drop of riboflavin 0.1%, 400mOsm, was applied on the naked cornea, every 5 minutes (total of 12 drops). The UV irradiation (365 ± 5 nm, 3 mW/\'CM POT.2\') was performed after 30 min of instillation for an additional 30 min. The average transmittance of the desepithelized cornea without Riboflavin is 61.6%; after the 1st drop of Riboflavin, transmittance is 44.9%; after 6th drop 22.4%; after 7th drop (irradiation starts), 19.5%; after 8th drop; 17.3%; after 9th drop, 15.8%; after 10h drop, 14.5%; after 11th drop, 13.6%; after 12th drop, 12.6%. The average transmittance in terms of energy during the 30 min irradiation procedure fluctuated from 0.590 to 0.380 mW/\'CM POT.2\', beyond the currently accepted rabbit corneal endothelium safety limit for cytotoxic level of 0.360 mW/\'CM POT.2\'. Absorbance Absorbância Cornea Córnea Crosslinking Crosslinking Transmitância Transmittance Ultraviolet Ultravioleta UV UV
15	"Contribuição para o estudo da propagação da luz atráves do esmalte e da dentina humanos" / A Contribution for the Study of the Propagation of Light through the Human Enamel and Dentine Steagall Junior, Washington 01 June 2005 (has links) Este trabalho estuda a propagação da luz no esmalte e dentina humanos, através da transmitância direta e absorbância no intervalo de comprimento de onda de 200 a 3200nm, e através da transmitância total no intervalo de onda de 380 a 760nm. Foram utilizadas secções de 30 molares humanos íntegros, que foram seccionados nos sentidos VL (vestíbulo Lingual), MD (mésio distal) e OC (ocluso cervical). As espessuras utilizadas foram de 0,5mm e 0,25mm. Foram agrupados 5 dentes para cada sentido para cada espessura. Esmalte e dentina estavam presentes de maneira simultânea na mesma amostra. A absorbância foi calculada, a partir dos espectros de transmitância direta, aplicando-se a Lei e Beer-Lambert. Os espectros de transmitância total foram obtidos no espectro visível, e comparados, em média, com os espectros de transmitância direta no mesmo intervalo, para obter a energia difusa das amostras. Os espectros UV (Ultravioleta), VIS (Visível) e IV (Infravermelho), foram tratados separadamente para cada tecido e espessura. No infravermelho foram identificados os picos de transmitância e absorbância para ambos os tecidos. Os valores de transmitância e absorbância para cada faixa espectral foram tratados pela ANOVA, e os grupos comparados pelo teste de intervalo de confiança (95%). Os resultados mostraram que, as propriedades ópticas do esmalte e dentina diferem no que diz respeito as 3 faixas espectrais testadas. Os resultados também mostram que as propriedades ópticas são dependentes da espessura e do sentido de seccionamento dos dentes. A pesar das diferenças apresentadas entre os espectros, as curvas espectrais mostraram um padrão semelhante para todas as amostras de dentina e de esmalte, independente da espessura. Este comportamento possibilitou a identificação de picos comuns nos espectros estudados. / This research studies the propagation of light in the human enamel and dentine, through direct transmittance and absorbance in the 200 to 3200nm wavelength interval, and through total transmittance in the 380 to 760nm wavelength interval. The study employed sections of 30 human integral molars, which were sectioned in the VL directions (vestibule Lingual), MD (mesio distal), and OC (occlusion cervical). The thicknesses used were from 0.5mm to 0.25mm. Five teeth were grouped in each direction for each thickness. Enamel and dentine were simultaneously present in the same sample. Absorbance was calculated from the direct transmittance specters, applying the Beer-Lambert Law. Total transmittance specters were obtained in the visible specter, and compared, on average, with the Total transmittance specters in the same interval, to obtain the diffuse energy of the samples. UV (Ultraviolet), VIS (Visible), and IV (Infrared) specters, were treated separately for each tissue and thickness. In infrared, the transmittance and absorbance peaks were identified for both tissues. The transmittance and absorbance spectral range were treated by ANOVA, and the groups compared by the confidence interval test (95%). The results showed that the optical properties of the enamel and dentine differ with regard to the three tested spectral ranges. The results also showed that the optical properties are dependent on the thickness and the direction of the sectioning of the teeth. Despite the differences found between the specters, the special curves showed a similar pattern for all samples of dentine and enamel, independently of the thickness. This behavior allowed the identification of common peaks in the specters under study. Absorbance Absorbância Dentina Dentine Enamel Esmalte Espectrofotometria Light Luz Spectrophotometry Transmitância Transmittance
16	An Assessment of Fluorometric Techniques for Tracking the Transport of Polycyclic Aromatic Hydrocarbons from Groundwater into Surface Water Bodies Seyitmuhammedov, Kyyas 27 July 2014 (has links) "A number of fluorometric techniques have been applied to characterize contamination associated with oil discharges and spills in the environment. While these techniques provide quick and lower cost alternatives to the many of the advanced techniques for characterizing oil-related constituents, their applicability still isn’t fully understood. The objectives of this research were to understand the characteristics of organic transport in a linked surface-water/ground-water system, and develop some practical approaches using fluorometry to characterize the pathways of organic transport. The approach included modeling, field sampling and comparisons of laboratory analyses to assess basic field fluorometry techniques for characterizing sources and distributions of polycyclic aromatic hydrocarbons (PAHs) associated with oil discharges. The primary field site included a canal and nearby river, which resulted in generally uniform hydraulic gradient, such that petroleum and PAH contamination at the site could be characterized. Historical data provided general information on the distribution of contamination. Modeling using the Modflow groundwater flow package provided basic information on groundwater flow pathways and rates. Samples were collected from the canal, groundwater, the river and a treatment facility. Additional samples were collected from Bayou Corne sinkhole in Lousiana and the Deepwater Horizon crude oil spill in the Gulf of Mexico. The samples were analyzed for fluorometric absorbance using a 10AU field fluorometer, a Shimadzu absorbance spectrometer and a LS5 luminescence spectrometer (which provided fluorescence over a spectrum of frequencies). Additional analyses were completed using a gas chromatograph with a flame ionization detector (GC-FID) to provide a more complete qualitative description of the oil composition. Analysis of the results from the 10-AU field fluorometer confirmed the capability of the field fluorometer to detect organic contamination resulting from crude and refined oil spills. Absorbance spectrometer results demonstrated possibility of using the PAH absorbance spectra to distinguish between the different types of oil, although more detailed analyses using various types of oil is recommended. The results using the luminescence spectrometer were consistent with GC FID results, and provided useful comparisons indicating the characteristics of fresh and weathered oil. The comparisons provide insight into the applicability of fluorometric approaches for characterizing transport pathways and concentrations of organic constituents associated with discharges of oil and other PAHs." fluorescence spectra field fluorometer absorbance spectra fluorometric techniques polycyclic aromatic hydrocarbons
17	Avaliação da radiação UV na córnea humana em procedimentos oftalmológicos / Evaluation of UV radiation on human cornea in ophthalmic procedures Victor Antonio Cacciacarro Lincoln 10 August 2012 (has links) A radiação ultravioleta pode tanto ser um benefício, como um malefício para o olho humano. Os benefícios são quando é utilizada em procedimentos oftalmológicos para a correção da visão, como nas cirurgias foto-refrativas - UVC - 193 nm; ou para, entre outros tratamentos, impedir a progressão de patologias, como é o caso do crosslinking do colágeno corneano, para ceratocones em estágios inicias que utiliza UVA - 370 nm. Os malefícios são os já amplamente conhecidos pela comunidade científica e populacional, sobre a incidência excessiva de radiação UV nos olhos, causando danos severos ao olho humano. Entretanto, a córnea tem uma proteção natural contra os raios UVA e UVB. Neste trabalho, estudou-se os dois procedimentos oftalmológicos citados a fim de investigar possíveis danos ao olho humano, como a perda da proteção natural da córnea pós cirurgia foto-refrativa, que retira lamelas da córnea; e a quantidade de radiação que adentra o olho humano, durante o crosslinking do colágeno corneano, que utiliza Riboflavina como sintetizador e bloqueador da radiação UVA. Um sistema portátil foi desenvolvido para avaliação da proteção UV e seus danos para o primeiro caso. O protótipo consiste de um sistema de duplo feixe e analisa a transmitância do tecido corneano na faixa de 300-400 nm, e apresenta um fator de correlação r2>0,98. As medidas com remoção de tecido indicaram a importância das camadas da córnea, e a remoção do estroma apresentou uma perda significativa da proteção natural UV, com aumento de 8,2-10,1 pontos percentuais. Já para o crosslinking, que utiliza a combinação riboflavina e UVA, com irradiância de 3 mw/\'CM POT.2\' por 30 minutos foi feito o monitoramento da transmitância UVA durante o tratamento. Foi realizado o protocolo do procedimento atual, ou seja, uma gota de Riboflavina 0,1%, 400mOsm, foi instilada na córnea desepitelizada, a cada 5 minutos (total de 12 gotas). A irradiação UV (365 ± 5 nm, 3 mW/\'CM POT.2\') foi realizada após 30 min de instalação por uma adicional de mais 30 min. A transmitância média da córnea desepitelizada sem Riboflavina foi de 61,6%; após a 1ª instilação de Riboflavina a transmitância foi de 44,9%; após a 6ª gota 22,4%; após a 7ª gota (início da irradiação), 19,5%; após a 8ª gota, 17,3%; após a 9ª, 15,8%; após a 10ª; 14,5%; após a 11ª; 13,5%; e após a 12ª instilação, 12,6%. A transmitância média em termos de energia durante os 30 min de irradiação apresentou uma variação de 0,590 até 0,380 mW/\'CM POT.2\', valores além do limite atualmente aceito para endotélio de córneas de coelhos, que apresenta um nível de segurança citotóxico de 0,36 mW/\'CM POT.2\'. / Ultraviolet radiation can either be a benefit as an harm to the human eye. The benefits are when used in ophthalmic procedures for vision correction, as in the photorefractive surgery - UVC - 193 nm; or to, among other treatments, preventing the progression of diseases, such as the corneal collagen crosslinking, for keratoconus in the early stages - that uses UVA - 370 nm. The harm effects are already widely known by the scientific community and general population, about excessive incidence of UV radiation in the eye, that can cause severe damage to the human eye. However, the cornea has a natural UVA and UVB protection. In this work, we studied the two ophthalmic procedures cited in order to investigate possible damage to the human eye, as the loss of cornea UV natural protection after photorefractive surgery, which removes corneal lamella; and the amount of radiation that penetrates the human eye during the corneal collagen crosslinking, that uses Riboflavin as a synthesizer and UVA radiation blocking. A portable system was developed to evaluate the UV protection and the UV damage for the first case. The prototype consists of a double beam system that analyzes the corneal tissue transmittance in the 300-400 nm range, and presents a correlation factor r2>0.98. Measurements with tissue removal showed the importance of each corneal layer, specially the stroma removal that shows a significant loss of natural UV protection, with an increase of 8.2 to 10.1 percentage points. As for the crosslinking, using riboflavin and UVA irradiance combination, with 3 mw/\'CM POT.2\' for 30 minutes, was performed a monitoring of UVA transmittance during treatment. Current procedure protocol was performed, i.e., one drop of riboflavin 0.1%, 400mOsm, was applied on the naked cornea, every 5 minutes (total of 12 drops). The UV irradiation (365 ± 5 nm, 3 mW/\'CM POT.2\') was performed after 30 min of instillation for an additional 30 min. The average transmittance of the desepithelized cornea without Riboflavin is 61.6%; after the 1st drop of Riboflavin, transmittance is 44.9%; after 6th drop 22.4%; after 7th drop (irradiation starts), 19.5%; after 8th drop; 17.3%; after 9th drop, 15.8%; after 10h drop, 14.5%; after 11th drop, 13.6%; after 12th drop, 12.6%. The average transmittance in terms of energy during the 30 min irradiation procedure fluctuated from 0.590 to 0.380 mW/\'CM POT.2\', beyond the currently accepted rabbit corneal endothelium safety limit for cytotoxic level of 0.360 mW/\'CM POT.2\'. Absorbância Córnea Crosslinking Transmitância Ultravioleta UV Absorbance Cornea Crosslinking Transmittance Ultraviolet UV
18	Consensus Statement: Eriksholm Workshop on Wideband Absorbance Measures of the Middle Ear Feeney, M. Patrick, Hunter, Lisa L., Kei, Joseph, Lilly, David J., Margolis, Robert H., Nakajima, Hideko Heidi, Neely, Stephen T., Prieve, Beth A., Rosowski, John J., Sanford, Chris A., Schairer, Kim S., Shahnaz, Navid, Stenfelt, Stefan, Voss, Susan E. 01 January 2013 (has links) On the final morning of the Workshop the participants discussed areas of consensus for the topic of the Workshop: Wideband Absorbance Measures of the Middle Ear. The discussion ranged across a number of topics and the following statements contain areas on which there was general agreement. audiology middle ear wodeband absorbance Audiology and Speech-Language Pathology Speech and Hearing Science Speech Pathology and Audiology
19	Alternative Ear-Canal Measures Related to Absorbance Neely, S. T., Stenfelt, S., Schairer, Kim S. 01 July 2013 (has links) Abstract: Several alternative ear-canal measures are similar to absorbance in their requirement for prior determination of a Thévenin-equivalent sound… audiology absorbance ear canal measures Audiology and Speech-Language Pathology Speech and Hearing Science Speech Pathology and Audiology
20	The Characterization and Interpretation of the Spectral Properties of Karenia brevis through Multiwavelength Spectroscopy Spear, Adam H 16 March 2009 (has links) Optical research has shown that Karenia brevis has distinct spectral characteristics, yet most studies have focused exclusively on absorption and chemical properties, ignoring the size, shape, internal structure, and orientation, and their effect on scattering properties. The application of a new spectral interpretation model to K. brevis is shown to provide characterization of unique spectral information, not previously reported, through the use of scattering and absorption properties. The spectroscopy models are based on light scattering and absorption theories, and the approximation of the frequency-dependent optical properties of the basic constituents of living organisms. The model uses the process of mathematically separating the cell into four components, while combining their respective scattering and absorption properties, and appropriately weighted physical and chemical characteristics. The parameters for the model are based upon both reported literature values, and experimental values obtained from laboratory grown cultures and pigment standards. Measured and mathematically derived spectra are compared to determine the adequacy of the model, contribute new spectral information, and to establish the proposed spectral interpretation approach as a new detection method for K. brevis. Absorption and scattering properties of K. brevis, such as cell size/shape, internal structure, and chemical composition, are shown to predict the spectral features observed in the measured spectra. This research documents for the first time the exploitation of every spectral feature produced by the interaction of light with the cellular components and their contribution to the total spectrum of a larger (20-40 µm) photosynthetic eukaryote, K. brevis. Overall, this approach could eventually address the detection deficiencies of current optical detection applications and facilitate the understanding of K. brevis bloom ecology. Harmful algal bloom Detection Absorbance Scattering Optics American Studies Arts and Humanities

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