La casa en imágenes : pulsos, ecos y huellas del habitar contemporáneo

La imagen fotográfica es un bloque espacio tiempo congelado, un fragmento referido al antes y el después de algo. Al contemplar una fotografía de un interior doméstico, descubrimos un entretejido sutil entre el habitante y su hábitat. Somos capaces de recaer en más detalles de los que el ojo humano puede apreciar en su visión cotidiana, siempre ligada al devenir espacio temporal. El acto de fotografiar el hogar, de congelar unidades habitadas infinitesimales, se revela como una manifestación radical del modo unipersonal de habitar de cada fotógrafo, profesional o aficionado, y por extensión, dado que hoy todos somos fotógrafos; de cada habitante. Por un lado, la fotografía se piensa aquí como herramienta, capaz de desvelar, de poner en el mundo, los elementos, percepciones y acontecimientos, que subyacen imbricados en la construcción del hogar. Por otro, la imagen se entiende como medio de expresión y de comunicación, como el lenguaje universal de nuestro tiempo, por todos conocido y utilizado. En este momento de interconexión máxima, entre redes, datos y capas de cognición, de velocidad y aceleración, esta tesis doctoral se plantea como una vuelta a la reflexión, a la contemplación del objeto imagen, desde la certeza de que para que ésta hable hay que darle tiempo. Así, la investigación hay que entenderla desde una base ontológica y fenomenológica; desde la experiencia del ser que habita un entorno concreto y determinado. Se enmarca en el actual entorno socio cultural de occidente, se busca desvelar el significado y modo de habitar del habitante común, poniendo de manifiesto aquello que acontece para que una casa cualquiera, de un habitante cualquiera, devenga hogar. Los primeros indicios sobre el tema surgirán del análisis y la reinterpretación hermenéutica de un atlas de imágenes del habitar: cuerpo de imágenes reunido a partir de series fotográficas de hogares, de habitantes anónimos, puestos a luz por la mirada de un grupo de artistas. Posteriormente, ponemos a prueba el conocimiento adquirido en el análisis anterior, mientras que expandimos la investigación hacia el sentir del habitante común, mediante la realización de tres experimentos participativos, o estudios de campo cualitativos. Los resultados, de ambos grupos de casos de estudio, se compilan, organizan y estructuran en una taxonomía del habitar. Esta taxonomía está compuesta por cuarenta y siete parámetros, que explicitan la naturaleza compleja del hogar del siglo XXI. Este hogar es entendido como un constructo personal de cada habitante, un proceso que acontece en el tiempo y en el espacio, y que entraña la propia construcción del habitante. Esta extensa taxonomía se organiza según tres ámbitos del ser humano, en el primero se expresan los factores relacionados con el modo de "estar físicamente" en el hogar, incluyendo: al propio habitante, la casa como espacio arquitectónico y como materialidad: objetos, muebles, iconos y símbolos que pueblan el hogar. En segundo lugar, se manifiestan los parámetros relacionados con el modo de “percibir”: por un lado, aquello que se deriva de lo que se ve, y por otro, lo que se deriva de aquello que no se ve, pero se siente. En tercer lugar, se explicitan los factores relativos al habitante que "crea/juega" su hogar, quién por un lado, es en el mundo actuando, y que por otro, siente el mundo construyéndolo mediante una serie de relaciones que establece con él. Finalmente, la investigación intenta revelar las sinergias, conexiones y relaciones, entre todos estos elementos extraídos del sentir del habitante común, y que fueron inducidos mediante el análisis y reinterpretación de los casos de estudio, poniendo de manifiesto un orden de cosas en el habitar occidental contemporáneo. ABSTRACT The photographic image is a frozen space time block, a fragment referred to a something before and after. When we stare at the photography of domestic interiors we discover a subtle interweaving between the inhabitant and her habitat. We are able to acknowledge infinite more details than the human eye, in its continuous quotidian vision always linked to the space time progression, appreciates. The act of photographing the home, of freezing infinitesimal inhabited units, reveals as a radical statement of the concept of inhabiting for each photographer, professional or amateur, and by extension, as we today all are photographers, for each inhabitant. On the one hand, photography is here conceived as a tool that is capable of revealing, "of placing in the world" the elements, perceptions and happenings that underlie imbricated in the construction of a home. On the other hand, image is thought as an expression and communication media, as the universal language of our time (as far as it is known and used by all of us). In this precise moment of maximum interconnection between networks, data and cognitive layers; of speed and acceleration, this PhD Dissertation is conceived as a return to reflection; to the contemplation of object image, from the certainty of its need of time for talking. Therefore, this research from an ontological and phenomenological base; from the experience of the self who inhabits a determined and concrete environment, that of the western countries at the present, pursues to unveil the meaning and way of inhabiting of a common dweller and manifest what conforms the transformation of any house, of any inhabitant into a home. The first clues will arise from the analysis and hermeneutical reinterpretation of the Atlas of inhabiting; an assembled body of images of anonymous inhabitants houses, brought into life through a group of artist´s glance. Afterwards, we will test the analysis´s acquired knowledge, while extending the investigation to the feel of the common inhabitant (and no longer the expert^ artist) through the execution of three participative experiments conceived as qualitative field works. The results of both case study groups, will be compiled, organized and structured in a taxonomy of the inhabiting. This taxonomy is composed by forty seven parameters that explicitly state the complex nature of the XXI century home, regarded as a personal construct of every single inhabitant, as a process that happens through time and space and that entails the construction of the inhabitant. This wide taxonomy is organized regarding three spheres of the human being, In first place, those elements related to the way of “physically being” at home are expressed, including: the inhabitant its self, the house as architectural space and as materiality: objects, furniture, icons and symbols that fill the home. In second place, parameters related to the way of “perceiving“ are manifested; on the one hand, those that derive from what we see; on the other hand, those that derive from what we do not see, but feel. In third place, those factors deriving from the inhabitant as a home "creator/player" who is acting in the world and feeling the world while constructing it through a myriad of relationships he establishes with it. Finally, the investigation tries to reveal the synergies, connections and relations between all these elements extracted from the feelings of the common inhabitant, induced through the analysis and reinterpretation of the case studies, and therefore exposing a state of things belonging to western world at present.

Propagation, structural similarity and image quality

Póster presentado en SPIE Photonics Europe, Brussels, 16-19 April 2012.

Ocular residual astigmatism and topographic disparity vector indexes in normal healthy eyes

Purpose: To define a range of normality for the vectorial parameters Ocular Residual Astigmatism (ORA) and topography disparity (TD) and to evaluate their relationship with visual, refractive, anterior and posterior corneal curvature, pachymetric and corneal volume data in normal healthy eyes. Methods: This study comprised a total of 101 consecutive normal healthy eyes of 101 patients ranging in age from 15 to 64 years old. In all cases, a complete corneal analysis was performed using a Scheimpflug photography-based topography system (Pentacam system Oculus Optikgeräte GmbH). Anterior corneal topographic data were imported from the Pentacam system to the iASSORT software (ASSORT Pty. Ltd.), which allowed the calculation of the ocular residual astigmatism (ORA) and topography disparity (TD). Linear regression analysis was used for obtaining a linear expression relating ORA and posterior corneal astigmatism (PCA). Results: Mean magnitude of ORA was 0.79 D (SD: 0.43), with a normality range from 0 to 1.63 D. 90 eyes (89.1%) showed against-the-rule ORA. A weak although statistically significant correlation was found between the magnitudes of posterior corneal astigmatism and ORA (r = 0.34, p < 0.01). Regression analysis showed the presence of a linear relationship between these two variables, although with a very limited predictability (R2: 0.08). Mean magnitude of TD was 0.89 D (SD: 0.50), with a normality range from 0 to 1.87 D. Conclusion: The magnitude of the vector parameters ORA and TD is lower than 1.9 D in the healthy human eye.

A perspectiva linear e orgãnica na conceção do desenho de paisagem

This dissertation was primarily engaged in the study of linear and organic perspective applied to the drawing of landscape, considering the perspective as a fundamental tool in order to graphically materialize sensory experiences offered by the landscape / place to be drawn. The methodology consisted initially in the investigation of perspective theories and perspective representation methods applied to landscape drawing, followed by practical application to a specific case. Thus, within the linear perspective were analyzed and explained: the visual framing, the methods of representation based on the descriptive geometry and also the design of shadows and reflections within the shadows. In the context of organic perspective were analyzed and described techniques utilizing depth of field, the color, or fading and overlapping and light-dark so as to add depth to the drawing. It was also explained a set of materials, printing techniques and resources, which by means of practical examples executed by different artists over time, show the perspectives’ drawings and application of theory. Finally, a set of original drawings was prepared in order to represent a place of a specific case, using for this purpose the theories and methods of linear and organic perspective, using different materials and printing techniques. The drawings were framed under the "project design", starting with the horizontal and vertical projections of a landscape architecture design to provide different views of the proposed space. It can be concluded that the techniques and methods described and exemplified, were suitable, with some adjustments, to the purpose it was intended, in particular in the landscape design conception, bringing to reality the pictorial sense world perceived by the human eye

JEAN DE LÉRY E A ESCRITA DA HISTÓRIA Uma heterologia calvinista

A inauguração de um olhar humano do índio tupinambá, eis o que encontramos em Jean de Léry (1534-1611), um teólogo e missionário huguenote que aporta em terras brasileiras no século XVI com o propósito de auxiliar na implantação de uma colônia francesa e de pregar o evangelho, tanto aos franceses que aqui estavam, quanto aos índios tupinambás. O viajante em sua obra História de uma Viagem feita à Terra do Brasil, também chamada América apresenta um olhar humano do Outro que, além disto, também se apresenta como uma possibilidade de compreensão do mesmo. Os motivos que constroem esta perspectiva é o que analisamos neste trabalho, a partir do conceito de heterologia proposto por Michel de Certeau. Nossa tese afirma que esta hermenêutica do Outro em Jean de Léry é determinada pelo sistema de pensamento teológico calvinista. A circularidade hermenêutica do viajante francês está condicionada a Escritura Sagrada, dela parte, a ela retorna. A heterologia proposta por Jean de Léry se constitui em uma ciência do Outro construída a partir do sistema de pensamento teológico calvinista.

Clinical evaluation of the Grand Seiko Auto Ref/Keratometer WAM-5500

Purpose: A clinical evaluation of the Grand Seiko Auto Ref/Keratometer WAM-5500 (Japan) was performed to evaluate validity and repeatability compared with non-cycloplegic subjective refraction and Javal–Schiotz keratometry. An investigation into the dynamic recording capabilities of the instrument was also conducted. Methods: Refractive error measurements were obtained from 150 eyes of 75 subjects (aged 25.12 ± 9.03 years), subjectively by a masked optometrist, and objectively with the WAM-5500 at a second session. Keratometry measurements from the WAM-5500 were compared to Javal–Schiotz readings. Intratest variability was examined on all subjects, whilst intertest variability was assessed on a subgroup of 44 eyes 7–14 days after the initial objective measures. The accuracy of the dynamic recording mode of the instrument and its tolerance to longitudinal movement was evaluated using a model eye. An additional evaluation of the dynamic mode was performed using a human eye in relaxed and accommodated states. Results: Refractive error determined by the WAM-5500 was found to be very similar (p = 0.77) to subjective refraction (difference, -0.01 ± 0.38 D). The instrument was accurate and reliable over a wide range of refractive errors (-6.38 to +4.88 D). WAM-5500 keratometry values were steeper by approximately 0.05 mm in both the vertical and horizontal meridians. High intertest repeatability was demonstrated for all parameters measured: for sphere, cylinder power and MSE, over 90% of retest values fell within ±0.50 D of initial testing. In dynamic (high-speed) mode, the root-mean-square of the fluctuations was 0.005 ± 0.0005 D and a high level of recording accuracy was maintained when the measurement ring was significantly blurred by longitudinal movement of the instrument head. Conclusion: The WAM-5500 Auto Ref/Keratometer represents a reliable and valid objective refraction tool for general optometric practice, with important additional features allowing pupil size determination and easy conversion into high-speed mode, increasing its usefulness post-surgically following accommodating intra-ocular lens implantation, and as a research tool in the study of accommodation.

Myopia: structural and functional correlates

Ocular dimensions are widely recognised as key variants of refractive error. Previously, accurate depiction of eye shape in vivo was largely restricted by limitations in the imaging techniques available. This thesis describes unique applications of the recently introduced 3-dimensional magnetic resonance imaging (MRI) approach to evaluate human eye shape in a group of young adult subjects (n=76) with a range of ametropia (MSE= -19.76 to +4.38D). Specific MRI derived parameters of ocular shape are then correlated with measures of visual function. Key findings include the significant homogeneity of ocular volume in the anterior eye for a range of refractive errors, whilst significant volume changes occur in the posterior eye as a function of ametropia. Anterior vs. posterior eye differences have also been shown through evaluations of equivalent spherical radius; the posterior 25% cap of the eye was shown to be relatively steeper in myopes compared to emmetropes. Further analyses showed differences in retinal quadrant profiles; assessments of the maximum distance from the retinal surface to the presumed visual axes showed exaggerated growth of the temporal quadrant in myopic eyes. Comparisons of retinal contour values derived from transformation of peripheral refraction data were made with MRI; flatter retinal curvature values were noted when using the MRI technique. A distinctive feature of this work is the evaluation of the relationship between ocular structure and visual function. Multiple aspects of visual function were evaluated through several vehicles: multifocal electroretinogram testing, visual field sensitivity testing, and the use of psychophysical methods to determine ganglion cell density. The results show that many quadrantic structural and functional variations exist. In general, the data could not demonstrate a significant correlation between visual function and associated measures of ocular conformation either within or between myopic and emmetropic groups.

Spatial contrast sensitivity and external noise: applications to optical and neural modulation transfer functions

The thesis will show how to equalise the effect of quantal noise across spatial frequencies by keeping the retinal flux (If-2) constant. In addition, quantal noise is used to study the effect of grating area and spatial frequency on contrast sensitivity resulting in the extension of the new contrast detection model describing the human contrast detection system as a simple image processor. According to the model the human contrast detection system comprises low-pass filtering due to ocular optics, addition of light dependent noise at the event of quantal absorption, high-pass filtering due to the neural visual pathways, addition of internal neural noise, after which detection takes place by a local matched filter, whose sampling efficiency decreases as grating area is increased. Furthermore, this work will demonstrate how to extract both the optical and neural modulation transfer functions of the human eye. The neural transfer function is found to be proportional to spatial frequency up to the local cut-off frequency at eccentricities of 0 - 37 deg across the visual field. The optical transfer function of the human eye is proposed to be more affected by the Stiles-Crawford -effect than generally assumed in the literature. Similarly, this work questions the prevailing ideas about the factors limiting peripheral vision by showing that peripheral optical acts as a low-pass filter in normal viewing conditions, and therefore the effect of peripheral optics is worse than generally assumed.

Modelling ocular monochromatic aberrations using schematic eyes with homogeneous optical media

Previous research has indicated that schematic eyes incorporating aspheric surfaces but lacking gradient index are unable to model ocular spherical aberration and peripheral astigmatism simultaneously. This limits their use as wide-angle schematic eyes. This thesis challenges this assumption by investigating the flexibility of schematic eyes comprising aspheric optical surfaces and homogeneous optical media. The full variation of ocular component dimensions found in human eyes was established from the literature. Schematic eye parameter variants were limited to these dimensions. The levels of spherical aberration and peripheral astigmatism modelled by these schematic eyes were compared to the range of measured levels. These were also established from the literature. To simplify comparison of modelled and measured data, single value parameters were introduced; the spherical aberration function (SAF), and peripheral astigmatism function (PAF). Some ocular components variations produced a wide range of aberrations without exceeding the limits of human ocular components. The effect of ocular component variations on coma was also investigated, but no comparison could be made as no empirical data exists. It was demonstrated that by combined manipulation of a number of parameters in the schematic eyes it was possible to model all levels of ocular spherical aberration and peripheral astigmatism. However, the unique parameters of a human eye could not be obtained in this way, as a number of models could be used to produce the same spherical aberration and peripheral astigmatism, while giving very different coma levels. It was concluded that these schematic eyes are flexible enough to model the monochromatic aberrations tested, the absence of gradient index being compensated for by altering the asphericity of one or more surfaces.

Contrast sensitivity for complex and random gratings

This thesis studied the effect of (i) the number of grating components and (ii) parameter randomisation on root-mean-square (r.m.s.) contrast sensitivity and spatial integration. The effectiveness of spatial integration without external spatial noise depended on the number of equally spaced orientation components in the sum of gratings. The critical area marking the saturation of spatial integration was found to decrease when the number of components increased from 1 to 5-6 but increased again at 8-16 components. The critical area behaved similarly as a function of the number of grating components when stimuli consisted of 3, 6 or 16 components with different orientations and/or phases embedded in spatial noise. Spatial integration seemed to depend on the global Fourier structure of the stimulus. Spatial integration was similar for sums of two vertical cosine or sine gratings with various Michelson contrasts in noise. The critical area for a grating sum was found to be a sum of logarithmic critical areas for the component gratings weighted by their relative Michelson contrasts. The human visual system was modelled as a simple image processor where the visual stimuli is first low-pass filtered by the optical modulation transfer function of the human eye and secondly high-pass filtered, up to the spatial cut-off frequency determined by the lowest neural sampling density, by the neural modulation transfer function of the visual pathways. The internal noise is then added before signal interpretation occurs in the brain. The detection is mediated by a local spatially windowed matched filter. The model was extended to include complex stimuli and its applicability to the data was found to be successful. The shape of spatial integration function was similar for non-randomised and randomised simple and complex gratings. However, orientation and/or phase randomised reduced r.m.s contrast sensitivity by a factor of 2. The effect of parameter randomisation on spatial integration was modelled under the assumption that human observers change the observer strategy from cross-correlation (i.e., a matched filter) to auto-correlation detection when uncertainty is introduced to the task. The model described the data accurately.

Ocular surface temperature:a review

Purpose. To review the evolution in ocular temperature measurement during the last century and examine the advantages and applications of the latest noncontact techniques. The characteristics and source of ocular surface temperature are also discussed. Methods. The literature was reviewed with regard to progress in human thermometry techniques, the parallel development in ocular temperature measurement, the current use of infrared imaging, and the applications of ocular thermography. Results. It is widely acknowledged that the ability to measure ocular temperature accurately will increase the understanding of ocular physiology. There is a characteristic thermal profile across the anterior eye, in which the central area appears coolest. Ocular surface temperature is affected by many factors, including inflammation. In thermometry of the human eye, contact techniques have largely been superseded by infrared imaging, providing a noninvasive and potentially more accurate method of temperature measurement. Ocular thermography requires high resolution and frame rate: features found in the latest generation of cameras. Applications have included dry eye, contact lens wear, corneal sensitivity, and refractive surgery. Conclusions. Interest in the temperature of the eye spans almost 130 years. It has been an area of research largely driven by prevailing technology. Current instrumentation offers the potential to measure ocular surface temperature with more accuracy, resolution, and speed than previously possible. The use of dynamic ocular thermography offers great opportunities for monitoring the temperature of the anterior eye. © 2005 Contact Lens Association of Ophthalmologists, Inc.

Improving the Watermarking Process with Usage of Block Error-Correcting Codes

The emergence of digital imaging and of digital networks has made duplication of original artwork easier. Watermarking techniques, also referred to as digital signature, sign images by introducing changes that are imperceptible to the human eye but easily recoverable by a computer program. Usage of error correcting codes is one of the good choices in order to correct possible errors when extracting the signature. In this paper, we present a scheme of error correction based on a combination of Reed-Solomon codes and another optimal linear code as inner code. We have investigated the strength of the noise that this scheme is steady to for a fixed capacity of the image and various lengths of the signature. Finally, we compare our results with other error correcting techniques that are used in watermarking. We have also created a computer program for image watermarking that uses the newly presented scheme for error correction.

Dynamic image precompensation for improving visual performance of computer users with ocular aberrations

With the progress of computer technology, computers are expected to be more intelligent in the interaction with humans, presenting information according to the user's psychological and physiological characteristics. However, computer users with visual problems may encounter difficulties on the perception of icons, menus, and other graphical information displayed on the screen, limiting the efficiency of their interaction with computers. In this dissertation, a personalized and dynamic image precompensation method was developed to improve the visual performance of the computer users with ocular aberrations. The precompensation was applied on the graphical targets before presenting them on the screen, aiming to counteract the visual blurring caused by the ocular aberration of the user's eye. A complete and systematic modeling approach to describe the retinal image formation of the computer user was presented, taking advantage of modeling tools, such as Zernike polynomials, wavefront aberration, Point Spread Function and Modulation Transfer Function. The ocular aberration of the computer user was originally measured by a wavefront aberrometer, as a reference for the precompensation model. The dynamic precompensation was generated based on the resized aberration, with the real-time pupil diameter monitored. The potential visual benefit of the dynamic precompensation method was explored through software simulation, with the aberration data from a real human subject. An "artificial eye'' experiment was conducted by simulating the human eye with a high-definition camera, providing objective evaluation to the image quality after precompensation. In addition, an empirical evaluation with 20 human participants was also designed and implemented, involving image recognition tests performed under a more realistic viewing environment of computer use. The statistical analysis results of the empirical experiment confirmed the effectiveness of the dynamic precompensation method, by showing significant improvement on the recognition accuracy. The merit and necessity of the dynamic precompensation were also substantiated by comparing it with the static precompensation. The visual benefit of the dynamic precompensation was further confirmed by the subjective assessments collected from the evaluation participants.

Enhancing the Visualization of the Peripheral Retina with Wide Field-of-View Optical Coherence Tomography

The goal of my Ph.D. thesis is to enhance the visualization of the peripheral retina using wide-field optical coherence tomography (OCT) in a clinical setting.

OCT has gain widespread adoption in clinical ophthalmology due to its ability to visualize the diseases of the macula and central retina in three-dimensions, however, clinical OCT has a limited field-of-view of 300. There has been increasing interest to obtain high-resolution images outside of this narrow field-of-view, because three-dimensional imaging of the peripheral retina may prove to be important in the early detection of neurodegenerative diseases, such as Alzheimer's and dementia, and the monitoring of known ocular diseases, such as diabetic retinopathy, retinal vein occlusions, and choroid masses.

Before attempting to build a wide-field OCT system, we need to better understand the peripheral optics of the human eye. Shack-Hartmann wavefront sensors are commonly used tools for measuring the optical imperfections of the eye, but their acquisition speed is limited by their underlying camera hardware. The first aim of my thesis research is to create a fast method of ocular wavefront sensing such that we can measure the wavefront aberrations at numerous points across a wide visual field. In order to address aim one, we will develop a sparse Zernike reconstruction technique (SPARZER) that will enable Shack-Hartmann wavefront sensors to use as little as 1/10th of the data that would normally be required for an accurate wavefront reading. If less data needs to be acquired, then we can increase the speed at which wavefronts can be recorded.

For my second aim, we will create a sophisticated optical model that reproduces the measured aberrations of the human eye. If we know how the average eye's optics distort light, then we can engineer ophthalmic imaging systems that preemptively cancel inherent ocular aberrations. This invention will help the retinal imaging community to design systems that are capable of acquiring high resolution images across a wide visual field. The proposed model eye is also of interest to the field of vision science as it aids in the study of how anatomy affects visual performance in the peripheral retina.

Using the optical model from aim two, we will design and reduce to practice a clinical OCT system that is capable of imaging a large (800) field-of-view with enhanced visualization of the peripheral retina. A key aspect of this third and final aim is to make the imaging system compatible with standard clinical practices. To this end, we will incorporate sensorless adaptive optics in order to correct the inter- and intra- patient variability in ophthalmic aberrations. Sensorless adaptive optics will improve both the brightness (signal) and clarity (resolution) of features in the peripheral retina without affecting the size of the imaging system.

The proposed work should not only be a noteworthy contribution to the ophthalmic and engineering communities, but it should strengthen our existing collaborations with the Duke Eye Center by advancing their capability to diagnose pathologies of the peripheral retinal.

Effets du stress oxydatif induit par les rayons UVA et endogène sur la cornée humaine : étude des délétions de l’ADN mitochondrial, des modifications dans la matrice extracellulaire cornéenne et de la dystrophie cornéenne endothéliale de Fuchs

Le stress oxydatif peut provenir de sources exogènes comme les UVA ou de sources endogènes comme la chaîne respiratoire (OXPHOS). L’oxydation des composants cellulaires a été associée avec la dégénération, des phénotypes de vieillissement et des pertes de fonctionnalités des tissus. Les UVA sont les plus efficaces des rayons UV à induire de l’oxydation, tel que démontré par la formation de dommages oxydatifs à l’ADN et par l’apparition de délétions mitochondriales qui en résultent. La délétion mitochondriale de 4977 pb (ADNmtCD4977), la plus commune, et celle de 3895 pb (ADNmt3895) sont deux délétions reliées au photovieillissement cutané et à l’exposition au stress oxydant. Le phénomène de vieillissement dans la peau est bien documenté et se traduit par une dégradation de la matrice extracellulaire, une perte d’élasticité et la formation de rides. Toutefois, peu d’études portent sur la cornée humaine alors qu’elle est un tissu exposé directement aux rayonnements UV au même titre que la peau. Nous avons donc tenté mieux comprendre l’effet de l’oxydation exogène et endogène sur cette structure. L’analyse de la localisation des délétions ADNmtCD4977 et ADNmtCD4977 dans l’oeil humain a permis de révéler qu’elles se concentrent principalement dans le stroma cornéen et s’accumule avec l’âge. Le stroma cornéen est la couche cellulaire qui confère la transparence et la rigidité à la cornée humaine. Ces résultats nous ont suggéré une implication des UVA dans le photovieillissement de la cornée. Nous avons donc entrepris de vérifier les changements liés à l’exposition aux UVA dans le stroma cornéen puisque les UVA sont connus pour causer des altérations à la matrice extracellulaire (ECM) au niveau cutané. Nous avons donc créé un modèle de photovieillisement par une exposition chronique aux UVA sur des kératocytes avec lesquels nous avons fait sécréter une ECM. Nos résultats nous ont démontré qu’une exposition chronique aux UVA cause des altérations à l’ECM cornéen semblable à des phénotypes de photvieillissement. En effet, nous avons dénoté des changements transcriptomiques et protéomiques pour certains collagènes et protéoglycans. Une atteinte aux collagènes par le vieillissement cornéen se traduit entre autres par une rigidification, une opacification et un changement dans son pouvoir réfractif qui mène à une perte de la vision. Par ailleurs, notre avons également investigué l’implication du stress oxydatif dans la dystrophie cornéenne endothéliale de Fuchs (FECD), une maladie dégénérative de l’endothélium cornéen, qui mène à une perte de vision et est une cause principale de greffe cornéenne. L’étiologie de la maladie est encore inconnue, mais le stress oxydatif est soupçonné de jouer un rôle important dans la pathogenèse. Nos résultats ont amené de nouvelles évidences de l’implication de l’oxydation dans la maladie par l’augmentation de la quantité d’ADN mitochondrial et un raccourcissement des télomères dans des explants de cornées pathologiques. Nos résultats nous ont également démontré que la mise en culture de cellules FECD permettait la sélection de cellules fonctionnelles et comparables à des cellules saines en termes de quantité d’ADN mitochondrial et de son intégrité, de sensibilité à l’oxydation et de longueur télomérique. Les résultats obtenus soutiennent ainsi la possibilité d’employer les cellules FECD fonctionnelles sélectionnées pour utilisation en génie tissulaire afin de créer des cornées autologues pour pallier aux manques de greffes cornéennes. Enfin, nos résultats apportent de nouvelles évidences quant à l’implication du stress oxydatif dans le photovieillissement cornéen et dans l’étiologie de la FECD.