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190 results on '"Ávila, Francisco J."'

1. Corneal retardation time as an ocular hypertension disease indicator

Author

del Barco, Oscar, Avila, Francisco J., Marcellán, Concepción, and Remón, Laura

Subjects
Physics - Biological Physics
Abstract

Objective. A detailed analysis of the corneal retardation time $\tau$ as a highly related parameter to the intraocular pressure (IOP), and its plausible role as an indicator of ocular hypertension disease. Approach. A simple theoretical expression for $\tau$ is derived within the corneal viscoelastic model of Kelvin-Voigt with 3 elements. This retardation time can be easily calculated from the well-known signal and pressure amplitudes of non-contact tonometers like the Ocular Response Analyzer (ORA). Then, a population-based study was performed where 100 subjects aged from 18 to 30 were analyzed (within this group, about 10% had an elevated IOP with more than 21 mmHg). Main results. A clear relationship between the corneal retardation time and the corneal-compensated intraocular pressure was found, underlying the risk for ocular hypertensive (OHT) subjects with lower $\tau$ values to develop hypertension illnesses (due to the inability of poorly viscoelastic corneas to absorb IOP fluctuations, resulting in probable optic nerve damage). Significance. Our results might provide an useful tool to systematically discern which OHT patients (and even those with normal IOP values) are more likely to suffer glaucoma progression and, consequently, ensure an early diagnosis., Comment: Accepted for publication in Biomedical Physics and Engineering Express

Published
2023
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3. Polarization Techniques in Biological Microscopy

Author

Ávila, Francisco J., Bueno, Juan M., Gerstman, Bernard S., Editor-in-Chief, Aizawa, Masuo, Series Editor, Austin, Robert H., Series Editor, Barber, James, Series Editor, Berg, Howard C., Series Editor, Callender, Robert, Series Editor, Feher, George, Series Editor, Frauenfelder, Hans, Series Editor, Giaever, Ivar, Series Editor, Joliot, Pierre, Series Editor, Keszthelyi, Lajos, Series Editor, King, Paul W., Series Editor, Lazzi, Gianluca, Series Editor, Lewis, Aaron, Series Editor, Lindsay, Stuart M., Series Editor, Liu, Xiang Yang, Series Editor, Mauzerall, David, Series Editor, Mielczarek, Eugenie V., Series Editor, Niemz, Markolf, Series Editor, Parsegian, V. Adrian, Series Editor, Powers, Linda S., Series Editor, Prohofsky, Earl W., Series Editor, Rostovtseva, Tatiana K., Series Editor, Rubin, Andrew, Series Editor, Seibert, Michael, Series Editor, Tao, Nongjian, Series Editor, Thomas, David, Series Editor, Mazumder, Nirmal, editor, Kistenev, Yury V., editor, Borisova, Ekaterina, editor, and Prasada K., Shama, editor

Published
2023
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9. Effect of Small Angle Misalignments on Ocular Wavefront Zernike Coefficients.

Author

Safarian Baloujeh, Ebrahim, Ávila, Francisco J., and González-Méijome, José M.

Subjects
ABERROMETRY, UNITS of measurement, STANDARD deviations, COMA, GAZE, ANGLES
Abstract

Purpose: To assess the possible impact of minor changes in fixation on wavefront measurements as a potential constraint in detecting subtle temporal variations in ocular wavefront error. Methods: Twelve healthy subjects with an average age of 36.3 ± 8.8 were instructed to put their heads in the aberrometer's chin-rest and look at a fixation target that was embedded in the device. The fixation targets were readily observable to the participants without accommodation, thanks to the aberrometer's Badal system. When each eye was staring at the target, its wavefront aberration was recorded three times and then averaged for further analysis. The averaged Zernike coefficients were rescaled to the smallest value of the maximum round pupil found among all eyes (4.41 mm), and this procedure was repeated for each target. Results: Alteration of the fixation targets caused changes to the Zernike coefficients of defocus (C(2,0)), vertical trefoil (C(3,–3)), vertical coma (C(3,–1)), horizontal coma (C(3,1)), oblique trefoil (C(3,3)), primary spherical aberration (C(4,0)), and secondary spherical aberration (C(6,0)), but the changes were not statistically significant. Nevertheless, an alteration in the target's size and shape exhibited a significant correlation across all of the aforementioned coefficients in both eyes (p < 0.05). The total RMS of aberrations and the RMS of the spherical-like aberrations were both lowest while choosing the larger Maltese cross, and the bigger E-letter minimized the RMS of HOA and comatic aberrations. Conclusion: The aberrometric changes occur as a consequence of altering the fixational gaze and are within the range of the changes found after performing a near-vision task, so they might potentially act as a confounding factor when attempting to identify such small variations in the ocular wavefront. Using a smaller E-letter (5 arcmin) as an internal fixation target resulted in the least standard deviation of measurements, fixational stability, and higher accuracy in ocular wavefront measurements. [ABSTRACT FROM AUTHOR]

Published
2024
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12. An Arduino-Powered Device for the Study of White Perception beyond the Visual Chromatic Critical Flicker Fusion Frequency.

Author

Ávila, Francisco J.

Subjects
VISUAL perception, VISION, IMAGE recognition (Computer vision), COLOR vision, ARDUINO (Microcontroller)
Abstract

Arduino microcontrollers are used for a wide range of technological and biomedical applications, such as image classification, computer vision, brain–computer interaction and vision experiments. Here, we present a new cost-effective mini-device based on RGB LED flicker stimulation for the assessment of the chromatic temporal resolution of the visual function based on the concept of critical flicker fusion frequency (CFF). The assembly of the device and its testing in thirty young subjects demonstrate the steady white visual perception of a trichromatic flicker stimulus (mixture of red, green and blue stimuli) beyond the CFF. Macular function as measured by photo-stress recovery time (PRT) was found to be independent of the CFF measurements for red, green and blue lights. However, a statistical correlation was found between the contrast modulation for CFF for red and green stimuli and PRT. Finally, wavefront measurements demonstrate that high-order aberrations improve the temporal resolution of the visual function. [ABSTRACT FROM AUTHOR]

Published
2024
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13. A Comprehensive Study on Elasticity and Viscosity in Biomechanics and Optical Properties of the Living Human Cornea.

Author

Ávila, Francisco J., del Barco, Óscar, Marcellán, María Concepción, and Remón, Laura

Subjects
INTRAOCULAR pressure, OPTICAL properties, BIOMECHANICS, ELASTICITY, CORNEA, VISCOSITY, VISCOELASTICITY, BLOOD viscosity
Abstract

Corneal biomechanics is a hot topic in ophthalmology. The biomechanical properties (BMPs) of the cornea have important implications in the management and diagnosis of corneal diseases such as ectasia and keratoconus. In addition, the characterization of BMPs is crucial to model the predictability of a corneal surgery intervention, the outcomes of refractive surgery or the follow-up of corneal diseases. The biomechanical behavior of the cornea is governed by viscoelastic properties that allow, among other structural implications, the damping of excess intraocular pressure and the reduction of damage to the optic nerve. Currently, the most versatile and complete methods to measure corneal viscoelasticity are based on air-puff corneal applanation. However, these methods lack the ability to directly measure corneal viscosity. The aim of this work is to propose a new methodology based on the analysis of corneal air-puff measurements through the standard linear solid model (SLSM) to provide analytical expressions to separately calculate the elastic and time-dependent (corneal retardation time and viscosity) properties. The results show the mean values of elasticity (E), viscosity (Ƞ) and corneal retardation time (τ) in a sample of 200 young and healthy subjects. The influence of elasticity and viscosity on viscoelasticity, high-order corneal aberrations and optical transparency is investigated. Finally, the SLSM fed back from experimental E and Ƞ values is employed to compare the creep relaxation response between a normal, an ocular hypertension patient and an Ortho-K user. Corneal biomechanics is strongly affected by intraocular pressure (IOP); however, corneal hysteresis (CH) analysis is not enough to be employed as a risk factor of glaucoma progression. Low values of CH can be accompanied by high or low corneal elasticity and viscosity depending on the IOP threshold from which the time-dependent biomechanical properties trends are reversed. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Adaptive Illuminance Effects on Retinal Morphology and Refraction: A Comprehensive Study of Night Myopia.

Author

Orduna-Hospital, Elvira, Crespo-Castan, Cynthia, Ávila, Francisco J., and Sanchez-Cano, Ana

Subjects
LUMINOUS flux, OPTICAL coherence tomography, VISUAL accommodation, MYOPIA, BLUE light
Abstract

Background: We aimed to study the optical and retinal modifications that occur after adapting to different lighting conditions including photopic, mesopic, scotopic, blue light and red light conditions. Methods: Thirty young healthy subjects with a mean age of 23.57 ± 3.45 years were involved in the study (both eyes included). They underwent aberrometry and optical coherence tomography at both the central and peripheral retina with the 3 × 3 mm2 macular cube protocol before starting adaptation to the illuminations (baseline) and after remaining for 5 min under the five different lighting conditions inside a controlled lighting cabinet. Results: Significant myopization (p = 0.002) was observed under scotopic and mesopic lighting conditions, while hypermetropization occurred under the influence of blue LED light. In the central retina, a significant thickening of the inner temporal (p = 0.025) and outer inferior (p = 0.021) areas was observed in the scotopic area, and the thickening increased even more under blue and red light. The mean central thickness decreased significantly under photopic lighting conditions (p = 0.038). There was an increase in the mean volume of the central retinal area with red light and a reduction in the volume under photopic lighting (p = 0.039). In the peripheral retina, no significant thickness changes were observed after adapting to any of the lighting conditions (p > 0.05). Regarding morphological changes, a significant increase in retinal eccentricity (p = 0.045) and the shape factor (p = 0.036) was found. In addition, a significant correlation was found only between the eccentricity and volume of the central retina in scotopic conditions (r = −0.265; p = 0.041), meaning that a higher volume was associated with lower retinal eccentricity. Conclusions: When exposed to different lighting conditions, the retina changes in shape, and ocular refraction is modified to adapt to each condition, revealing the phenomenon of night myopia when transitioning from photopic to scotopic regimes. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Peripheral refraction under different levels of illuminance.

Author

Marcellán Vidosa, María Concepción, Remón, Laura, and Ávila, Francisco J.

Abstract

Peripheral refraction is believed to be involved in the development of myopia. The aim of this study was to compare the relative peripheral refraction (RPR) at four different levels of illuminance, ranging from photopic conditions to complete darkness, using an open‐field autorefraction method. The RPR was calculated for each eccentricity by subtracting central from peripheral autorefraction measurements. The study included 114 myopic eyes from 114 subjects (mean age of 21.81 ± 1.91 years) and the mean difference in RPR between scotopic and photopic conditions (0 and 300 lux, respectively) was +0.32 D at 30° temporal and +0.37 D at 30° in the nasal visual field (NVF). Statistically significant differences were observed between 0 and 300 lux at 30° in the temporal visual field and at 30° and 20° in the NVF. Our results revealed a significant increase in relative peripheral hyperopia with increasing visual field eccentricity along the horizontal visual field in myopic eyes of young adults. Furthermore, this relative peripheral hyperopia increased as illumination decreased. These findings suggest that an increase in peripheral illuminance may protect against myopic eye growth. [ABSTRACT FROM AUTHOR]

Published
2024
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23. In Vivo Biomechanical Response of the Human Cornea to Acoustic Waves.

Author

Ávila, Francisco J., Marcellán, Maria Concepción, and Remón, Laura

Subjects
SOUND waves, CORNEA, SOUND pressure, INTRAOCULAR pressure, OPTICAL properties, ELASTICITY
Abstract

The cornea is the optical window to the brain. Its optical and structural properties are responsible for optical transparency and vision. The shape, elasticity, rigidity, or stiffness are due to its biomechanical properties, whose stability results in ocular integrity and intraocular pressure dynamics. Here, we report in vivo observations of shape changes and biomechanical alterations in the human cornea induced by acoustic wave pressure within the frequency range of 50–350 Hz and the sound pressure level of 90 dB. The central corneal thickness (CCT) and eccentricity (e2) were measured using Scheimpflug imaging and biomechanical properties [corneal hysteresis (CH) and intraocular pressure (IOP)] were assessed with air-puff tonometry in six young, healthy volunteers. At the specific 150 Hz acoustic frequency, the variations in e2 and CCT were 0.058 and 7.33 µm, respectively. Biomechanical alterations were also observed in both the IOP (a decrease of 3.60 mmHg) and CH (an increase of 0.40 mmHg). [ABSTRACT FROM AUTHOR]

Published
2023
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45. Supplementary Figures, Tables and Statistical code from Evaluating how management policies affect red wolf mortality and disappearance

Author

Santiago-Ávila, Francisco J., Agan, Suzanne, Hinton, Joseph W., and Treves, Adrian

Abstract

Poaching is the major cause of death for large carnivores in several regions, contributing to their global endangerment. The traditional hypothesis used in wildlife management (killing for tolerance) suggests reducing protections for a species will decrease poaching. However, recent studies suggest reducing protections will instead increase poaching (facilitated illegal killing) and its concealment (facilitated cryptic poaching). Here, we build survival and competing risk models for mortality and disappearances of adult collared red wolves (Canis rufus) released in North Carolina, USA from 1987 to 2020 (n = 526). We evaluated how changes in federal and state policies protecting red wolves influenced the hazard and incidence of mortality and disappearance. We observed substantial increases in the hazard and incidence of red wolf reported poaching, and smaller increases in disappearances, during periods of reduced federal and state protections (including liberalizing hunting of coyotes, C. latrans); white-tailed deer (Odocoileus virginianus) and American black bear (Ursus americanus) hunting seasons; and management phases. Observed increases in hazard (85–256%) and incidence of reported poaching (56–243%) support the ‘facilitated illegal killing hypothesis'. We suggest improving protective policies intended to conserve endangered species generally and large carnivores in particular, to mitigate environmental crimes and generally improve the protection of wild animals.

Published
2022
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49. Ecodemocracy in practice: exploration of debates on limits and possibilities of addressing environmental challenges within democratic systems

Author

Helen, Kopnina, Reingard, Spannring, Shé, Hawke, Robertson, Colin D., Alessio, Thomasberger, Michelle, Maloney, Morini, Marco, William, Lynn, Naziru Zakari Muhammad, Santiago-Ávila, Francisco J., Hana, Begovic, and Mariusz, Baranowski

Subjects
ecodemocracy, multispecies justice, democracy, L900, antropocentrizem, rights of nature, F800, H900, ekodemokracija, udc:17:502/504, anthropocentrism, democracy, ecocentrism, ecological democracy, ecodemocracy, ecological justice, environmental justice, multispecies justice, rights of nature, ecological democracy, ekološka pravičnost, okoljska pravičnost, ecological justice, anthropocentrism, ecocentrism, environmental justice, demokracija, ekocentrizem
Abstract

This article examines the practical implications of ecological democracy or ecodemocracy, inquiring how capable democratic societies are of addressing environmental challenges. It asks: What is needed to secure democratic legitimacy for policy measures to benefit nonhuman species? What would ecodemocracy look like in practice? Different types of existing and possible types of representation are discussed, including the expansion of the precautionary principle, the Council of All Beings or Parliament of Things, and representation through the Parties for Animals. A possible approach in the form of a mandate for proxy eco-representation similar to civil rights through continuous affirmative action is investigated. Limitations and possibilities of each approach for nature representation are weighed. Key words. anthropocentrism, democracy, ecocentrism, ecological democracy, ecodemocracy, ecological justice, environmental justice, multispecies justice, rights of nature, Visions for Sustainability, More Visions on line (2021)

Published
2021

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