Your search keyword '"Visual sensitivity"' showing total 918 results

1. Beyond balance: The role of the Vestibular system in action recognition

Author

Gammeri, Roberto, Villa, Maria-Chiara, Ciorli, Tommaso, Berti, Anna, and Ricci, Raffaella

Published

2024

2. Evaluation of the peripheral visual performance of DIMS spectacle lenses versus single vision lenses.

Author

Liu, Kenneth Ka King, Zhang, Han Yu, Leung, Daisy Ka Yan, and Lam, Carly Siu Yin

Subjects

VISUAL fields, EYEGLASSES, VISUAL acuity, BONFERRONI correction, PERIMETRY

Abstract

Purpose: This study evaluates differences in the visual field performance when wearing the Defocus Incorporated Multiple Segments (DIMS) spectacle lens compared to wearing a conventional single vision (SV) spectacle lens. Methods: Twenty-one children aged 9–14 years with spherical equivalent refraction (SER) between −1.13D to −4.75D were recruited. Mid-peripheral near visual acuity (NVA) under room lighting condition (500 lux ±10%) was measured using DIMS and SV lenses, respectively. Automated static perimetry (Zeiss, Humphrey Visual Field HFA 750i) with SITA Fast 30–2 protocol was used to investigate the visual field sensitivity. During the test, the study lens (Plano DIMS or SV lens) were inserted into the lens holder in front of the trial lenses with each child's compensated prescription. Results: Three children were not able to complete the reliable visual tests due to fixation losses (>20%) or high false positive rate (>15%) while 18 children successfully completed the test. The mean visual field sensitivity was 29.2 ± 3.7 decibels (dB) and 29.3 ± 3.5 dB when wearing DIMS and SV lens, respectively. The mean sensitivity differences between DIMS and SV lens among 76 locations ranged from −2.4 ± 3.9 dB to 1.6 ± 3.9 dB. No statistically significant difference in sensitivity was observed across 76 locations within the central 30o between DIMS and SV lens (Wilcoxon signed rank test with bonferroni correction for multiple comparisons, p > 0.00065). Compared to SV lens, 0.05 logarithm of minimal angle of resolution (logMAR) reduction in mid-peripheral NVA in all 4 quadrants (Superior, Temporal, Inferior and nasal, p < 0.05) was noted with the DIMS lens (N = 18). However, no statistically significant correlation was found between the mid-peripheral NVA and visual sensitivity at the specific locations. Conclusion: Although the mid-peripheral NVA was slightly reduced using DIMS lens, wearing DIMS lens did not change the children's visual sensitivity to detect the static stimulus within 30o visual field when compared to wearing SV lens. [ABSTRACT FROM AUTHOR]

Published

2024

3. Investigating causal effects of pupil size on visual discrimination and visually evoked potentials in an optotype discrimination task.

Author

Hsin-Hua Chin, Ying-Hsuan Tai, Yep, Rachel, Yi-Hsuan Chang, Chun-Hsien Hsu, and Chin-An Wang

Subjects

VISUAL evoked potentials, VISUAL discrimination, VISUAL perception, VISUAL acuity, DISCRIMINATION against overweight persons

Abstract

Pupil size primarily changes to regulate the amount of light entering the retina, optimizing the balance between visual acuity and sensitivity for effective visual processing. However, research directly examining the relationship between pupil size and visual processing has been limited. While a few studies have recorded pupil size and EEG signals to investigate the role of pupil size in visual processing, these studies have predominantly focused on the domain of visual sensitivity. Causal effects of pupil size on visual acuity, therefore, remain poorly understood. By manipulating peripheral background luminance levels and target stimulus contrast while simultaneously recording pupillometry and EEG signals, we examined how absolute pupil size affects visual discrimination and visually evoked potentials (VEP) in a task using optotype mimicking the Snellen eye chart, the most common assessment of visual acuity. Our findings indicate that both higher background luminance levels and higher target contrast were associated with improved target discrimination and faster correct reaction times. Moreover, while higher contrast visual stimuli evoked larger VEPs, the effects of pupil size on VEPs were not significant. Additionally, we did not observe inter-individual correlations between absolute pupil size and discrimination performance or VEP amplitude. Together, our results demonstrate that absolute pupil size, regulated by global luminance level, played a functional role in enhancing visual discrimination performance in an optotype discrimination task. The differential VEP effects of pupil size compared to those of stimulus contrast further suggested distinct neural mechanisms involved in facilitating visual acuity under small pupils. [ABSTRACT FROM AUTHOR]

Published

2024

4. Flicker and reading speed: Effects on individuals with visual sensitivity.

Author

Laycox, Caitlin A, Thompson, Rory, Haggerty, Jasmine A, Wilkins, Arnold J, and Haigh, Sarah M

Subjects

*READING speed, *MIGRAINE, *VISUAL environment, *LED lighting, *AUTOCORRELATION (Statistics)

Abstract

Flicker and patterns of stripes in the modern environment can evoke visual illusions, discomfort migraine, and seizures. We measured reading speed while striped and less striped texts were illuminated with LED lights. In Experiment 1, the lights flickered at 60 Hz and 120 Hz compared to 60 kHz (perceived as steady light). In Experiment 2, the lights flickered at 60 Hz or 600 Hz (at which frequency the phantom array is most visible), and were compared to continuous light. Two types of text were used: one containing words with high horizontal autocorrelation (striped) and another containing words with low autocorrelation (less striped). We measured the number of illusions participants saw in the Pattern Glare (PG) Test. Overall, reading speed was slowest during the 60 Hz and 600 Hz flicker and was slower when reading the high autocorrelation text. Interestingly, the low PG group showed greater effects of flicker on reading speed than the high PG group, which tended to be slower overall. In addition, reading speed in the high PG group was reduced when the autocorrelation of the text was high. These findings suggest that uncomfortable visual environments reduce reading efficiency, the more so in individuals who are visually sensitive. [ABSTRACT FROM AUTHOR]

Published

2024

5. Evaluation of the peripheral visual performance of DIMS spectacle lenses versus single vision lenses

Author

Kenneth Ka King Liu, Han Yu Zhang, Daisy Ka Yan Leung, and Carly Siu Yin Lam

Subjects

myopia control, defocus incorporated multiple segments (DIMS), perimetry, visual field, visual sensitivity, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

PurposeThis study evaluates differences in the visual field performance when wearing the Defocus Incorporated Multiple Segments (DIMS) spectacle lens compared to wearing a conventional single vision (SV) spectacle lens.MethodsTwenty-one children aged 9–14 years with spherical equivalent refraction (SER) between −1.13D to −4.75D were recruited. Mid-peripheral near visual acuity (NVA) under room lighting condition (500 lux ±10%) was measured using DIMS and SV lenses, respectively. Automated static perimetry (Zeiss, Humphrey Visual Field HFA 750i) with SITA Fast 30–2 protocol was used to investigate the visual field sensitivity. During the test, the study lens (Plano DIMS or SV lens) were inserted into the lens holder in front of the trial lenses with each child’s compensated prescription.ResultsThree children were not able to complete the reliable visual tests due to fixation losses (>20%) or high false positive rate (>15%) while 18 children successfully completed the test. The mean visual field sensitivity was 29.2 ± 3.7 decibels (dB) and 29.3 ± 3.5 dB when wearing DIMS and SV lens, respectively. The mean sensitivity differences between DIMS and SV lens among 76 locations ranged from −2.4 ± 3.9 dB to 1.6 ± 3.9 dB. No statistically significant difference in sensitivity was observed across 76 locations within the central 30o between DIMS and SV lens (Wilcoxon signed rank test with bonferroni correction for multiple comparisons, p > 0.00065). Compared to SV lens, 0.05 logarithm of minimal angle of resolution (logMAR) reduction in mid-peripheral NVA in all 4 quadrants (Superior, Temporal, Inferior and nasal, p

Published

2024

6. How much light intensity to induce repulsion or attraction behaviour in juvenile salmon?

Author

Matsuda, Keishi

Subjects

*LIGHT intensity, *PHOTOTAXIS, *SALMON, *DRINKING (Physiology), *FISHWAYS, *LIGHT emitting diodes, *ATLANTIC salmon

Abstract

Techniques to control the phototactic behaviour of fish have expanded with progress in LED lights. However, the phototaxis direction of fish could be reversible at some light intensities, and thus it is necessary to evaluate the light-intensity levels that will induce repulsion or attraction behaviour to understand the transition. This study determined the light intensities of white LED light required to induce repulsion or attraction behaviour from a dark place, and the degree of dark-adapted visual sensitivity in juvenile of two salmon species. Oncorhynchus keta smolts showed negative phototaxis under intense light intensity, but positive phototaxis was not observed. The range of light intensities under which O. masou exhibited positive phototaxis changed with the life stage (from pre-smolts to smolts). Notably, the light intensities that elicited positive phototaxis were relatively low and narrow for pre-smolts, whereas smolts responded to a greater range of intensities. Positive phototaxis disappeared in O. masou pre-smolts under intense light intensity, but not in O. masou smolts under the most-intense light intensity tested here. Negative phototaxis was not observed in O. masou pre-smolts or smolts. The appropriate light intensity indicated here may be used to either guide juvenile O. masou from the dam reservoir to fishways or bypass channels, or to repel O. keta smolts from the water intakes of agricultural diversion weirs or hydropower dams. [ABSTRACT FROM AUTHOR]

Published

2024

7. Repeated Divergence in Opsin Gene Expression Mirrors Photic Habitat Changes in Rapidly Evolving Crater Lake Cichlid Fishes.

Author

Bertinetti, César, Härer, Andreas, Karagic, Nidal, Meyer, Axel, and Torres-Dowdall, Julián

Subjects

*CRATER lakes, *CICHLIDS, *ADAPTIVE radiation, *GENE expression, *PHENOTYPIC plasticity, *HATCHERY fishes

Abstract

Selection pressures differ along environmental gradients, and traits tightly linked to fitness (e.g., the visual system) are expected to track such variation. Along gradients, adaptation to local conditions might be due to heritable and nonheritable environmentally induced variation. Disentangling these sources of phenotypic variation requires studying closely related populations in nature and in the laboratory. The Nicaraguan lakes represent an environmental gradient in photic conditions from clear crater lakes to very turbid great lakes. From two old, turbid great lakes, Midas cichlid fish (Amphilophus cf. citrinellus) independently colonized seven isolated crater lakes of varying light conditions, resulting in a small adaptive radiation. We estimated variation in visual sensitivities along this photic gradient by measuring cone opsin gene expression among lake populations. Visual sensitivities observed in all seven derived crater lake populations shifted predictably in direction and magnitude, repeatedly mirroring changes in photic conditions. Comparing wild-caught and laboratory-reared fish revealed that 48% of this phenotypic variation is genetically determined and evolved rapidly. Decreasing intrapopulation variation as environments become spectrally narrower suggests that different selective landscapes operate along the gradient. We conclude that the power to predict phenotypic evolution along gradients depends on both the magnitude of environmental change and the selective landscape shape. [ABSTRACT FROM AUTHOR]

Published

2024

8. Beyond balance: The role of the Vestibular system in action recognition

Author

Roberto Gammeri, Maria-Chiara Villa, Tommaso Ciorli, Anna Berti, and Raffaella Ricci

Subjects

Galvanic Vestibular stimulation, Vestibular system, Action recognition, Motor familiarity, Visual sensitivity, Mirror processing, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Background: Action recognition is a fundamental aspect of human interaction. This process is mediated by the activation of shared sensorimotor representations during action execution and observation. Although complex movements involving balance or head and trunk rotations require vestibular signals for effective execution, their role in the recognition of others' actions is still unknown. Objective: To investigate the causal involvement of the vestibular system in the discrimination of actions performed by others and whether this is influenced by motor familiarity. Methods: In a single-blind design involving 25 healthy participants, Galvanic Vestibular Stimulation (GVS) was administered during an Action Discrimination Task (ADT), in which videos of actions categorized as vestibular/non-vestibular and familiar/unfamiliar were presented. Following each video, participants were required to identify the climax of the previously viewed action between two image options, using a two-alternative forced choice paradigm. The ADT was performed in active and sham GVS conditions, with left or right anodal montages. Response Times (RTs), Accuracy, and subjective motor familiarity were recorded for each action category. Results: In sham GVS condition, an overall familiarity effect was observed, where RTs for familiar actions were faster than RTs for unfamiliar ones, regardless of vestibular engagement (p

Published

2024

9. Seeing invisible light: 2-photon microperimetry to measure visual function

Author

Mehta, Urmi, Palczewska, Grazyna, Lin, Ken Y, and Browne, Andrew W

Subjects

Biomedical and Clinical Sciences, Ophthalmology and Optometry, Clinical Research, Eye Disease and Disorders of Vision, Neurosciences, Eye, Two-photon microperimetry, Visual sensitivity, cataracts

Abstract

PurposeThe accuracy of conventional visual function tests, which emit visible light, decreases in patients with corneal scars, cataracts, and vitreous hemorrhages. In contrast, infrared (IR) light exhibits greater tissue penetrance than visible light and is less susceptible to optical opacities. We therefore compared conventional visual function tests against infrared 2-phton microperimetry (2PM-IR) in a subject with a brunescent nuclear sclerotic and posterior subcapsular cataract before and after cataract surgery.MethodsTesting using infrared light microperimetry from a novel device (2PM-IR), visible light microperimetry from a novel device (2PM-Vis), conventional microperimetry, and the cone contrast threshold (CCT) test were performed before and after cataract surgery.ResultsRetinal sensitivity assessed using 2PM-IR, 2PM-Vis, and cMP improved by 3.4 dB, 17.4 dB, and 18 dB, respectively. Cone contrast threshold testing improved for the S-cone, M-cone, and l-cone by 111, 14, and 30.Conclusions and importance2PM-IR, unlike conventional visual function tests, showed minimal variability in retinal sensitivity before and after surgery. Thus, IR visual stimulation may provide a more accurate means of measuring neurosensory retinal function by circumventing optical media opacities, aiding in the diagnosis of early macular disease.

Published

2022

10. A Visual Sensitivity Aware ABR Algorithm for DASH via Deep Reinforcement Learning.

Author

JIN YE, MENG DAN, and WENCHAO JIANG

Abstract

In order to cope with the fluctuation of network bandwidth and provide smooth video services, adaptive video streaming technology is proposed. In particular, the adaptive bitrate (ABR) algorithm is widely used in dynamic adaptive streaming over HTTP (DASH) to improve quality of experience (QoE). However, existing ABR algorithms still ignore the inherent visual sensitivity of human visual system (HVS). As the final receiver of video, HVS has different sensitivity to the quality distortion of different video content, and video content with high visual sensitivity needs to allocate more bitrate resources. Therefore, existing ABR algorithms still have limitations in reasonably allocating bitrate and maximizing QoE. To solve this problem, this paper designs an adaptive bitrate strategy from the perspective of user vision, studies the modeling of visual sensitivity, and proposes a visual sensitivity aware ABR algorithm. We extract a set of content features and attribute features from the video, and consider the simulation of HVS to establish a totalmasking effectmodel that reflects the visual sensitivity more accurately. Further, the network status, buffer occupancy, and visual sensitivity are comprehensively considered under a deep reinforcement learning framework to select the appropriate bitrate for maximizing QoE. We implement the proposed algorithm over a realistic trace-driven evaluation and compare its performance with several latest algorithms. Experimental results show that our algorithm can align ABR strategy with visual sensitivity to achieve better QoE in high visual sensitivity content, and improves the average perceptual video quality and overall user QoE by 18.3% and 22.8%, respectively. Additionally, we prove the feasibility of our algorithm through subjective evaluation in the real environment. [ABSTRACT FROM AUTHOR]

Published

2024

11. Exploring sensory sensitivity, cortical excitability, and habituation in episodic migraine, as a function of age and disease severity, using the pattern-reversal task

Author

Angela Marti-Marca, Adrià Vilà-Balló, Xim Cerda-Company, Nara Ikumi, Marta Torres-Ferrus, Edoardo Caronna, Victor J. Gallardo, Alicia Alpuente, Mireia Torralba Cuello, Salvador Soto-Faraco, and Patricia Pozo-Rosich

Subjects

Migraine, EEG, Visual processing, Visual sensitivity, Cortical excitability, Habituation, Medicine

Abstract

Abstract Background Migraine is a cyclic, neurosensory disorder characterized by recurrent headaches and altered sensory processing. The latter is manifested in hypersensitivity to visual stimuli, measured with questionnaires and sensory thresholds, as well as in abnormal cortical excitability and a lack of habituation, assessed with visual evoked potentials elicited by pattern-reversal stimulation. Here, the goal was to determine whether factors such as age and/or disease severity may exert a modulatory influence on sensory sensitivity, cortical excitability, and habituation. Methods Two similar experiments were carried out, the first comparing 24 young, episodic migraine patients and 28 healthy age- and gender-matched controls and the second 36 middle-aged, episodic migraine patients and 30 healthy age- and gender-matched controls. A neurologist confirmed the diagnoses. Migraine phases were obtained using eDiaries. Sensory sensitivity was assessed with the Sensory Perception Quotient and group comparisons were carried out. We obtained pattern-reversal visual evoked potentials and calculated the N1-P1 Peak-to-Peak amplitude. Two linear mixed-effects models were fitted to these data. The first model had Block (first block, last block) and Group (patients, controls) as fixed factors, whereas the second model had Trial (all trials) and Group as fixed factors. Participant was included as a random factor in both. N1-P1 first block amplitude was used to assess cortical excitability and habituation was defined as a decrease of N1-P1 amplitude across Blocks/Trials. Both experiments were performed interictally. Results The final samples consisted of 18 patients with episodic migraine and 27 headache-free controls (first experiment) and 19 patients and 29 controls (second experiment). In both experiments, patients reported increased visual hypersensitivity on the Sensory Perception Quotient as compared to controls. Regarding N1-P1 peak-to-peak data, there was no main effect of Group, indicating no differences in cortical excitability between groups. Finally, significant main effects of both Block and Trial were found indicating habituation in both groups, regardless of age and headache frequency. Conclusions The results of this study yielded evidence for significant hypersensitivity in patients but no significant differences in either habituation or cortical excitability, as compared to headache-free controls. Although the alterations in patients may be less pronounced than originally anticipated they demonstrate the need for the definition and standardization of optimal methodological parameters.

Published

2023

12. Distributed Vision in Spiders

Author

Winsor, Alex M., Morehouse, Nathan I., Jakob, Elizabeth M., Marshall, N. Justin, Series Editor, Collin, Shaun P., Series Editor, Buschbeck, Elke, editor, and Bok, Michael, editor

Published

2023

13. Exploring sensory sensitivity, cortical excitability, and habituation in episodic migraine, as a function of age and disease severity, using the pattern-reversal task.

Author

Marti-Marca, Angela, Vilà-Balló, Adrià, Cerda-Company, Xim, Ikumi, Nara, Torres-Ferrus, Marta, Caronna, Edoardo, Gallardo, Victor J., Alpuente, Alicia, Torralba Cuello, Mireia, Soto-Faraco, Salvador, and Pozo-Rosich, Patricia

Subjects

*MIGRAINE diagnosis, *STATISTICS, *ELECTROENCEPHALOGRAPHY, *ANALYSIS of variance, *FISHER exact test, *MANN Whitney U Test, *REGRESSION analysis, *LEARNING, *SEVERITY of illness index, *T-test (Statistics), *SENSORY defensiveness, *AGING, *VISUAL perception, *DESCRIPTIVE statistics, *RESEARCH funding, *DATA analysis software, *DATA analysis, *VISUAL evoked response

Abstract

Background: Migraine is a cyclic, neurosensory disorder characterized by recurrent headaches and altered sensory processing. The latter is manifested in hypersensitivity to visual stimuli, measured with questionnaires and sensory thresholds, as well as in abnormal cortical excitability and a lack of habituation, assessed with visual evoked potentials elicited by pattern-reversal stimulation. Here, the goal was to determine whether factors such as age and/or disease severity may exert a modulatory influence on sensory sensitivity, cortical excitability, and habituation. Methods: Two similar experiments were carried out, the first comparing 24 young, episodic migraine patients and 28 healthy age- and gender-matched controls and the second 36 middle-aged, episodic migraine patients and 30 healthy age- and gender-matched controls. A neurologist confirmed the diagnoses. Migraine phases were obtained using eDiaries. Sensory sensitivity was assessed with the Sensory Perception Quotient and group comparisons were carried out. We obtained pattern-reversal visual evoked potentials and calculated the N1-P1 Peak-to-Peak amplitude. Two linear mixed-effects models were fitted to these data. The first model had Block (first block, last block) and Group (patients, controls) as fixed factors, whereas the second model had Trial (all trials) and Group as fixed factors. Participant was included as a random factor in both. N1-P1 first block amplitude was used to assess cortical excitability and habituation was defined as a decrease of N1-P1 amplitude across Blocks/Trials. Both experiments were performed interictally. Results: The final samples consisted of 18 patients with episodic migraine and 27 headache-free controls (first experiment) and 19 patients and 29 controls (second experiment). In both experiments, patients reported increased visual hypersensitivity on the Sensory Perception Quotient as compared to controls. Regarding N1-P1 peak-to-peak data, there was no main effect of Group, indicating no differences in cortical excitability between groups. Finally, significant main effects of both Block and Trial were found indicating habituation in both groups, regardless of age and headache frequency. Conclusions: The results of this study yielded evidence for significant hypersensitivity in patients but no significant differences in either habituation or cortical excitability, as compared to headache-free controls. Although the alterations in patients may be less pronounced than originally anticipated they demonstrate the need for the definition and standardization of optimal methodological parameters. [ABSTRACT FROM AUTHOR]

Published

2023

14. A second locus contributing to the differential expression of the blue sensitive opsin SWS2A in Lake Malawi cichlids.

Author

Nandamuri, Sri Pratima, Schulte, Jane E., Yourick, Miranda R., Sandkam, Benjamin A., Behrens, Kristen A., Schreiner, Melissa M., Dayanim, Maya, Sweatt, Garrett, Conte, Matthew A., Juntti, Scott A., and Carleton, Karen L.

Subjects

*GENE expression, *CICHLIDS, *LAKES

Abstract

African cichlids provide an ideal platform for studying genes responsible for mate choice and species divergence. These highly speciose fishes vary in expression of seven distinct cone opsin genes. Each species expresses a subset of these genes, leading to extensive diversity in visual sensitivities. In a genetic cross between two Lake Malawi cichlid species with varying opsin expression, we previously identified two quantitative trait loci responsible for differential expression of the short wavelength sensitive SWS2A opsin gene. We then identified the RX1 gene as contributing the largest effect. Here we aim to identify the second causative factor. We identify MITFA and BHE40 as candidate genes. Several lines of evidence suggest that an intronic insertion at the MITFA locus may be responsible for differential SWS2A expression. We tested the effect of MITFA on SWS2A expression using CRISPR/Cas9 coding sequence knockouts in Astatotilapia burtoni. Although the mutation altered SWS2A expression, its effect contradicted our expectations, with MITFAd10/d10 mutants expressing more SWS2A opsin. This work provides some support for a role for MITFA, but additional work is needed to understand the mechanism by which MITFA acts, and to explore the potential role of other genes, including BHE40. [ABSTRACT FROM AUTHOR]

Published

2023

15. Environmental plasticity in opsin expression due to light and thyroid hormone in adult and developing Astatotilapia burtoni.

Author

Schreiner, Melissa M., Yourick, Miranda R., Juntti, Scott A., and Carleton, Karen L.

Subjects

*THYROID hormones, *CICHLIDS, *SPECTRAL sensitivity, *ADULTS, *THYROID hormone receptors, *WAVELENGTHS

Abstract

Cichlid fishes show remarkable variation in visual sensitivities through differential expression of seven cone opsin genes. Many species undergo spectral sensitivity shifts from shorter to longer wavelengths as they develop from larvae to adults. However, while some species retain larval-like short wavelength sensitivities, others show adult-like longer wavelength sensitivities throughout life. The riverine cichlid, Astatotilapia burtoni, shows a single cone progression from ultraviolet to violet to blue sensitivity, while their long wavelength double cones maintain green and red sensitivities throughout life. To identify mechanisms that regulate these sensitivities, we asked whether thyroid hormone (TH) or light environment can drive shifts. We find that developmental treatment with TH can speed shifts to longer wavelength sensitivity, but only in single cones. TH inhibition can short wavelength shift adult opsin expression. Exposure to light regimes containing UV wavelengths induce short wavelength shifts in single cones early in development. None of the treatments produces double cone shifts or significant expression of the shortest wavelength double cone opsin, rh2b, although we detect no cis-regulatory variation. This suggests that while single cones show both TH and light plasticity, A. burtoni double cones have lost this plasticity, perhaps through changes in trans-acting opsin regulation. [ABSTRACT FROM AUTHOR]

Published

2023

16. Spectacles with highly aspherical lenslets for myopia control do not change visual sensitivity in automated static perimetry.

Author

Yi Gao, Spiegel, Daniel P., Muzahid, Izzah Al Ilma, Ee Woon Lim, and Drobe, Björn

Subjects

PERIMETRY, VISUAL fields, MYOPIA, EYEGLASSES, REFRACTIVE errors

Abstract

Purpose: Spectacle lenses with arrays of lenslets have gained popularity in myopia control due to their high efficacy, low impact on visual performance, and non-invasiveness. One of the questions regarding their impact on visual performance that still remain is that: do the lenslets impact visual field sensitivity? The current study aims to investigate the impact of wearing spectacle lenses with highly aspherical lenslets (HAL) on the visual field sensitivity. Methods: An automated static perimetry test (Goldman perimeter target III) was employed to measure the detection sensitivity in the visual field. Targets were white light dots of various luminance levels and size 0.43°, randomly appearing at 76 locations within 30° eccentricity. Twenty-one adult subjects (age 23-61, spherical equivalent refractive error (SER) -8.75 D to +0.88 D) participated in the study. Sensitivities through two lenses, HAL and a single vision lens (SVL) as the control condition, were measured in random order. Results: The mean sensitivity differences between HAL and SVL across the 76 tested locations ranged between -1.14 decibels (dB) and 1.28 dB. Only one location at 30° in the temporal visual field reached statistical significance (p < 0.00065) whereby the sensitivity increased by 1.1 dB with HAL. No significant correlation was found between the difference in sensitivity and age or SER. Such a difference is unlikely to be clinically relevant. Conclusion: Compared to the SVL, the HAL did not change detection sensitivity to static targets in the whole visual field within 30° eccentricity. [ABSTRACT FROM AUTHOR]

Published

2022

17. Photosensitive and Pattern-Sensitive Epilepsy: A Guide for Patients and Caregivers

Author

Covanis, Athanasios, Solodar, Jessica, and Kasteleijn-Nolst Trenite, Dorothee, editor

Published

2021

18. Postmodernist Visual Discourse on Lyotard's Views on Dushan's Works

Author

Soheila Bahremani, Hossein Ardalani, Nafiseh Namadianpour, and Parnaz Goodarzparvari

Subjects

lyotard, dushan, visual sensitivity, postmodernist high, Philosophy (General), B1-5802

Abstract

The French scholar Jan-Francoisa Lyotard (1925-98) deconstructs from categories such as speech and language and places the image and play against it. He places a postmodernist visual sensibility against the modernist speech sensitivity. He comes up with figural logic. Lyotard has the critical thinking and offers new ways to critique contemporary intellectual and cultural status in various political, social, and artistic fields. These new practices are facing with many challenges, but at the same time are the motivating and inspiring. The general criteria of truth and falsehood, right and wrong, good and evil are highly problematic within the theoretical framework of Lyotard's thinking and cannot be taken for granted. But in the absence of such rules, it seeks responsible thought and action. Lyotard presents a complex picture of art and culture. An image in which realism, modernism, postmodernism coexist together in all periods of art work. So, contrary to the postmodern situation, in which the postmodern phenomenon of the late twentieth century is considered in response to the question: what is postmodern? The postmodern issue is related to a matter of aesthetics style rather than historical period.

Published

2021

19. Seeing invisible light: 2-photon microperimetry to measure visual function

Author

Urmi Mehta, Grazyna Palczewska, Ken Y. Lin, and Andrew W. Browne

Subjects

Two-photon microperimetry, cataracts, Visual sensitivity, Ophthalmology, RE1-994

Abstract

Purpose: The accuracy of conventional visual function tests, which emit visible light, decreases in patients with corneal scars, cataracts, and vitreous hemorrhages. In contrast, infrared (IR) light exhibits greater tissue penetrance than visible light and is less susceptible to optical opacities. We therefore compared conventional visual function tests against infrared 2-phton microperimetry (2PM-IR) in a subject with a brunescent nuclear sclerotic and posterior subcapsular cataract before and after cataract surgery. Methods: Testing using infrared light microperimetry from a novel device (2PM-IR), visible light microperimetry from a novel device (2PM-Vis), conventional microperimetry, and the cone contrast threshold (CCT) test were performed before and after cataract surgery. Results: Retinal sensitivity assessed using 2PM-IR, 2PM-Vis, and cMP improved by 3.4 dB, 17.4 dB, and 18 dB, respectively. Cone contrast threshold testing improved for the S-cone, M-cone, and l-cone by 111, 14, and 30. Conclusions and Importance: 2PM-IR, unlike conventional visual function tests, showed minimal variability in retinal sensitivity before and after surgery. Thus, IR visual stimulation may provide a more accurate means of measuring neurosensory retinal function by circumventing optical media opacities, aiding in the diagnosis of early macular disease.

Published

2022

20. Behavioural and physiological limits to vision in mammals

Author

Field, Greg D and Sampath, Alapakkam P

Subjects

Neurosciences, Eye Disease and Disorders of Vision, Eye, Animals, Mammals, Sensory Thresholds, Vision, Ocular, Visual Perception, rod photoreceptor, photon detection, visual sensitivity, signal processing, physical limits, scotopic vision, Biological Sciences, Medical and Health Sciences, Evolutionary Biology

Abstract

Human vision is exquisitely sensitive-a dark-adapted observer is capable of reliably detecting the absorption of a few quanta of light. Such sensitivity requires that the sensory receptors of the retina, rod photoreceptors, generate a reliable signal when single photons are absorbed. In addition, the retina must be able to extract this information and relay it to higher visual centres under conditions where very few rods signal single-photon responses while the majority generate only noise. Critical to signal transmission are mechanistic optimizations within rods and their dedicated retinal circuits that enhance the discriminability of single-photon responses by mitigating photoreceptor and synaptic noise. We describe behavioural experiments over the past century that have led to the appreciation of high sensitivity near absolute visual threshold. We further consider mechanisms within rod photoreceptors and dedicated rod circuits that act to extract single-photon responses from cellular noise. We highlight how these studies have shaped our understanding of brain function and point out several unresolved questions in the processing of light near the visual threshold.This article is part of the themed issue 'Vision in dim light'.

Published

2017

21. Temporal context modulates sensory attenuation magnitude

Author

Dunja Storch and Eckart Zimmermann

Subjects

Sensory attenuation, Temporal expectation, Visual sensitivity, Psychology, BF1-990

Abstract

In studies with self-produced sensory events, sensitivity for these events has been found to be reduced. This phenomenon is called sensory attenuation, and it has been assumed that the crucial factor is the self-production of the event. However, this factor may be confounded with the temporal predictability of the event, as well as with attentional focus on the event. In this study, we wondered about the influence of temporal stimulus predictably on sensory attenuation. We asked observers to discriminate the orientation of Gabor patches that were presented randomly at various times around a button press. Despite the unpredictability of stimulus occurrence, attenuation for these stimuli was tuned to the time of the button press. However, temporal expectations determined attenuation magnitude. Sensory attenuation was stronger when stimuli were expected to occur more often before the button press. When stimuli were expected to occur more often after the button press, no sensory attenuation was found. Our results show first that sensory attenuation occurs mandatorily even if stimulus occurrence cannot be predicted temporally. Second, temporal attention, guided by temporal stimulus probabilities, modulates sensory attenuation magnitude.

Published

2022

22. Unilateral increased visual sensitivity in cluster headache: a cross-sectional study.

Author

Brandt, Roemer B, Cnossen, Victor M, Doesborg, Patty GG, Coo, Ilse Frederieke de, Perenboom, Matthijs J L., Carpay, Johannes A, Meilof, Roy, Terwindt, Gisela Marie, Ferrari, Michel D, and Fronczek, Rolf

Subjects

*CLUSTER headache, *CROSS-sectional method

Abstract

Background and Objectives: Increased sensitivity to light and patterns is typically associated with migraine, but has also been anecdotally reported in cluster headache, leading to diagnostic confusion. We wanted to assess whether visual sensitivity is increased ictally and interictally in cluster headache. Methods: We used the validated Leiden Visual Sensitivity Scale (L-VISS) questionnaire (range 0-36 points) to measure visual sensitivity in people with episodic or chronic cluster headache: (i) during attacks; (ii) in-between attacks; and in episodic cluster headache (iii) in-between bouts. The L-VISS scores were compared with the L-VISS scores obtained in a previous study in healthy controls and participants with migraine. Results: Mean L-VISS scores were higher for: (i) ictal vs interictal cluster headache (episodic cluster headache: 11.9 ± 8.0 vs. 5.2 ± 5.5, chronic cluster headache: 13.7 ± 8.4 vs 5.6 ± 4.8; p < 0.001); (ii) interictal cluster headache vs controls (5.3 ± 5.2 vs 3.6 ± 2.8, p < 0.001); (iii) interictal chronic cluster headache vs interictal ECH in bout (5.9 ± 0.5 vs 3.8 ± 0.5, p = 0.009), and (iv) interictal episodic cluster headache in bout vs episodic cluster headache out-of-bout (5.2 ± 5.5 vs. 3.7 ± 4.3, p < 0.001). Subjective visual hypersensitivity was reported by 110/121 (91%; 9 missing) participants with cluster headache and was mostly unilateral in 70/110 (64%) and ipsilateral to the ictal pain in 69/70 (99%) participants. Conclusion: Cluster headache is associated with increased ictal and interictal visual sensitivity. In contrast to migraine, this is mostly unilateral and ipsilateral on the side of the ictal pain. [ABSTRACT FROM AUTHOR]

Published

2022

23. Cuticular Drusen in Age-Related Macular Degeneration: Association with Progression and Impact on Visual Sensitivity.

Author

Goh, Kai Lyn, Chen, Fred K., Balaratnasingam, Chandrakumar, Abbott, Carla J., Hodgson, Lauren A.B., Guymer, Robyn H., and Wu, Zhichao

Subjects

*RETINAL degeneration, *VISION, *ATROPHY, *PHENOTYPES

Abstract

To determine the prognostic significance and impact on visual function of the cuticular drusen phenotype in a cohort with intermediate age-related macular degeneration (AMD). Longitudinal, observational study. Participants aged 50 years or older, with bilateral large conventional drusen, without late AMD. Multimodal imaging (MMI) and microperimetry were performed at baseline and then every 6 months for up to 3 years. Eyes were graded for the MMI-based presence of cuticular drusen at baseline. Color fundus photographs were used to grade for the presence of pigmentary abnormalities. OCT scans were used to calculate drusen volume. The associations between cuticular drusen and progression to MMI-defined late AMD (including OCT signs of atrophy) and the impact on visual sensitivity were examined with and without adjustment for the confounders of baseline age, pigmentary abnormalities, and drusen volume. Time to develop MMI-defined late AMD and change in mean visual sensitivity. A total of 280 eyes from 140 participants were included, with 70 eyes from 35 individuals (25%) having cuticular drusen at baseline. Cuticular drusen were not significantly associated with an increased rate of progression to late AMD with and without adjustment for confounders (P ≥ 0.784 for both). In an adjusted model, cuticular drusen were not associated with lower baseline visual sensitivity (P = 0.758) or a faster rate of visual sensitivity decline (P = 0.196). In a cohort with bilateral large conventional drusen, individuals with the cuticular drusen phenotype had neither a higher nor lower risk of developing late AMD over 3 years and were not associated with a difference in rate of visual sensitivity decline compared with those without this phenotype. As such, individuals with this phenotype currently warrant similar monitoring strategies as those with conventional drusen. [ABSTRACT FROM AUTHOR]

Published

2022

24. Thyroid hormone tinkering elicits integrated phenotypic changes potentially explaining rapid adaptation of color vision in cichlid fish.

Author

Karagic, Nidal, Härer, Andreas, Meyer, Axel, and Torres‐Dowdall, Julián

Subjects

*CICHLIDS, *COLOR vision, *PHENOTYPIC plasticity, *THYROID hormones, *AQUATIC habitats

Abstract

Vision is critical for most vertebrates, including fish. One challenge that aquatic habitats pose is the high variability in spectral properties depending on depth and the inherent optical properties of the water. By altering opsin gene expression and chromophore usage, cichlid fish modulate visual sensitivities to maximize sensory input from the available light in their respective habitat. Thyroid hormone (TH) has been proposed to play a role in governing adaptive diversification in visual sensitivity in Nicaraguan Midas cichlids, which evolved in less than 4000 generations. As suggested by indirect measurements of TH levels (i.e., expression of deiodinases), populations adapted to short wavelength light in clear lakes have lower TH levels than ones inhabiting turbid lakes enriched in long‐wavelength light. We experimentally manipulated TH levels by exposing 2‐week‐old Midas cichlids to exogenous TH or a TH inhibitor and measured opsin gene expression and chromophore usage (via cyp27c1 expression). Although exogenous TH induces long‐wavelength sensitivity by changing opsin gene expression and chromophore usage in a concerted manner, TH‐inhibited fish exhibit a visual phenotype with sensitivities shifted to shorter wavelengths. Tinkering with TH levels in eyes results in concerted phenotypic changes that can provide a rapid mechanism of adaptation to novel light environments. [ABSTRACT FROM AUTHOR]

Published

2022

25. A Single Generalized Seizure History: An EEG Like as Status Epilepticus

Author

Dilara MERMİ DİBEK, Arzu MAHARRAMOVA, Pınar TAMER, İbrahim ÖZTURA, and Barış BAKLAN

Subjects

fixation-off sensitivity, eyelid myoclonia, status epilepticus, visual sensitivity, Neurology. Diseases of the nervous system, RC346-429, Medicine

Abstract

Visual sensitivities include photosensitivity, eye closure sensitivity, fixation off-eye closed and pattern sensitivity. Fixation off-eye closed sensitivity occurs while eye closed and the period lasting for more than 3 s and persisting as long as the eyes remain closed or when fixation was interrupted. In this case report, a 19 years old female patient had a history of a single generalized seizure one year ago. Although there is no more seizure, electroencephalography (EEG) examination like as a status epilepticus at different times. When we examined EEG, we recognized these discharges became when eyes closed and persisted as long as eyes closed. In addition, video recording showed us eyelid myoclonus without absence during eyes closed and discharged on EEG. It is aimed to discuss the fixation-off sensitivity and eyelid myoclonus accompanied by literature with this case report.

Published

2020

26. Investigating causal effects of pupil size on visual discrimination and visually evoked potentials in an optotype discrimination task.

Author

Chin HH, Tai YH, Yep R, Chang YH, Hsu CH, and Wang CA

Abstract

Pupil size primarily changes to regulate the amount of light entering the retina, optimizing the balance between visual acuity and sensitivity for effective visual processing. However, research directly examining the relationship between pupil size and visual processing has been limited. While a few studies have recorded pupil size and EEG signals to investigate the role of pupil size in visual processing, these studies have predominantly focused on the domain of visual sensitivity. Causal effects of pupil size on visual acuity, therefore, remain poorly understood. By manipulating peripheral background luminance levels and target stimulus contrast while simultaneously recording pupillometry and EEG signals, we examined how absolute pupil size affects visual discrimination and visually evoked potentials (VEP) in a task using optotype mimicking the Snellen eye chart, the most common assessment of visual acuity. Our findings indicate that both higher background luminance levels and higher target contrast were associated with improved target discrimination and faster correct reaction times. Moreover, while higher contrast visual stimuli evoked larger VEPs, the effects of pupil size on VEPs were not significant. Additionally, we did not observe inter-individual correlations between absolute pupil size and discrimination performance or VEP amplitude. Together, our results demonstrate that absolute pupil size, regulated by global luminance level, played a functional role in enhancing visual discrimination performance in an optotype discrimination task. The differential VEP effects of pupil size compared to those of stimulus contrast further suggested distinct neural mechanisms involved in facilitating visual acuity under small pupils., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Chin, Tai, Yep, Chang, Hsu and Wang.)

Published

2024

27. Review: Use of Electrophysiological Techniques to Study Visual Functions of Aquatic Organisms

Author

Xiaolong Gao, Shihui Lin, Mo Zhang, Mingxin Lyu, Yafeng Liu, Xuan Luo, Weiwei You, and Caihuan Ke

Subjects

aquatic animals, electroretinogram (ERG), visual sensitivity, photoreceptor, diel rhythm, Physiology, QP1-981

Abstract

The light environments of natural water sources have specific characteristics. For the majority of aquatic organisms, vision is crucial for predation, hiding from predators, communicating information, and reproduction. Electroretinography (ERG) is a diagnostic method used for assessing visual function. An electroretinogram records the comprehensive potential response of retinal cells under light stimuli and divides it into several components. Unique wave components are derived from different retinal cells, thus retinal function can be determined by analyzing these components. This review provides an overview of the milestones of ERG technology, describing how ERG is used to study visual sensitivity (e.g., spectral sensitivity, luminous sensitivity, and temporal resolution) of fish, crustaceans, mollusks, and other aquatic organisms (seals, sea lions, sea turtles, horseshoe crabs, and jellyfish). In addition, it describes the correlations between visual sensitivity and habitat, the variation of visual sensitivity as a function of individual growth, and the diel cycle changes of visual sensitivity. Efforts to identify the visual sensitivity of different aquatic organisms are vital to understanding the environmental plasticity of biological evolution and for directing aquaculture, marine fishery, and ecosystem management.

Published

2022

28. Review: Use of Electrophysiological Techniques to Study Visual Functions of Aquatic Organisms.

Author

Gao, Xiaolong, Lin, Shihui, Zhang, Mo, Lyu, Mingxin, Liu, Yafeng, Luo, Xuan, You, Weiwei, and Ke, Caihuan

Subjects

VISION, AQUATIC organisms, BIOLOGICAL evolution, ELECTROPHYSIOLOGY, LIMULIDAE

Abstract

The light environments of natural water sources have specific characteristics. For the majority of aquatic organisms, vision is crucial for predation, hiding from predators, communicating information, and reproduction. Electroretinography (ERG) is a diagnostic method used for assessing visual function. An electroretinogram records the comprehensive potential response of retinal cells under light stimuli and divides it into several components. Unique wave components are derived from different retinal cells, thus retinal function can be determined by analyzing these components. This review provides an overview of the milestones of ERG technology, describing how ERG is used to study visual sensitivity (e.g., spectral sensitivity, luminous sensitivity, and temporal resolution) of fish, crustaceans, mollusks, and other aquatic organisms (seals, sea lions, sea turtles, horseshoe crabs, and jellyfish). In addition, it describes the correlations between visual sensitivity and habitat, the variation of visual sensitivity as a function of individual growth, and the diel cycle changes of visual sensitivity. Efforts to identify the visual sensitivity of different aquatic organisms are vital to understanding the environmental plasticity of biological evolution and for directing aquaculture, marine fishery, and ecosystem management. [ABSTRACT FROM AUTHOR]

Published

2022

29. Test and Analysis of Chinese Coal Miners’ Vision Ability

Author

Deng, Mingming, Wu, Feng, Kacprzyk, Janusz, Series editor, Pal, Nikhil R., Advisory editor, Bello Perez, Rafael, Advisory editor, Corchado, Emilio S., Advisory editor, Hagras, Hani, Advisory editor, Kóczy, László T., Advisory editor, Kreinovich, Vladik, Advisory editor, Lin, Chin-Teng, Advisory editor, Lu, Jie, Advisory editor, Melin, Patricia, Advisory editor, Nedjah, Nadia, Advisory editor, Nguyen, Ngoc Thanh, Advisory editor, Wang, Jun, Advisory editor, Fechtelkotter, Paul, editor, and Legatt, Michael, editor

Published

2018

30. Deep Video Quality Assessor: From Spatio-Temporal Visual Sensitivity to a Convolutional Neural Aggregation Network

Author

Kim, Woojae, Kim, Jongyoo, Ahn, Sewoong, Kim, Jinwoo, Lee, Sanghoon, Hutchison, David, Series Editor, Kanade, Takeo, Series Editor, Kittler, Josef, Series Editor, Kleinberg, Jon M., Series Editor, Mattern, Friedemann, Series Editor, Mitchell, John C., Series Editor, Naor, Moni, Series Editor, Pandu Rangan, C., Series Editor, Steffen, Bernhard, Series Editor, Terzopoulos, Demetri, Series Editor, Tygar, Doug, Series Editor, Weikum, Gerhard, Series Editor, Ferrari, Vittorio, editor, Hebert, Martial, editor, Sminchisescu, Cristian, editor, and Weiss, Yair, editor

Published

2018

31. Short-wavelength visual sensitivity and sexual differences in plumage colouration of ovenbirds (Aves: Furnariinae).

Author

Barreira, Ana S., Eaton, Muir D., Vilacoba, Elisabet, Tubaro, Pablo L., and Kopuchian, Cecilia

Subjects

*AMINO acid sequence, *FEATHERS, *SPECIES diversity

Abstract

Ovenbirds represent a clade of exclusively Neotropical birds that are exceptionally diverse, despite their rather dull, melanin-based plumage. In general, sexes are considered monomorphic in size and colour, but several authors have reported females of some species within this family as being slightly paler than their conspecific counterparts. Our aim was to assess levels of sexual dichromatism in a set of ovenbird species representing a diversity of genera and plumage patterns; Furnarius rufus, Phleocryptes melanops, Synallaxis spixi and Schoeniophylax phryganophilus. For each species, we quantified sexual differences in brightness and colouration among 8–10 different plumage regions through modelling avian perceptual colour-space distances. To best inform our visual modelling parameters, we successfully sequenced the SWS1 gene fragment (associated with short-wavelength, including ultraviolet, visual sensitivity in birds) for one species, P. melanops, and found it possessed an amino acid sequence consistent with the VS-type SWS1 visual system. This provides further evidence supporting the presence of VS-sensitive opsin in ovenbirds. Among all four species, females were consistently brighter than males in at least one plumage patch, but chromatic colour differences between sexes were significant only for the throat patches of Schoeniophylax phryganophilus. Overall, we interpret ovenbirds to exhibit very low levels of sexual dichromatism, manifest mainly by achromatic colour differences. [ABSTRACT FROM AUTHOR]

Published

2021

32. On the Origin of the Eye’s Sensitivity Curves

Author

Niall, Keith K. and Niall, Keith K., editor

Published

2017

33. Asymmetric Foveated Just-Noticeable-Difference Model for Images With Visual Field Inhomogeneities.

Author

Chen, Zhenzhong and Wu, Wei

Subjects

*VISUAL acuity, *VISION, *EXPERIMENTAL design, *ANISOTROPY, *VERTICAL jump, *VISUAL fields

Abstract

Just noticeable difference (JND) models reveal visibility limitation of human visual system (HVS) and exploit perceptual redundancy in the visual signal. Conventional just noticeable difference (JND) model supposes the visual acuity is homogeneous with or without considerations on the isoeccentric locations. Recent research on vision science indicates that the effect of eccentricity on visual sensitivity is not homogeneous across the visual field (VF). Relevant studies have found visual acuity at the isoeccentric locations is better along the horizontal meridian than along the vertical meridian, i.e., horizontal-vertical anisotropy (HVA). Along the vertical meridian, better performance has been reported for the inferior meridian compared to the superior meridian, i.e., vertical-meridian asymmetry (VMA). These properties of HVS should be taken into account to yield a better JND estimation, for better exploiting the perceptual redundancy. In this paper, we use two hemi-ellipses to represent the iso-acuity contour, which can better express the HVA and VMA effects. Moreover, we design psychophysical experiments under different test conditions, where the results show the hemi-ellipse model performs better when compared to the circular model. Finally, we build an asymmetric foveated JND model using two hemi-ellipses for approximation. When comparing with traditional JND models, experimental results demonstrate the effectiveness of the proposed model. [ABSTRACT FROM AUTHOR]

Published

2020

34. Species and sex differences in eye morphometry and visual responsivity of two crepuscular sweat bee species (Megalopta spp., Hymenoptera: Halictidae).

Author

Jones, Beryl M, Seymoure, Brett M, Comi, Troy J, and Loew, Ellis R

Subjects

*HALICTIDAE, *HYMENOPTERA, *MORPHOMETRICS, *EYE, *SPECIES, *RETINA

Abstract

Visually dependent dim-light foraging has evolved repeatedly, broadening the ecological niches of some species. Many dim-light foraging lineages evolved from diurnal ancestors, requiring immense visual sensitivity increases to compensate for light levels a billion times dimmer than daylight. Some taxa, such as bees, are anatomically constrained by apposition compound eyes, which function well in daylight but not in starlight. Even with this constraint, the bee genus Megalopta has incredibly sensitive eyes, foraging in light levels up to nine orders of magnitude dimmer than diurnal relatives. Despite many behavioural studies, variation in visual sensitivity and eye morphometry has not been investigated within and across Megalopta species. Here we quantify external eye morphology (corneal area and facet size) for sympatric species of Megalopta , M. genalis and M. amoena , which forage during twilight. We use electroretinograms to show that males, despite being smaller than females, have equivalent visual sensitivity and increased retinal responsivity. Although males have relatively larger eyes compared with females, corneal area and facet size were not correlated with retinal responsivity, suggesting that males have additional non-morphological adaptations to increase retinal responsiveness. These findings provide the foundation for future work into the neural and physiological mechanisms that interface with morphology to influence visual sensitivity, with implications for understanding niche exploitation. [ABSTRACT FROM AUTHOR]

Published

2020

35. Tek Jeneralize Nöbet Öyküsü: Status Epileptikus Benzeri Bir EEG.

Author

MERMİ DİBEK, Dilara, MAHARRAMOVA, Arzu, TAMER, Pınar, ÖZTURA, İbrahim, and BAKLAN, Barış

Subjects

*DIAGNOSIS of epilepsy, *STATUS epilepticus diagnosis, *ELECTROENCEPHALOGRAPHY, *MYOCLONUS, *VISUAL perception

Abstract

Visual sensitivities include photosensitivity, eye closure sensitivity, fixation off-eye closed and pattern sensitivity. Fixation off-eye closed sensitivity occurs while eye closed and the period lasting for more than 3 s and persisting as long as the eyes remain closed or when fixation was interrupted. In this case report, a 19 years old female patient had a history of a single generalized seizure one year ago. Although there is no more seizure, electroencephalography (EEG) examination like as a status epilepticus at different times. When we examined EEG, we recognized these discharges became when eyes closed and persisted as long as eyes closed. In addition, video recording showed us eyelid myoclonus without absence during eyes closed and discharged on EEG. It is aimed to discuss the fixation-off sensitivity and eyelid myoclonus accompanied by literature with this case report. [ABSTRACT FROM AUTHOR]

Published

2020

36. Quantification of photophobia in visual snow syndrome: A case-control study.

Author

Eren, Ozan E, Ruscheweyh, Ruth, Straube, Andreas, and Schankin, Christoph J

Subjects

*RECEIVER operating characteristic curves, *VISUAL fields, *CASE-control method, *SNOW, *MIGRAINE aura, *SYNDROMES

Abstract

Objective: To quantify photophobia in visual snow syndrome (VSS), a debilitating migraine-associated visual disturbance manifesting with continuous "TV snow-like" flickering dots in the entire visual field and additional visual symptoms, such as photophobia.Methods: Photophobia was compared between 19 patients with VSS and 19 controls matched for age, sex, migraine and aura using the Leiden Visual Sensitivity Scale (L-VISS).Results: Patients with VSS had an increased L-VISS-score compared to matched controls [(22.2 ± 5.9 vs. 4.4 ± 4.8; ANOVA, factors VSS and comorbid migraine: Main effect for VSS (F = 100.70; p < 0.001), but not for migraine (F < 0.01; p = 1.00) or the interaction (F = 1.93; p = 0.16)]. An L-VISS-score of 14 identified VSS with a sensitivity and specificity of 95% (Receiver Operating Characteristic analysis, 0.986 ± 0.014, p ≤ 0.001).Conclusion: Patients with VSS suffer continuously from photophobia at a level similar to chronic migraineurs during attacks. Although migraine and VSS share dysfunctional visual processing, patients with VSS might be more severely affected. [ABSTRACT FROM AUTHOR]

Published

2020

37. Predictable events elicit less visual and temporal information uptake in an oddball paradigm.

Author

Saurels, Blake W., Lipp, Ottmar V., Yarrow, Kielan, and Arnold, Derek H.

Subjects

*TIME perception

Abstract

In the visual oddball paradigm, surprising inputs can seem expanded in time relative to unsurprising repeated events. A horizontal input embedded in a train of successive vertical inputs can, for instance, seem relatively protracted in time, even if all inputs are presented for an identical duration. It is unclear if this effect results from surprising events becoming apparently protracted, or from repeated events becoming apparently contracted in time. To disambiguate, we used a non-relative duration reproduction task, in which several standards preceded a test stimulus that had to be reproduced. We manipulated the predictability of test content over successive presentations. Overall, our data suggest that predictable stimuli induce a contraction of apparent duration (Experiments 1, 3, and 4). We also examine sensitivity to test content, and find that predictable stimuli elicit less uptake of visual information (Experiments 2 and 3). We discuss these findings in relation to the predictive coding framework. [ABSTRACT FROM AUTHOR]

Published

2020

38. Behavioural and physiological measurements of visual performance in the cuttlefish, Sepia officinalis

Author

Groeger, Gillian

Subjects

573.881458, Visual sensitivity

Abstract

This thesis investigated the behaviour and physiology of the visual system of Sepia officinalis by studying systematically its visual sensitivity and its spatial resolution. The cephalopod retina is composed of only photoreceptors and supporting cells, thereby providing a unique opportunity to study the interactions between photoreceptors, without the influence of other neurons, such as those typically found in the vertebrate retina. The minimum separable angle (MSA), a measure of spatial resolution, of S. officinalis was determined from behavioural experiments to be 42' for animals of 8 cm mantle length at 15 µW/cm² light intensity. As the animals grew in size and as the ambient light intensity was increased, S. officinalis showed improved visual acuity. Through these experiments, it was revealed that each tested size of animal adapted to light with similar efficiencies, and that factors other than retinal growth were involved in the improvement of behavioural MSA with increasing size. The minimum light intensity to which the retina of S. officinalis responded was 0.1 µW /cm2 , which was slightly higher than that to which individual photoreceptor cells responded. Retinal sensitivity decreased with increasing animal size. This was unexpected, as previous theoretical and behavioural studies in other species have shown sensitivity to increase with increasing animal size. Possible reasons for the decrease in sensitivity were a reciprocal decrease in cell resistance or an increase in dark noise. The visual sensitivity of S. officinalis was also affected by the stimulus flash wavelength and duration. Its retina adapted to background light in a way similar to vertebrate photoreceptors and the extracellular calcium concentration of the solution perfusing the retina affected this process. Finally, two series of experiments provided some evidence that functioning gap junctions exist in the retina of S. officinalis. By completing a study of the visual sensitivity of S. officinalis at the three levels of single cell, retina and whole animal, the visual processing that occurs between these physiological levels was investigated. From the work presented in this thesis, it is concluded that, although S. officinalis did not prove comparable in every aspect to other species on an intracellular level, it would be a useful model of behavioural and extracellular visual processes for both invertebrate and vertebrate species.

Published

2004

39. Rich Structural Index for Stereoscopic Image Quality Assessment

Author

Hua Zhang, Xinwen Hu, Ruoyun Gou, Lingjun Zhang, Bolun Zheng, and Zhuonan Shen

Subjects

depth information, image pyramid, cyclopean map, structural index, visual sensitivity, Chemical technology, TP1-1185

Abstract

The human visual system (HVS), affected by viewing distance when perceiving the stereo image information, is of great significance to study of stereoscopic image quality assessment. Many methods of stereoscopic image quality assessment do not have comprehensive consideration for human visual perception characteristics. In accordance with this, we propose a Rich Structural Index (RSI) for Stereoscopic Image objective Quality Assessment (SIQA) method based on multi-scale perception characteristics. To begin with, we put the stereo pair into the image pyramid based on Contrast Sensitivity Function (CSF) to obtain sensitive images of different resolution. Then, we obtain local Luminance and Structural Index (LSI) in a locally adaptive manner on gradient maps which consider the luminance masking and contrast masking. At the same time we use Singular Value Decomposition (SVD) to obtain the Sharpness and Intrinsic Structural Index (SISI) to effectively capture the changes introduced in the image (due to distortion). Meanwhile, considering the disparity edge structures, we use gradient cross-mapping algorithm to obtain Depth Texture Structural Index (DTSI). After that, we apply the standard deviation method for the above results to obtain contrast index of reference and distortion components. Finally, for the loss caused by the randomness of the parameters, we use Support Vector Machine Regression based on Genetic Algorithm (GA-SVR) training to obtain the final quality score. We conducted a comprehensive evaluation with state-of-the-art methods on four open databases. The experimental results show that the proposed method has stable performance and strong competitive advantage.

Published

2022

40. Study on efficacy and visual sensitivity of long - term masking therapy for children with ametropic amblyopia

Author

Xiao Chen, Ming Zhao, Qing-Yuan Zhang, Yu-Hui Jiang, Fu-Lei Wang, Jing Zhang, and Wei Ni

Subjects

anisometropia amblyopia, long-term masking therapy, clinical efficacy, visual sensitivity, Ophthalmology, RE1-994

Abstract

AIM: To investigate the efficacy and visual sensitivity of occlusion therapy combined training for children with ametropic amblyopia. METHODS: Totally 85 children(85 eyes)with anisometropic amblyopia treated in our hospital from January 2013 to January 2015 were selected. All patients were given occlusion therapy combined training. Statistical analysis of clinical efficacy and visual sensitivity changes were taken, and the changes of visual acuity, AULCSF, Smax, Frmax were analyzed. RESULTS: The visual acuity after therapy was significantly better than that before treatment(1.12±0.29 vs 0.45±0.25, Pmax and Frmax all increased, the difference between the two groups was statistically significant(PPP=0.001). Mild group and moderate group had no significant difference on the total clinical efficiency difference(χ2=3.091, P=0.079); between mild group and severe group total effective rate was significantly different(χ2=11.471, P=0.001); the moderate and severe groups total clinical efficiency were no significantly different(χ2=3.359, P=0.067). In addition, the total efficiency rate of wearing glasses under the age of 6 was significantly higher than that after 6 years old(95% vs 77%), statistical difference between the two groups was significant(PCONCLUSION: Masking therapy combined with comprehensive training, in the treatment of children with ametropic amblyopia, and wearing a corrective spectacles, is desirable, especially for children under 7 years of age.

Published

2017

41. Reproductive State Modulates Retinal Sensitivity to Light in Female Túngara Frogs

Author

Caitlin E. Leslie, Robert F. Rosencrans, Whitney Walkowski, William C. Gordon, Nicolas G. Bazan, Michael J. Ryan, and Hamilton E. Farris

Subjects

retina, visual sensitivity, hCG (human chorionic gonadotropin), hormone/reproduction/sexual, túngara frogs, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Visual cues are often a vital part of animal communication and courtship. While a plethora of studies have focused on the role that hormones play in acoustic communication of anurans, relatively few have explored hormonal modulation of vision in these animals. Much of what we do know comes from behavioral studies, which show that a frog’s hormonal state can significantly affect both its visual behavior and mating decisions. However, to fully understand how frogs use visual cues to make these mating decisions, we must first understand how their visual system processes these cues, and how hormones affect these processes. To do this, we performed electroretinograms (ERGs) to measure retinal sensitivity of túngara frogs (Physalaemus pustulosus), a neotropical species whose mating behavior includes previously described visual cues. To determine the effect of hormonal state on visual sensitivity, ERGs were recorded under scotopic and photopic conditions in frogs that were either non-reproductive or hormone-treated with human chorionic gonadotropin (hCG) prior to testing. Additionally, measurements of optical anatomy determined how túngara frog eye and retina morphology related to physiological sensitivity. As expected, we found that both sexes display higher visual sensitivity under scotopic conditions compared to photopic conditions. However, hormone injections significantly increased retinal sensitivity of females under scotopic conditions. These results support the hypothesis that hormonal modulation of neural mechanisms, such as those mediating visually guided reproductive behavior in this species, include modulation of the receptor organ: the retina. Thus, our data serve as a starting point for elucidating the mechanism of hormonal modulation of visual sensitivity.

Published

2020

42. Reproductive State Modulates Retinal Sensitivity to Light in Female Túngara Frogs.

Author

Leslie, Caitlin E., Rosencrans, Robert F., Walkowski, Whitney, Gordon, William C., Bazan, Nicolas G., Ryan, Michael J., and Farris, Hamilton E.

Subjects

ANIMAL courtship, ANIMAL sexual behavior, ANIMAL communication, FROGS, CHORIONIC gonadotropins

Abstract

Visual cues are often a vital part of animal communication and courtship. While a plethora of studies have focused on the role that hormones play in acoustic communication of anurans, relatively few have explored hormonal modulation of vision in these animals. Much of what we do know comes from behavioral studies, which show that a frog's hormonal state can significantly affect both its visual behavior and mating decisions. However, to fully understand how frogs use visual cues to make these mating decisions, we must first understand how their visual system processes these cues, and how hormones affect these processes. To do this, we performed electroretinograms (ERGs) to measure retinal sensitivity of túngara frogs (Physalaemus pustulosus), a neotropical species whose mating behavior includes previously described visual cues. To determine the effect of hormonal state on visual sensitivity, ERGs were recorded under scotopic and photopic conditions in frogs that were either non-reproductive or hormone-treated with human chorionic gonadotropin (hCG) prior to testing. Additionally, measurements of optical anatomy determined how túngara frog eye and retina morphology related to physiological sensitivity. As expected, we found that both sexes display higher visual sensitivity under scotopic conditions compared to photopic conditions. However, hormone injections significantly increased retinal sensitivity of females under scotopic conditions. These results support the hypothesis that hormonal modulation of neural mechanisms, such as those mediating visually guided reproductive behavior in this species, include modulation of the receptor organ: the retina. Thus, our data serve as a starting point for elucidating the mechanism of hormonal modulation of visual sensitivity. [ABSTRACT FROM AUTHOR]

Published

2020

43. Circadian regulation of phosphodiesterase 6 genes in zebrafish differs between cones and rods: Implications for photopic and scotopic vision.

Author

Abalo, Xesús M., Lagman, David, Heras, Gabriel, del Pozo, Ana, Eggert, Joel, and Larhammar, Dan

Subjects

*CIRCADIAN rhythms, *VISION, *LABORATORY zebrafish, *GENE expression, *OSCILLATIONS, *CLOCK genes, *RHODOPSIN genetics, *OPSINS

Abstract

A correlation is known to exist between visual sensitivity and oscillations in red opsinand rhodopsin gene expression in zebrafish, both regulated by the clock gene. This indicates that an endogenous circadian clock regulates behavioural visual sensitivity, apart from the regulation exerted by the pineal organ. However, the specific mechanisms for cones (photopic vision) and rods (scotopic vision) are poorly understood. In this work, we performed gene expression, cosinor and immunohistochemical analyses to investigate other key genes involved in light perception, encoding the different subunits of phosphodiesterase pde6 and transducin GαT, in constant lighting conditions and compared to normal light-dark conditions. We found that cones display prominent circadian oscillations in mRNA levels for the inhibitory subunit gene pde6ha that could contribute to the regulation of photopic sensitivity by preventing overstimulation in photopic conditions. In rods, the mRNA levels of the inhibitory subunit gene pde6ga oscillate under normal conditions and dampen down in constant light but continue oscillating in constant darkness. There is an increase in total relative expression for pde6gb in constant conditions. These observations, together with previous data, suggest a complex regulation of the scotopic sensitivity involving endogenous and non-endogenous components, possibly present also in other teleost species. The GαT genes do not display mRNA oscillations and therefore may not be essential for the circadian regulation of photosensitivity. In summary, our results support different regulation for the zebrafish photopic and scotopic sensitivities and suggest circadian regulation of pde6ha as a key factor regulating photopic sensitivity, while the regulatory mechanisms in rods appear to be more complex. [ABSTRACT FROM AUTHOR]

Published

2020

44. Circadian Vision in Zebrafish: From Molecule to Cell and from Neural Network to Behavior.

Author

Li, Lei

Subjects

*NEURAL transmission, *BRACHYDANIO, *EYE, *MELANOPSIN, *SUPRACHIASMATIC nucleus, *ANIMAL behavior, *VISION, *RETINA

Abstract

Most visual system functions, such as opsin gene expression, retinal neural transmission, light perception, and visual sensitivity, display robust day-night rhythms. The rhythms persist in constant lighting conditions, suggesting the involvement of endogenous circadian clocks. While the circadian pacemakers that control the rhythms of animal behaviors are mostly found in the forebrain and midbrain, self-sustained circadian oscillators are also present in the neural retina, where they play important roles in the regulation of circadian vision. This review highlights some of the correlative studies of the circadian control of visual system functions in zebrafish. Because zebrafish maintain a high evolutionary proximity to mammals, the findings from zebrafish research may provide insights for a better understanding of the mechanisms of circadian vision in other vertebrate species including humans. [ABSTRACT FROM AUTHOR]

Published

2019

45. Low availability of choline in utero disrupts development and function of the retina.

Author

Trujillo-Gonzalez, Isis, Friday, Walter B., Munson, Carolyn A., Bachleda, Amelia, Weiss, Ellen R., Alam, Nazia M., Wei Sha, Zeisel, Steven H., and Surzenko, Natalia

Abstract

Adequate supply of choline, an essential nutrient, is necessary to support proper brain development. Whether prenatal choline availability plays a role in development of the visual system is currently unknown. In this study, we addressed the role of in utero choline supply for the development and later function of the retina in a mouse model. We lowered choline availability in the maternal diet during pregnancy and assessed proliferative and differentiation properties of retinal progenitor cells (RPCs) in the developing prenatal retina, as well as visual function in adult offspring. We report that low choline availability during retinogenesis leads to persistent retinal cytoarchitectural defects, ranging from focal lesions with displacement of retinal neurons into subretinal space to severe hypocellularity and ultrastructural defects in photoreceptor organization. We further show that low choline availability impairs timely differentiation of retinal neuronal cells, such that the densities of early-born retinal ganglion cells, amacrine and horizontal cells, as well as cone photoreceptor precursors, are reduced in low choline embryonic d 17.5 retinas. Maintenance of higher proportions of RPCs that fail to exit the cell cycle underlies aberrant neuronal differentiation in low choline embryos. Increased RPC cell cycle length, and associated reduction in neurofibromin 2/Merlin protein, an upstream regulator of the Hippo signaling pathway, at least in part, explain aberrant neurogenesis in low choline retinas. Furthermore, we find that animals exposed to low choline diet in utero exhibit a significant degree of intraindividual variation in vision, characterized by marked functional discrepancy between the 2 eyes in individual animals. Together, our findings demonstrate, for the first time, that choline availability plays an essential role in the regulation of temporal progression of retinogenesis and provide evidence for the importance of adequate supply of choline for proper development of the visual system. [ABSTRACT FROM AUTHOR]

Published

2019

46. Photoreceptors and eyes of pikeperch Sander lucioperca, pike Esox lucius, perch Perca fluviatilis and roach Rutilus rutilus from a clear and a brown lake.

Author

Jokela‐Määttä, Mirka, Viljanen, Martta, Nevala, Noora, Donner, Kristian, and Brönmark, Christer

Subjects

*ROACH (Fish), *EUROPEAN perch, *PHOTORECEPTORS, *PERCH, *PIKE, *LIGHT transmission, *ABSORPTION spectra

Abstract

The photoreceptors and eyes of four fish species commonly cohabiting Fennoscandian lakes with different light transmission properties were compared: pikeperch Sander lucioperca, pike Esox lucius, perch Perca fluviatilis and roach Rutilus rutilus. Each species was represented by individuals from a clear (greenish) and a humic (dark brown) lake in southern Finland: Lake Vesijärvi (LV; peak transmission around 570 nm) and Lake Tuusulanjärvi (LT; peak transmission around 630 nm). In the autumn, all species had almost purely A2‐based visual pigments. Rod absorption spectra peaked at c.526 nm (S. lucioperca), c. 533 nm (E. lucius) and c. 540 nm (P. fluviatilis and R. rutilus), with no differences between the lakes. Esox lucius rods had remarkably long outer segments, 1.5–2.8‐fold longer than those of the other species. All species possessed middle‐wavelength‐sensitive (MWS) and long‐wavelength‐sensitive (LWS) cone pigments in single, twin or double cones. Rutilus rutilus also had two types of short‐wavelength sensitive (SWS) cones: UV‐sensitive [SWS1] and blue‐sensitive (SWS2) cones, although in the samples from LT no UV cones were found. No other within‐species differences in photoreceptor cell complements, absorption spectra or morphologies were found between the lakes. However, E. lucius eyes had a significantly lower focal ratio in LT compared with LV, enhancing sensitivity at the expense of acuity in the dark‐brown lake. Comparing species, S. lucioperca was estimated to have the highest visual sensitivity, at least two times higher than similar‐sized E. lucius, thanks to the large relative size of the eye (pupil) and the presence of a reflecting tapetum behind the retina. High absolute sensitivity will give a competitive edge also in terms of short reaction times and long visual range. [ABSTRACT FROM AUTHOR]

Published

2019

47. Visual sensitivity versus ecological sensitivity: An application of GIS in urban forest park planning.

Author

Zheng, Yu, Lan, Siren, Chen, Wendy Y., Chen, Xiaoyan, Xu, Xixi, Chen, Yannan, and Dong, Jianwen

Subjects

FOREST reserves, URBAN parks, URBAN land use, PARK design, NATURE conservation, FOREST management

Abstract

• A combined GIS-AHP approach was explored. • Visual and ecological sensitivities were integrated for multiple use planning of urban forest parks. • The visual sensitivity is objectively quantified based on slope, distance and visibility. • The ecological sensitivity is evaluated based on elevation, slope, aspect, forest type, and distance to river. • Three zones can be demarcated suitable for recreation development, ecologically-sound development, and nature conservation. Planning and management of forest parks have been contentious and challenging, as multiple and sometimes conflicting uses must be accommodated, especially in urban and peri-urban areas. Methodologies are thus needed to explore and evaluate development and conservation initiatives as a crucial part of sustainable planning and management process. In China, urban forest parks have been increasingly established aiming at satisfying the recreational demand of citizens in tandem with preserving diverse natural resources to safeguard the ecological resilience and adaptability of urban ecosystems. The transition from the traditional focus on recreational use (emphasizing the improvement of visitors' visual quality and landscape aesthetics) to multiple uses including ecological and biological preservation (highlighting the minimization of ecological vulnerability) poses an urgent challenge for the planning and management of urban forest parks worldwide. In this study, a geographic information system (GIS) combined with Analytic Hierarchy Process (AHP) approach is explored to objectively quantify and integrate the visual sensitivity and ecological sensitivity of the Tianzhu Mountain National Forest Park, Fujian province, South China. The visual sensitivity is evaluated based on three dimensions: slope, distance and visibility. And the ecological sensitivity is measured with regard to elevation, slope, aspect, forest type, and distance to river. By overlapping of the visual sensitivity and ecological sensitivity maps for the study site, three functional zones are pinpointed, including nature restoration/conservation zone (with high ecological sensitivity and low visual sensitivity or invisible), level 1 development zone (with high visual sensitivity and low/very low ecological sensitivity), as well as level 2 development zone (with moderate visual and ecological sensitivities). Compared with the existing long-term development plan, obvious discrepancies can be identified. Our results can provide scientific decision support for multiple use planning of the study site, and also demonstrate the efficacy of the proposed methodology, which is comprehensive yet convenient, for the sustainable planning of urban and peri-urban forest parks. [ABSTRACT FROM AUTHOR]

Published

2019

48. Landscape Visual Sensitivity Assessment of Historic Districts—A Case Study of Wudadao Historic District in Tianjin, China

Author

Ya-Nan Fang, Jian Zeng, and Aihemaiti Namaiti

Subjects

historic district landscape, visual sensitivity, landscape assessment, Wudadao, Geography (General), G1-922

Abstract

Against the backdrop of urban stock renewal, as the core area of a city rich in culture, aesthetics, and tourism resources, the assessment of landscape visual sensitivity of historic districts can provide an accurate, objective, and intuitive decision-making basis for the multi-purpose planning of districts. The main purpose of this study was to develop an assessment method based on the geographic information system (GIS) in order to make a visual sensitivity index map on a district scale. To this end, this study uses the multi-criteria evaluation (MCE) method, selects the visibility (VSv), the number of potential users (VSu), and remarkableness (VSe) as the main criteria, and constructs a comprehensive assessment model of the visual sensitivity of the historic landscape. The most well-protected Wudadao Historic District in Tianjin (Wudadao) was selected as the study area, and its visual sensitivity was assessed. The assessment results are divided into four levels: areas of high sensitivity, moderate sensitivity, low sensitivity, and very low sensitivity. Results indicate that after the optimization and improvement of the evaluation index for visual sensitivity of a large-scale forest landscape, it is feasible to evaluate the small-scale visual sensitivity of historic districts; the higher the sensitivity level, the more important it is to be protected, and the more cautious it should be in the renewal of districts; the higher the number of potential users, the higher the visual sensitivity level, and so on. Further attention needs to be paid to planning and design to improve visual quality.

Published

2021

49. The relationship between latitudinal light variation and orbit and cranial size in humans

Author

Short Alice

Subjects

eye size, illuminance, visual acuity, visual sensitivity, males, females, Anthropology, GN1-890

Abstract

Increased orbit size is suggested to be an adaptation for enhanced visual acuity and sensitivity in conditions of reduced light quality. Whilst light ambience has a well established correlation with eye size in birds and primates, evidence in humans is very limited. The aim of this study was to analyse the anatomical compensations of the eye and visual cortex as a result of varying levels of light exposure. It was hypothesized that humans of higher latitudes will have an increased orbit size to improve visual sensitivity and acuity in conditions of decreased light, and thus greater cranium size due to enlarged visual cortices. Craniometric measurements of 1,209 male and 1,021 female individuals from 27 series coming from different latitudes were sourced from William W. Howells Craniometric Data Set. Mean cranial and orbit size was calculated by combining linear craniometric measurements of length, width and height for individual males and females at each latitude. Linear regressions of orbit and cranial size on latitude were created and significance was measured using Pearson’s r and P value. Partial correlations were calculated to test whether orbit size correlates with latitude independent of cranial size. Significant positive correlations were found between i) orbit and cranial size and ii) orbit size and latitude and iii) cranial size and latitude in males and females. Additionally, partial correlation values for latitude and orbit size were significant in both males and females. The relationship between visual system size and increasing latitude among humans is currently understudied. Significant relationships between visual system size and increasing latitude suggest that enlarged eyes were an evolutionary mechanism for individuals with compromised light availability. Other factors related to varying geographic location may also play a role

Published

2016

50. Circadian Modulation of the Limulus Eye for Day and Night Vision

Author

Passaglia, Christopher L., Herzog, Erik D., Marshall, N. Justin, Series editor, Collin, Shaun P, Series editor, Tosini, Gianluca, editor, Iuvone, P. Michael, editor, McMahon, Douglas G., editor, and Collin, Shaun P., editor

Published

2014