Functional evidence for cone-specific connectivity in the human retina

Whitaker, David J., McGraw, Paul V., McKeefry, Declan J., Vakrou, Chara

09 June 2009

No / Physiological studies of colour vision have not yet resolved the controversial issue of how chromatic opponency is constructed at a neuronal level. Two competing theories, the cone-selective hypothesis and the random-wiring hypothesis, are currently equivocal to the architecture of the primate retina. In central vision, both schemes are capable of producing colour opponency due to the fact that receptive field centres receive input from a single bipolar cell ¿ the so called `private line arrangement¿. However, in peripheral vision this single-cone input to the receptive field centre is lost, so that any random cone connectivity would result in a predictable reduction in the quality of colour vision. Behavioural studies thus far have indeed suggested a selective loss of chromatic sensitivity in peripheral vision. We investigated chromatic sensitivity as a function of eccentricity for the cardinal chromatic (L/M and S/(L + M)) and achromatic (L + M) pathways, adopting stimulus size as the critical variable. Results show that performance can be equated across the visual field simply by a change of scale (size). In other words, there exists no qualitative loss of chromatic sensitivity across the visual field. Critically, however, the quantitative nature of size dependency for each of the cardinal chromatic and achromatic mechanisms is very specific, reinforcing their independence in terms of anatomy and genetics. Our data provide clear evidence for a physiological model of primate colour vision that retains chromatic quality in peripheral vision, thus supporting the cone-selective hypothesis.

Colour vision

Chromatic opponency

Chromatic sensitivity

Cone selective hypothesis

Random wiring hypothesis

Central vision

Peripheral vision

Avaliação de visão de cores em um indivíduo albino de Sapajus sp (Cebus sp) / Evaluation of the color vision in an albino subject of Sapajus sp (Cebus sp)

Henriques, Leonardo Dutra

30 July 2013

O albinismo é um conjunto de alterações fenotípicas caracterizadas pela incapacidade de produzir melanina, fazendo com que a pigmentação de alguns órgãos seja reduzida ou ausente. Discutem-se quais efeitos esta redução ou ausência de pigmentação, na retina, poderia ter sobre a capacidade visual do indivíduo. A visão de cores apresenta um papel muito importante para a sobrevivência e desenvolvimento de primatas. A capacidade de discriminar visualmente o alvo de um fundo apenas pela diferença de matiz pode ser o diferencial tanto para a busca de alimentos, como para a fuga de predadores. Estudos sobre a visão de cores auxiliam a fazer inferências sobre suas bases biológicas e utilidade funcional. Pretendeu-se com esse estudo elucidar a discriminação de cores de um indivíduo albino de Sapajus sp, por meio de uma avaliação psicofísica utilizando-se de uma versão modificada do teste computadorizado Cambridge Colour Test (CCT), e uma análise genética de DNA, para identificar os genes que codificam as opsinas. Os arranjos genótipo/fenótipo inferidos do indivíduo a partir das elipses foram comparados à composição dos genes que codificam opsina, obtida por análise independente de DNA. Buscou-se, assim, identificar possíveis prejuízos à visão de cores causados pelo albinismo, em relação a Sapajus normais. Apesar dos vários problemas decorrentes do albinismo, o sujeito experimental aprendeu a tarefa com sucesso e apresentou, nos testes, limiares de discriminação de cores característicos de dicromacia do tipo deuterânope com valores dentro dos esperados para o gênero Sapajus. Os resultados comportamentais foram condizentes com o fenótipo inferido a partir da análise genética / São Paulo Albinism is a set of phenotypic traits, characterized by the inability to produce melanin, that way the pigmentation of some organs are either reduced or absent. There is no consent on what effects this lower or none pigmentation on retina could lead on subject vision. The color vision represents a major role on primates survival and development. The capacity of visually discriminate targets only by hue differences from the background can be used either to search for food or to avoid predators. Studies on color vision help to make inference on their biological bases and functional utility. This study aimed to elucidate the color vision discrimination of an albino subject of Sapajus sp, through a psychophysical evaluation using a modified version of Cambridge Colour Test (CCT) and a genetic analyses of DNA in order to identify genes that codify the opsin. The correlation between genotype and phenotype were inferred by comparison between discrimination ellipses and genetic composition of genes that code opsin. Thus seeking to identify possible color vision losses caused by albinism comparing those analyses with healthy Sapajus. Despite many problems associated to albinism, the test subject successfully learn the task and his test showed color discrimination thresholds of a deuteranope dichromacy with values within the expected to subjects of Sapajus genera. Those behavioral results where consistent with the phenotype predicted by the genetic analyses

Albinism

Albinismo

Cambridge Colour Test

Cambridge Colour Test

Capuchin monkey

Colour vision discrimination

Discriminação de cores

Macaco-Prego

Platyrhini

Primatas platirrinos

Sapajus sp (Cebus)

Sapajus sp (Cebus)

Subcortical pathways for colour vision

Szmajda, Brett A.

Unknown Date

Visual sub-modalities, such as colour, form and motion perception, are analysed in parallel by three visual “pathways” – the parvocellular (PC), magnocellular (MC) and koniocellular (KC) pathways. This thesis aims to further elucidate some properties of the subcortical pathways for colour vision. The experimental animal used throughout is a New World monkey, the common marmoset Callithrix jacchus. (For complete abstract open document)

Avaliação de visão de cores em um indivíduo albino de Sapajus sp (Cebus sp) / Evaluation of the color vision in an albino subject of Sapajus sp (Cebus sp)

Leonardo Dutra Henriques

30 July 2013

O albinismo é um conjunto de alterações fenotípicas caracterizadas pela incapacidade de produzir melanina, fazendo com que a pigmentação de alguns órgãos seja reduzida ou ausente. Discutem-se quais efeitos esta redução ou ausência de pigmentação, na retina, poderia ter sobre a capacidade visual do indivíduo. A visão de cores apresenta um papel muito importante para a sobrevivência e desenvolvimento de primatas. A capacidade de discriminar visualmente o alvo de um fundo apenas pela diferença de matiz pode ser o diferencial tanto para a busca de alimentos, como para a fuga de predadores. Estudos sobre a visão de cores auxiliam a fazer inferências sobre suas bases biológicas e utilidade funcional. Pretendeu-se com esse estudo elucidar a discriminação de cores de um indivíduo albino de Sapajus sp, por meio de uma avaliação psicofísica utilizando-se de uma versão modificada do teste computadorizado Cambridge Colour Test (CCT), e uma análise genética de DNA, para identificar os genes que codificam as opsinas. Os arranjos genótipo/fenótipo inferidos do indivíduo a partir das elipses foram comparados à composição dos genes que codificam opsina, obtida por análise independente de DNA. Buscou-se, assim, identificar possíveis prejuízos à visão de cores causados pelo albinismo, em relação a Sapajus normais. Apesar dos vários problemas decorrentes do albinismo, o sujeito experimental aprendeu a tarefa com sucesso e apresentou, nos testes, limiares de discriminação de cores característicos de dicromacia do tipo deuterânope com valores dentro dos esperados para o gênero Sapajus. Os resultados comportamentais foram condizentes com o fenótipo inferido a partir da análise genética / São Paulo Albinism is a set of phenotypic traits, characterized by the inability to produce melanin, that way the pigmentation of some organs are either reduced or absent. There is no consent on what effects this lower or none pigmentation on retina could lead on subject vision. The color vision represents a major role on primates survival and development. The capacity of visually discriminate targets only by hue differences from the background can be used either to search for food or to avoid predators. Studies on color vision help to make inference on their biological bases and functional utility. This study aimed to elucidate the color vision discrimination of an albino subject of Sapajus sp, through a psychophysical evaluation using a modified version of Cambridge Colour Test (CCT) and a genetic analyses of DNA in order to identify genes that codify the opsin. The correlation between genotype and phenotype were inferred by comparison between discrimination ellipses and genetic composition of genes that code opsin. Thus seeking to identify possible color vision losses caused by albinism comparing those analyses with healthy Sapajus. Despite many problems associated to albinism, the test subject successfully learn the task and his test showed color discrimination thresholds of a deuteranope dichromacy with values within the expected to subjects of Sapajus genera. Those behavioral results where consistent with the phenotype predicted by the genetic analyses

Albinismo

Cambridge Colour Test

Discriminação de cores

Macaco-Prego

Primatas platirrinos

Sapajus sp (Cebus)

Albinism

Cambridge Colour Test

Capuchin monkey

Colour vision discrimination

Platyrhini

Sapajus sp (Cebus)

Accessibility, With or Without Colour : A qualitative look on existing accessibility guidelines for colour vision deficiency and its effect on Swedish e-health services.

Wikström, Daniel, Sandeberg, Ida

January 2020

Purpose WCAG is a set of guidelines to assist in developing websites accessible for everyone, for example people with colour vision deficiency (CVD). However, there are few guidelines relevant for CVD and with increasing dependant on websites the importance of accessibility on these websites increases as well. The purpose of the research study is therefore to investigate the impact the relevant guidelines for CVD in WCAG 2.1 has on Swedish health care websites and what the consequences are for people who live with CVD. Method An initial literature study was conducted to gain knowledge of previous findings and also evaluate the best approach for the research study. The research study is based on a qualitative approach to gain a deep understanding of the area and to gain insight into the feelings and experiences of the people affected. The methods used to gain the necessary knowledge are an evaluation of 1177.se and e-tjanster.1177.se also observations and interviews around these two websites. Findings The results show that WCAG 2.1 has a positive impact on Swedish health care websites, as well as on users with CVD. From evaluations, interviews and observations it is concluded that 1177.se and e-tjanster.1177.se are easy to perceive for people with CVD. Implications This research study was limited to the mobile version of the websites. However, the results could be different if the research was conducted on the desktop version due to the different structure of the websites and the inclusion of a cursor on desktop. The evaluation could have been affected by the sampling of pages while the interviews and observations should not have been. Limitations The research study was limited to Swedish health care website 1177.se and its subdomain etjanster. 1177.se. Further it was decided to evaluate the mobile version of these websites, although the elements should look similar on desktop and mobile. While not the initial intention, due to over representation of red-green CVD the study was also limited to people with red-green CVD. Also, the experience of browsing the web on a mobile device was considered to reduce the variables for frustrations. Further research For further research, another selection of WCAG guidelines could be considered to evaluate etjanster. 1177.se since the results shows that 1177.se’s and e-tjanster.1177.se's weaknesses seems to be in the structure of the website. A study researching the “blue-yellow colour blindness” compared to websites could contribute with new, relevant knowledge as well.

WCAG

Colour Vision Deficiency

Color Vision Deficiency

Qualitative research

Accessibility

Health care

Colour Blindness

Color Blindness

Web

Information Systems, Social aspects

The use of silent substitution in measuring isolated cone- & rod- human electroretinograms. An electrophysiological study of human rod- and cone- photoreceptor activity derived using silent substitution paradigm

Kommanapalli, Deepika

January 2019

After over a decade of its discovery, the Electroretinogram (ERG) still remains the objective tool that is conventionally used in assessment of retinal function in health and disease. Although there is ongoing research in developing ERG- recording techniques, interpretation and clinical applications, there is still a limited understanding on how each photoreceptor class contribute to the ERG waveform and their role and/or susceptibilities in various retinal diseases still remains unclear. Another limitation with currently used conventional testing protocols in a clinical setting is the requirement of an adaptation period which is time-consuming. Furthermore, the ERG responses derived in this manner are recorded under different stimulus conditions, thus, making comparison of these signals difficult. To address these issues and develop a new testing method, we employed silent substitution paradigm in obtaining cone- and rod- isolating ERGs using sine- and square- wave temporal profiles. The ERGs achieved in this manner were shown to be photoreceptor-selective. Furthermore, these responses did not only provide the functional index of photoreceptors but their contributions to their successive postreceptoral pathways. We believe that the substitution stimuli used in this thesis could be a valuable tool in functional assessment of individual photoreceptor classes in normal and pathological conditions. Furthermore, we speculate that this method of cone/rod activity isolation could possibly be used in developing faster and efficient photoreceptor-selective testing protocols without the need of adaptation. / Bradford School of Optometry and Vision Sciences

Photoreceptor

Rods

Cones

Electroretinogram

Silent substitution

Adaptation

Temporal properties

Scotopic

Photopic

Mesopic

Parvocellular (PC)

Magnocellular (MC)

Colour vision

Trichromacy

Dichromats

Luminance vision

L/M cone ratios

Cone contrast

Retinal illuminance

Four-primary Ganzfeld stimulator

Colour Vision Test for Railway Dispatchers

Ramaswamy, Shankaran

27 April 2009

Introduction Colour codes are used extensively in railways to convey specific information governing movement of trains and equipment on the track. One such task is the railway traffic control display that uses colour coded video display terminals (VDTs) to convey information of the signal status, train movements and track status to the railway dispatcher. Because individuals with colour vision deficiencies (colour-defectives) may have problems with these colour-related tasks, questions were raised about the suitability of colour vision defectives to work as railway dispatchers. In order to answer that, a VDT based Dispatch Colour Vision Test based on the actual railway traffic display was developed previously. Purpose The main purpose of this thesis is to establish the pass/fail scores and repeatability of the VDT based Dispatch Colour Vision Test that resulted from the previous work. Secondly, the study will also examine whether clinical colour vision tests can predict the performance on the practical task. Methods The Dispatch colour vision test was divided into three parts based on the colour sets that the dispatcher had to recognize. The testing computer system used the the same RGB colour settings, graphics card and monitor as in railway dispatch centres. Subjects viewed the display colours and entered their responses by using a mouse. One hundred colour-normals and fifty two colour-defectives participated in the initial session. The test was repeated approximately after 10 days. Ninety three colour-normals (93%) and 44 (85%) colour-defectives participated in the second session. The total number of errors and time to complete the test was recorded. Results Pass/Fail on the VDT Dispatch colour vision test was based on colour-normal errors. Ignoring orange-red errors, two errors were allowed in the first session and one error was allowed in the second session. Based on this criterion, 42% of colour vision defectives could perform as well as colour normal subjects. The kappa coefficient of agreement between the sessions for the colour-defectives was 0.85. Detailed analysis between the colour differences and the errors showed only a weak correlation between the two. However, the general trend was that colour-defectives made more errors on colours that were near or along the same lines of confusions and the colours were nearly equal in luminance. Nevertheless, the interaction between luminance and location with respect to the lines of confusion was not easy to interpret. The time to complete the task for the colour-defectives who passed the test took 14% longer than colour-normals and colour-defectives who failed took 30% longer than colour-normals. All groups showed a similar learning effect with an 18% reduction in mean times to complete the task at the second session. There was no significant correlation between the number of errors and time to complete or the clinical tests and completion times for any of the groups. Clinical colour vision tests have limited value in predicting performance of colour-defectives on the Dispatch test. Logistic analysis results showed that the Farnsworth D-15 along with the Nagel was the best predictor of the VDT Dispatch colour test pass/fail results. However, these results were similar to using the Farnsworth D-15 test alone. Ninety-five percent of the individuals who failed the Farnsworth D-15 also failed the Dispatch test. However, approximately 25% of the individuals who passed the Farnsworth D-15 failed the VDT Dispatch colour test which is an unacceptable false negative rate. These results indicate the Farnsworth D-15 can only be used to predict who is likely to fail the dispatch test. Conclusions Forty two percent of colour vision defectives could perform as well as colour-normals in identifying VDT railway display colours and time to complete the task. Clinical colour vision tests were inadequate predictors of performance in practical task, overall. However, the Farnsworth D-15 was a very good predictor of who would fail the VDT Dispatch test. Hence a practical VDT Dispatch test may be needed to test individuals who would want to work as railway dispatchers.

Color, Colour, Colour Defectives,

Connotative Colour Tasks, Colour Naming,

Vision Science

Colour Vision Test for Railway Dispatchers

Ramaswamy, Shankaran

27 April 2009

Introduction Colour codes are used extensively in railways to convey specific information governing movement of trains and equipment on the track. One such task is the railway traffic control display that uses colour coded video display terminals (VDTs) to convey information of the signal status, train movements and track status to the railway dispatcher. Because individuals with colour vision deficiencies (colour-defectives) may have problems with these colour-related tasks, questions were raised about the suitability of colour vision defectives to work as railway dispatchers. In order to answer that, a VDT based Dispatch Colour Vision Test based on the actual railway traffic display was developed previously. Purpose The main purpose of this thesis is to establish the pass/fail scores and repeatability of the VDT based Dispatch Colour Vision Test that resulted from the previous work. Secondly, the study will also examine whether clinical colour vision tests can predict the performance on the practical task. Methods The Dispatch colour vision test was divided into three parts based on the colour sets that the dispatcher had to recognize. The testing computer system used the the same RGB colour settings, graphics card and monitor as in railway dispatch centres. Subjects viewed the display colours and entered their responses by using a mouse. One hundred colour-normals and fifty two colour-defectives participated in the initial session. The test was repeated approximately after 10 days. Ninety three colour-normals (93%) and 44 (85%) colour-defectives participated in the second session. The total number of errors and time to complete the test was recorded. Results Pass/Fail on the VDT Dispatch colour vision test was based on colour-normal errors. Ignoring orange-red errors, two errors were allowed in the first session and one error was allowed in the second session. Based on this criterion, 42% of colour vision defectives could perform as well as colour normal subjects. The kappa coefficient of agreement between the sessions for the colour-defectives was 0.85. Detailed analysis between the colour differences and the errors showed only a weak correlation between the two. However, the general trend was that colour-defectives made more errors on colours that were near or along the same lines of confusions and the colours were nearly equal in luminance. Nevertheless, the interaction between luminance and location with respect to the lines of confusion was not easy to interpret. The time to complete the task for the colour-defectives who passed the test took 14% longer than colour-normals and colour-defectives who failed took 30% longer than colour-normals. All groups showed a similar learning effect with an 18% reduction in mean times to complete the task at the second session. There was no significant correlation between the number of errors and time to complete or the clinical tests and completion times for any of the groups. Clinical colour vision tests have limited value in predicting performance of colour-defectives on the Dispatch test. Logistic analysis results showed that the Farnsworth D-15 along with the Nagel was the best predictor of the VDT Dispatch colour test pass/fail results. However, these results were similar to using the Farnsworth D-15 test alone. Ninety-five percent of the individuals who failed the Farnsworth D-15 also failed the Dispatch test. However, approximately 25% of the individuals who passed the Farnsworth D-15 failed the VDT Dispatch colour test which is an unacceptable false negative rate. These results indicate the Farnsworth D-15 can only be used to predict who is likely to fail the dispatch test. Conclusions Forty two percent of colour vision defectives could perform as well as colour-normals in identifying VDT railway display colours and time to complete the task. Clinical colour vision tests were inadequate predictors of performance in practical task, overall. However, the Farnsworth D-15 was a very good predictor of who would fail the VDT Dispatch test. Hence a practical VDT Dispatch test may be needed to test individuals who would want to work as railway dispatchers.

Color, Colour, Colour Defectives,

Connotative Colour Tasks, Colour Naming,

Vision Science