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Colour Vision Tests (colour + vision_test)

Distribution by Scientific Domains
Medical Sciences100%

Selected Abstracts

The ChromaGen contact lens system: colour vision test results and subjective responses

OPHTHALMIC AND PHYSIOLOGICAL OPTICS, Issue 3 2001
Helen A. Swarbrick
Summary The ChromaGen lens system is designed to enhance colour perception in colour vision deficiency (CVD). To investigate its efficacy, 14 CVD subjects were prescribed ChromaGen contact lenses. Colour vision tests (Ishihara, Farnsworth Munsell D-15, Farnsworth Lantern) were administered at baseline, lens dispensing, and after a 2-week lens-wearing trial during which subjective responses were recorded daily using visual analogue scales. ChromaGen lenses significantly reduced Ishihara error rates(p<0.001; ANOVA), particularly for deutan subjects. There was also a significant reduction in errors(p<0.005) on the D-15 test. Conversely, lens wear had no significant effect on Farnsworth Lantern test performance. Subjectively, subjects reported enhanced colour perception, but poor vision in dim light. Judgement of distance and motion were only slightly affected. We conclude that ChromaGen lenses may enhance subjective colour experience and assist in certain colour-related tasks, but are not indicated as an aid for CVD in occupations with colour vision-related restrictions. [source]

One of Australia's greatest cricketers was a protanope: a genetic detective story solved with the help of Schmidt's sign

CLINICAL AND EXPERIMENTAL OPTOMETRY, Issue 6 2005
Ross W. Harris BAppSc LOSc FVCO
Abnormal colour vision is under-represented among first class cricketers (Goddard N and Coull B BMJ 1994; 309: 16841685) and interviews with cricketers, all of whom had a mild colour vision defect, suggest there may be times when they lose sight of the red cricket ball against green surrounds (Hams and Cole Clin Exp Optom 2005; 88: 176,180). It is possible that severe abnormal colour vision precludes playing cricket at its highest competitive level. It is known that Bill Ponsford, who played Test cricket from 1924 to 1934 and was one of Australia's greatest batsmen, had abnormal colour vision. We have diagnosed him to be a protanope by tracing the abnormal colour vision exhibited by some of his descendents. We used Schmidt's sign using the Medmont ClOO colour vision test to identify carriers of the protan gene to trace the protanopic gene to Ponsford with greater certainty. That such an accomplished batsman and highly regarded outfielder should have a severe colour vision deficiency suggests that abnormal colour vision might not be, or at least need not be, a handicap to playing cricket at the most competitive levels. [source]

Occupational colour vision requirements for police officers

OPHTHALMIC AND PHYSIOLOGICAL OPTICS, Issue 6 2008
Jennifer Birch
Abstract Inclusion of public service professions in the UK Disability Discrimination Act in 2004 prompted a review of occupational colour vision requirements for police officers. Changes in the regulations which existed prior to 2003 were proposed. The aim of this study was to obtain the views of serving police officers in Northern Ireland on the importance of good colour discrimination in everyday police work and on the recruitment regulations for patrol constables introduced in 2003 in mainland UK. These views were obtained by means of a questionnaire and informal discussions. More than 65% of police officers who responded to the questionnaire considered that good colour vision was very important for effective policing. Fewer than 2% considered that colour vision was unimportant. Experienced police officers agreed that the employment of colour-deficient patrol constables, as permitted in the new regulations, would lead to reduced efficiency and organisational difficulties at the local level. A number of everyday activities were described which showed the need for accurate colour discrimination. The change in recruitment policy and the lack of clarity in the new regulations show inadequate appreciation of the needs of the occupation, of different types of colour vision anomalies and of the diagnostic function of colour vision tests. Failure to provide guidance on appropriate colour vision tests, examination procedures and counselling services is likely to result in inconsistent employment policies in different police forces. It is recommended that the colour vision standard in place prior to 2003 is reinstated at the recruitment stage. The Ishihara test should be used for screening, and colour-deficient applicants further examined with the Farnsworth D15 test as a replacement for the City University Test 2nd edition. [source]

Pulfrich's phenonenon in a case of optic nerve hypoplasia

OPHTHALMIC AND PHYSIOLOGICAL OPTICS, Issue 1 2008
Gordon Heron
Introduction:, Optic nerve hypoplasia (ONH) is a congenital deficiency of retinal ganglion cells and their axons that form the optic nerve. This condition is associated with visual deficits ranging from no light perception in severe cases to vision within normal ranges in mild cases of ONH. In mild cases, deficits can be limited to sectoral anomalies in the visual field and normal vision with colour vision anomalies have been reported. We report here a case of mild ONH with visual symptoms relating to Pulfrich phenomenon (PP) occurring spontaneously. Methods:, A 12 year girl presented with typical visual symptoms (bumping into objects when walking, poor object location at tennis) associated with the spontaneous PP. A simple pendulum revealed a perceived anticlockwise ellipse indicative of a left eye defect. This was neutralised by an 85% transmission filter placed before the right eye. The inter-ocular latency difference was calculated to be 0.88 (S.D., 0.55) ms. Results:, Fundus biometry showed an asymmetry in optic nerve size, the left being smaller than the right. Visual fields, anomaloscope and other colour vision tests, and both flash and pattern-reversal stimuli Visually Evoked Potentials showed no difference in visual function between the right and left eyes. Conclusions:, A case of very mild ONH gives inter-ocular normal vision and visual function and yet a subtle inter-ocular delay occurs resulting in visual symptoms associated with PP. These were completely removed with tinted spectacles. [source]

Technical Note: The effect of refractive blur on colour vision evaluated using the Cambridge Colour Test, the Ishihara Pseudoisochromatic Plates and the Farnsworth Munsell 100 Hue Test

OPHTHALMIC AND PHYSIOLOGICAL OPTICS, Issue 3 2007
Sri Thyagarajan
Abstract The results of a prospective study examining the effect of refractive blur on colour vision performance in normal subjects measured with three different colour vision tests are reported. The Farnsworth Munsell 100 Hue (FM100) and Cambridge Colour Test (CCT) results were significantly affected at +6 D of spherical refractive blur, whereas those from the Ishihara Pseudoisochromatic Plate (IPP) test were not. In a clinical setting, correction of refractive error up to 3 D for colour vision testing with these tests may not be required. Poor colour vision should not be attributed solely to refractive causes of poor visual acuity (Snellen equivalent: >6/36). Fastest test times were achieved using IPP, followed by CCT. [source]

Assessment of inherited colour vision defects in clinical practice

CLINICAL AND EXPERIMENTAL OPTOMETRY, Issue 3 2007
Barry L Cole PhD MAppSc BSc LOSc
Background:, Colour vision deficiency (CVD) has a high prevalence and is often a handicap in everyday life. Those who have CVD will be better able to adapt and make more informed career choices, if they know about their deficiency. The fact that from 20 to 30 per cent of adults with abnormal colour vision do not know they have CVD suggests that colour vision is not tested as often as it should be. This may be because of practitioner uncertainty about which tests to use, how to interpret them and the advice that should be given to patients on the basis of the results. The purpose of this paper is to recommend tests for primary care assessment of colour vision and provide guidance on the advice that can be given to patients with CVD. Methods:, The literature on colour vision tests and the relationship between the results of the tests and performance at practical colour tasks was reviewed. Results:, The colour vision tests that are most suitable for primary care clinical practice are the Ishihara test, the Richmond HRR 4th edition 2002 test, the Medmont C-100 test and the Farnsworth D15 test. These tests are quick to administer, give clear results and are easy to interpret. Tables are provided summarising how these tests should be interpreted, the advice that can be given to CVD patients on basis of the test results, and the occupations in which CVD is a handicap. Conclusion:, Optometrists should test the colour vision of all new patients with the Ishihara and Richmond HRR (2002) tests. Those shown to have CVD should be assessed with the Medmont C-100 test and the Farnsworth D15 test and given appropriate advice based on the test results. [source]