Metropsis: cambridge colour test
The Cambridge Colour Test provides a rapid means of screening subjects
for colour vision deficiencies; but it also can be used to examine in
more detail the changes in colour discrimination that occur as a result
of congenital or acquired conditions. It allows the investigator to monitor
quantitatively over time the progression or remission of disease. Many
drugs affect colour vision and the pharmacologist will find the test
well suited to monitoring the short-term or long-term course of such
side-effects.
The test determines discrimination ellipses in colour
deficient subjects by probing chromatic sensitivity along the colour
confusion lines. Ellipses measured in individuals with even slightly
anomalous colour vision are characteristically orientated and enlarged
(see references).
Easy to use
The procedure is easy to use for both the investigator and the subject.
It uses the familiar Landolt C stimulus, defined by the two test
colours that are to be discriminated, on an achromatic background.
The Cambridge Colour test uses the proven concept of introducing spatial
and luminance noise into the stimulus, which is composed of grouped circles
randomly varying in diameter and having no spatial structure. The Landolt
C is therefore defined by chromaticity alone, ensuring that the subject's
responses are not due to luminance or spatial cues in the stimulus, and
thus avoiding the necessity for a preliminary procedure to find isoluminance
for the test colours.
The test is conceptually very simple to explain to the subject,
who responds to the orientation of the Landolt C using the
4-button infra-red response box. The chromaticity of the components
of the C is varied along
the protan, deutan and tritan lines (or other chromatic axes
if desired) using a standard descending psychophysical staircase
procedure.
The importance of stimulus resolution
The 8 bit output resolution of conventional computer graphics systems
offer too coarse a resolution for measuring the limits of human
colour discrimination. The stimuli for all Metropsis tests are produced
by a dedicated DVP-14, which provides 14 bit colour and luminance
control and is calibrated
using a ColorCAL. Cambridge Colour Test can therefore provide
a finely graded measurement of discrimination and allows small
changes to be
monitored over time or in different experimental conditions.
Proven
The Cambridge Colour Test is an established method and has been widely
used for both clinical and basic research including an extensive
normative data set. (see references).
Results
Results are saved in ASCII format and presented graphically as discrimination
ellipses in CIELUV or CIE(x,y) colour space.
The results shown are typical of a subject with normal colour vision;
in deficient
subjects the discrimination ellipses are significantly extended
in the
protan,
deutan or tritan chromaticity directions.
References |
- The Cambridge Colour Test was developed by J.D.Mollon, J.P. Reffin & B.C.Regan
at the Department of Experimental
Psychology, University of Cambridge,
England.
- An earlier version of the test is described in:
Regan B.C., Reffin J.P., & Mollon J.D. (1994). Luminance Noise and
the Rapid Determination of Discrimination Ellipses in Colour
Deficiency. Vision Research, Vol. 34, No.10, pp.1279-1299.
- An extensive normative data set for clinical
research applications is described in: Ventura, D. F.,
Silveira, L. C. L., Rodrigues, A. R., de Souza, J. M., Gualtieri,
M., Bonci, D., & Costa, M. F. "Preliminary
norms for the Cambridge Colour Test". In "Normal
and Defective Colour Vision", edited by Mollon, Pokorny & Knoblauch.
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