1.A comparison of the results of congenital red-green color defects mesured by Color Perception Tests.
Journal of the Korean Ophthalmological Society 1997;38(1):149-155
124 cases with congenital red-green color defects were examined using hahn`s color vision test, double 15 hue test, and Nagel`s anomaloscope. In the Neitz anomaloscope test, 5 cases(4%) showed protanomaly, 1 case(1%) extreme protanomaly, 16 cases (13%) protanopia, 45 cases(36%) deuteranomaly, 52 cases(42%) deuteranopia, and 5 cases (4%) normal state. 5 cases(4%) of protan was classified by degree of color defects, 1 case with mild defect, 1 case with moderate defect, and 3 cases with severe defect by the Hahn`s color vision test. 14 cases (10.4%) of deutan eye the following:5 cases in mild, 6 cases in noderate, and 3 cases in severe defect. 105 cases (85.6%) were the unclassified type. In comparision with Hahn`s color vision test and anomaloscope, the concordance rate was 57.1%(8/14) in only mild and severe color defect of deutan. In the Double 15 hue test, 29 cases (23%) showed in 60.9%(25/41) in deutan. By the degree of color defect, 6 cases showed medium response, 23 cases strong response in protan. 4 cases showed medium, 37 cases strong response in deutan. The concordance rates are 57%(13/23) in protan and 68%(25/37) in deutan in strong response. We conclude that Neitz anomaloscope test is better method than Hahn`s color vision test and double 15 hue test in qualitative and qualntitative dignosis of cogenital red-green color defects.
Color Perception Tests*
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Color Perception*
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Color Vision
2.Foveal Color Threshold Deficits in Diabetes.
Yoo Kang KIM ; Jong Soon KIM ; Jae Duck KIM
Journal of the Korean Ophthalmological Society 1992;33(2):143-147
In an attempt to assess the evidence of foveal color vision abnormality in diabetic patients, the foveal threshold (dB) of white, red, green, and blue color were tested in a normal control group (24persons, 48eyes) and in a diabetic patient group (30persons, 59eyes) by Allergan Humphrey Field Analyzer (Model(R) 640). The diabetic patients wrer divided into 3groups: non-retinopathic group less than 5 year duration (18eyes), non-retinopathic group less than 5year duration (18eyes), non-retinopathic group more than 5year duration (21eyes), and BDR (20eyes). In the normal control group the threshold was gradually increased in white, red, blue, and green colors and the threshold of the green color was highest but the threhold of the blue color was highest in the non-retinopathic diabetic group with more than a 5year duration and BDR There were no statistically significant differences in the threshold between the white and green color amomg groups. But, the threshold of the blue color was singificantly increased in BDR and the non-retinopathic diabetic diabetic group more than 5year duration that the normal group (p
Color Vision
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Humans
3.Color-vision abnormalities among patients undergoing tuberculosis treatment
Emerson M. Cruz ; Frances G. Puentespina ; Karlo Paolo L. Alejo ; Evelyn T. Santos-Morabe ; Ma. Lourdes R. Nañ ; agas
Philippine Journal of Ophthalmology 2010;35(1):3-9
Objective:
This study determined the incidence of and risk factors for color-vision
abnormalities among Filipino patients undergoing directly observed treatment
short-course (DOTS) for tuberculosis.
Methods:
A prospective single-cohort study involving newly diagnosed patients with
category-1 tuberculosis, recruited from DOTS health centers in Manila, was
conducted. All patients were given a fixed-dose combination of rifampicin,
isoniazid, ethambutol, and pyrazinamide for 60 days, after which treatment
was continued with rifampicin and isoniazid for 4 more months. The
participants underwent complete eye evaluation including color-vision testing
and were followed up every month up to the conclusion of treatment.
Results:
Out of 93 patients initially enrolled, 64 completed the prescribed follow-up
and constituted the study group. Baseline color vision was normal. After 1 month
of therapy, color vision tested with the Ishihara plates remained normal in all
patients, but one failed the Farnsworth Panel D 15 and was classified as tritan
while 30 (47.88%) failed the Lanthony Desaturated test. The type of abnormality
was unclassified in 20 (66.67 %)patients and tritan in 10 (33.3%). Visual acuity
remained unchanged from baseline. Repeat testing after ethambutol and
pyrazinamide were stopped showed that color vision was normal using the
Ishihara plates and the Farnsworth test, while 5 failed the Lanthony test. Of
these, 3 were unclassified and 2 were tritan. In the 3rd to 6th months follow-up,
no color-vision abnormalities were noted in the 3 tests. The only risk factor
identified was age (p = 0.01) with older patients having a higher risk.
Conclusion
The incidence of color-vision abnormalities among patients undergoing
DOTS was 47.88% using the Lanthony Desaturated test after an average of
39.66 days on quadruple anti-TB therapy. Age was the only significant risk
factor observed. The color-vision abnormalities returned to normal within an
average of 37.85 days after discontinuing ethambutol and pyrazinamide.
Ethambutol
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Tuberculosis
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Color Vision
4.Prevalence of color-vision deficiency among male high-school students
Emerson M. Cruz ; Herma Grace S. Cerdana ; Ann Margaret B. Cabrera ; Chanda B. Garcia ; Evelyn T. Santos-Morabe ; Ma. Lourdes R. Nañ ; agas
Philippine Journal of Ophthalmology 2010;35(1):20-24
Objective This study determined the prevalence of color-vision deficiency among male high-school students in a public school. Methods Male high-school students were screened for color-vision deficiency using 6 plates of the Ishihara pseudoisochromatic plates. All students with one or more errors were reexamined at a later date with the full 15 Ishihara plates and the Farnsworth D15 (FD15) test. A detailed history was taken and an ocular examination was conducted. Students who identified less than 10 plates correctly on the FD15 were classified as color-deficient and underwent the Farnsworth Munsell 100 hue (FM 100) test. The results were statistically analyzed. Results A total of 1,258 male high-school students, aged 12 to 16 years, were included in the study, 122 of whom failed the screening test. Of these, 106 completed the 15 Ishihara plates. Sixty-five failed and were classified as color-visiondeficient, of which 64 (98%) were deutans. Deutan was also the most common deficiency determined using the FD15 (78.95%) and FM100 (44.19 %) hue tests. Conclusion The prevalence of color-vision deficiency among male students in a public high school was 5.17% (65/1,258). The most common deficiency was the deutan type.
Color Vision Defects
5.The Classification of Congenital Color Vision Deficiency by SNU Computerized Color Test.
Young Joo SHIN ; Sang Yul CHOI ; Kyu Hyoung PARK ; Min Seoup KIM ; Jeoung Min HWANG ; Won Ryang WEE ; Jin Hak LEE ; In Bum LEE ; Mee Na LEE ; Seoung Min JOO ; Jae H CHOI ; Young Suk YU
Journal of the Korean Ophthalmological Society 2004;45(12):2099-2104
PURPOSE: This study was designed to investigate the characteristics and classification of congenital color vision deficiency (CVD) by the SNU computerized color test (SCCT) that was developed to sufficiently utilize the advantages of a computer. METHODS: Hardy-Rand-Rittler test (HRR test), Nagel anomaloscope and SCCT were performed on 60 eyes of 30 CVD patients and 30 normal subjects and the results were compared. RESULTS: In normal subjects, the error scores were all zero at all colors by SCCT. By SCCT protan color defectives showed a peak at hue 0 red in 7 eyes (29.2%), at hue 150 green in 3 eyes (12.5%), at hue 180 green in 18 eyes (75%), and at hue 330 red in 2 eyes (8.3%). By SCCT, deutan color defectives showed a peak at hue 0 red in 2 eyes (5.6%), at hue 150 green in 24 eyes (66.7%), at hue 180 green in 2 eyes (5.6%), and at hue 330 red in 23 eyes (63.9%). CONCLUSIONS: SCCT showed specific axes in CVD patients, with accuracy and high sensitivity to diagnosis. SCCT appears to be useful clinically as a color vision test to diagnose and classify CVD patients.
Classification*
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Color Vision Defects*
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Color Vision*
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Diagnosis
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Humans
6.A Comparison of Nagel Anomaloscope and Farnsworth Munsel 100-hue in Congenital Color Vision Deficiency
Jong Woo KIM ; Hee Seung CHIN ; Ji Won JUNG
Journal of the Korean Ophthalmological Society 2020;61(1):101-106
PURPOSE: To compare the classification and severity of congenital color vision deficiency using a Nagel anomaloscope and Farnsworth Munsel 100-hue Test (FM 100-hue).METHODS: A total of 394 eyes of 197 patients diagnosed with congenital color vision deficiency were included. Examinations using a Nagel anomaloscope and FM 100-hue were performed, and color vision abnormalities were classified as a protan color defect or deutan color defect by each test, and the degrees of color vision abnormalities were compared.RESULTS: The tests showed 64.3% (p < 0.001) agreement in the classification of color vision deficiencies. The Nagel anomaloscope was able to classify all cases, whereas 143 eyes (36.3%) could not be classified using the FM 100-hue test. In the case of the same type of color vision abnormality in both eyes, 196 cases (99.5%) using the Nagel anomaloscope and 111 cases (56.3%) using the FM 100-hue were observed. Regarding the degree of color defect, there was a moderate positive correlation between the two tests (r = 0.43; p < 0.001). There were no significant differences in the total error scores between mild anomalous trichromacy and severe anomalous trichromacy as assessed using FM 100-hue (p = 0.087).CONCLUSIONS: The Nagel anomaloscope was a more appropriate test for discerning the degree of color defect and binocular classification. In severity assessments, there was a moderate positive correlation between the two test methods. However, there were no significant differences in the total error scores between mild anomalous trichromacy and severe anomalous trichromacy as assessed using FM 100-hue. Therefore, it was difficult to perform severity classification using the Nagel anomaloscope based on the total error score of the FM 100-hue test.
Classification
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Color Vision Defects
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Color Vision
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Humans
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Telescopes
7.The Assessment of Acquired Dyschromatopsia among Organic-Solvents Exposed Workers.
Mi Jung KANG ; Su Hee KANG ; Suk Kwon SUH ; Dong Hoon SHIN ; Jong Young LEE
Korean Journal of Preventive Medicine 1996;29(3):529-538
We investigated the occurrence of color vision loss in 70 organic solvent mixtures exposed workers and in 47 controls. Color Vision was assessed with a color arrangement test designed to identify the defective color sense, the Han Double 15-Hue Test. The results of the test were no significant difference between exposed workers and controls in the proportion of subjects who committed one or two errors. Quantitative analysis, using color confusion index(CCI), showed no signifiant difference between exposed workers and controls. A significant linear correlation was present between age and CCI in both exposed workers(CCi=0.0056age + 0.94; r=0.23; p<0.05) and controls(CCI=0.0066age + 0.86; r=0.33; p<0.05). Qualitative analysis of the patterns on the hue circle showed that the prevalence of acquired dyschromatopsia was 21% in both and no significant difference. Multiple regression analyses showed that age was significantly related to color vision loss. These results did not provide evidence of a relationship between organic solvents exposure and incidence of color vision loss. In field studies for monitor the people at risk of the acquired color vision loss involving low-dose organic solvents exposed workers, both quantitative and qualitative information should be considered.
Color Vision
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Incidence
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Prevalence
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Solvents
8.Seohan Computerized Hue Test 1: The Development of Computerized Color Vision Test and Pilot Study.
Min Seop KIM ; Wen Nam LU ; Kun LEE ; Won Ryang WEE ; Jin Hak LEE
Journal of the Korean Ophthalmological Society 2000;41(1):205-214
Several tests have been used for assessing color vision but most of them are nonspecific, expensive, complicated or too time consuming to perform. We have developed a new computerized color vision test named Seohan computerized 85-hue test[SCHT/85]that has many advantages compared to Farnsworth Munsell[FM]100-hue test.SCHT/85 has 85 color caps which can be displayed based on a model of FM 100-hue test using Multimedia toolbook 4.0.Selected color caps in the lower random area can be moved and inserted to the upper result area by a mouse.At the end of the test, error scores and ring graph can be displayed in monitor and can be also printed out. Total 15 subjects performed with SCHT/85 and FM 100-hue test twice who have been showed 10 normal and 5 abnormal color vision reported with other color vision tests and the results of two tests were analysed to compare the total error scores[TES]and reproducibility. All ten normal subjects showed lower TES in SCHT/85 than FM 100-hue test and the mean TES were 31.5 and 43.6 with SCHT/85 and FM 100-hue test.The coefficients of variation [CV]were 4.3%and 22.7%with SCHT/85 and FM 100-hue test.The two tests were highly correlated[r=0.92].Five abnormal subjects showed higher TES in SCHT/85 than FM 100-hue test and the mean TES were 169.8 and 157.3 with SCHT/85 and FM 100-hue test.The coefficients of variation were 9.1%and 21.2%with SCHT/85 and FM 100-hue test.These two tests were also highly correlated[r=0.965]. In conclusion, SCHT/85 which was newly developed by authors is a highly useful test for color vision.
Color Vision*
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Multimedia
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Pilot Projects*
9.Evaluation of the Hahn's Pseudoisochromatic Plates.
Journal of the Korean Ophthalmological Society 1977;18(4):297-298
72 subjects with defective color vision that was detected by the screening test among 633 high school students were examined using a printed sample of the author's plates and other 7 kinds of color tests including Ishihara's, Okuma's. Tokyo Medical College'sand H-R-R's plates, Farnsworth's Panel D-15 Test. Hahn's Double 15-Hue Test and Hahn's Color Choice Test (modified City University Colour Vision Test). Results of examination in classifying the types and estimating the extent of color defects using the author's plates were compared with the summarized final results obtained with 8 kinds of tests and the rate of coincidence of results both in type and in extent was found to be 33.3% in the author's plates, 37.5% in Okuma's, 36.1% in Tokyo Medical College's and 27.8% in H-R-R's plates.
Color Vision
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Humans
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Mass Screening
10.Cerebral Achromatopsia After Posterior Cerebral Artery Infarction.
Ji Sun KWON ; Do Young YOON ; Hyun Jeong HAN ; Jong Ho PARK
Journal of the Korean Neurological Association 2013;31(2):118-121
Cerebral achromatopsia, which refers to a loss of color vision, is a rare complication of posterior circulation stroke. We report two patients who presented with achromatopsia and dyschromatopsia (incomplete form of achromatopsia) respectively after acute posterior cerebral artery infarction. Lingual and fusiform gyri within the occipito-temporal area are known to be responsible for color perception.
Color Perception
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Color Vision
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Color Vision Defects
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Humans
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Infarction, Posterior Cerebral Artery
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Posterior Cerebral Artery
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Stroke