ABSTRACT
Objective To design a new method for visual acuity test naming computerized tumbling E test, and to explore the application of computerized tumbling E test. Methods The feasibility of computerized tumbling E test was investigated by computer simulation experiment. Based on the simulation experiment, a total of 30 subjects ([26.1±4.7] years old, 18 males and 12 females) received binocular vision acuity examination by computerized tumbling E test with 40 trials or 80 trials and standard logarithmic visual acuity chart (random sequence), respectively. The accuracy of computerized tumbling E test was evaluated by comparing the consistency limit with standard logarithmic visual acuity chart. The correlation and difference between the two tests were evaluated by paired samples t test. Results There was no significant difference between the results of the computerized tumbling E test with 40 trials and standard logarithmic visual acuity chart, while the difference between the results of the 80 trials and standard logarithmic visual acuity chart was statistically significant (P<0.05). Conclusion The consistency is good for adult visual test using the computerized tumbling E test with reasonable number of trials (40 trials) and the standard logarithmic visual acuity chart. Compared with the standard logarithmic visual acuity chart, computerized tumbling E test has advantages such as avoiding the problem of optotype memory and reducing the visual crowding effect, showing practical application value (P<0.05) of optotype memory and reducing the visual crowding effect, showing practical application value (P
ABSTRACT
AlM: To introduce a new color pediatric visual acuity chart and its clinical application. METHODS:The color pediatric visual acuity chart was designed based on principle of visual angle. The optotype on the color chart had graphics. The progression rate of optotype size between 2 lines was 10 10 and 1. 2589. A regular geometric progression of optotype sizes and distribution was employed to arrange 8 lines with 11 optotype on the color chart. The testing distance was 3m. The visual acuity score could be recorded as logarithm of the minimum angle of resolution notation or decimal notation. The reliability of naked distant measurements with this new chart was tested in one eye of 100 children (4 ~ 6 years old) taking the Chinese national standard logarithm visual acuity chart standard. RESULTS: The color pediatric visual acuity chart and logarithmic chart controls, visual acuity test results that in the two groups had no significant difference (t=1. 2671, P> 0. 05 ). Two sets of vision data existed positive correlation (r= 0. 924, P CONCLUSlON:Children are easier to accept used new color pediatric visual acuity chart to inspect vision. New chart is reliability and apply to children's vision screening.