• Journal of Korean Ophthalmic Optics Society
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• v.20 no.1
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• pp.67-73
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• 2015

Purpose: This study was investigated the relationship between the male and female of near stereoacuity and phoria, and was examined the correlations between near stereoacuity and phoria and refractive error. Methods: Adult 83 (male 36, female 47, mean age $21.09{\pm}1.74$(19~29) years old) target was examined after full correction of refractive error. Near stereoacuity was measured by using Titmus-fly Stereotest(Stereo Optical Co., Inc., Chicago, IL, USA), and RANDOT Stereotest (Stereo Optical Co., Inc., Chicago, IL, USA), phoria was measured by using modified torrington method, at distance 40 cm. Results: In near stereoacuity, male was better good than female, and there was no difference between male and female (p>0.05). In near phoria, female was more higher than male, and there was a significant difference between male and female (p<0.05). Near stereoacuity by Titmus-fly test and Randot test result respectively was $262.17{\pm}562.43$ sec (second of arc) $243.08{\pm}68.04$ sec in esophoria, $148.42{\pm}269.54$ sec, $107.40{\pm}263.74$ sec in orthophoria, $113.94{\pm}152.46$ sec, $79.70{\pm}136.83$ sec in exophoria, there was a no difference between three phoria groups (p>0.05), and was a high correlation between phoria and near stereoacity(r=0.68). In addition, near stereoacuity in the refractive error respectively was $80.00{\pm}571.43$ sec, $68.75{\pm}36.82$ sec in myopia, $133.57{\pm}224.15$ sec, $93.14{\pm}214.95$ sec in hyperopia, $511.20{\pm}855.00$ sec, $511.4{\pm}855.60$ sec, there was a significant difference between three phoria groups (p<0.05). when was classfiied near stersoacuity into degree of refractive error, near stersoacuity was best in emmetropia, and was reduced when refractive error was highest in high degree myopia, and hyperopia. Conclusions: Titmus-fly Stereotest and RANDOT Stereotest result, near stereoacuity of adults, when esophoria and high degree refractive error, was reduced, there was a relationship between near stereoacuity with phoria, and refractive error. In this both stereotests if was bad when near stereoacuity can expect a phoria and refractive error.

• Journal of Korean Ophthalmic Optics Society
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• v.13 no.4
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• pp.121-126
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• 2008

Purpose: To study the minimum diopter of spherical lens with normal binocular function in induced anisometropia by over-correction or under-correction in single eye. Methods: Stereoacuity of subjects without ophthalmic disease history in their twenties was measured by using Titmus-fly stereotest at 40 cm after overcorrection or under-correction in non-dominant eye or dominant eye, respectively. Results: In induced anisometropia, the stereoacuity decreased with increase of the power of added spherical lens in either nondominant eye or dominant eye. And the first reduction of stereoacuity was more prominent with the addition of (+) spherical lens than (-) spherical lens. In addition, there was more strikingly decrement of stereoacuity with addition of spherical lens to dominant eye than non-dominant eye. Conclusions: In induced anisometropia, the most outstanding reduction of stereoacuity was obtained with increment of the power of added (+) spherical lens in case of non-dominant eye with full correction and dominant eye with addition of spherical lens.