Sittikorn Laojaroenwanit scite author profile

Sittikorn Laojaroenwanit

3Publications

2Citation Statements Received

34Citation Statements Given

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Time of maximum cycloplegia after instillation of cyclopentolate 1% in children with brown irises

Laojaroenwanit¹,

Layanun²,

Praneeprachachon³

et al. 2016

OPTH

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PurposeWe aimed to 1) determine the time of maximum cycloplegia after instillation of cyclopentolate 1% in children with brown irises, 2) evaluate the correlation between the pupillary reaction and time of maximum cycloplegia, and 3) identify any side effects of the medication.Patients and methodsThis was a prospective analytical study involving children aged 5 to 14 years who were attending refraction clinic. Cyclopentolate 1% was instilled three times at 10-minute intervals. The spherical equivalent, pupillary reaction, and pupillary diameter were recorded before the first drop and nine times after the last drop at 10-minute intervals. Side effects were assessed. Time of maximum cycloplegia was determined from the time point at which the 95% confidence interval of the differences between the mean spherical equivalent at each point and its final value at 110 minutes was reached and remained within the equivalence limit (±0.25 D).ResultsSixty children were enrolled in this study. Their mean age was 9.8 years (range: 5–4 years). Time of maximum cycloplegia was reached at 30 minutes after the first instillation of cyclopentolate. A poor correlation was observed between the pupillary reaction and the time of maximum cycloplegia (r=−0.07). The mean pupillary diameter at 30 minutes was 3.7±1.3 mm, and further dilation occurred thereafter. No side effects were observed.ConclusionIn most children, maximum cycloplegia was reached 30 minutes after the first instillation of cyclopentolate. The absence of a pupillary reaction should not be used as an indicator of maximum cycloplegia.

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Time of maximum cycloplegia after instillation of cyclopentolate 1% in children with brown irises

Pukrushpan¹,

Laojaroenwanit²,

Layanun³

et al. 2016

Journal of American Association for Pediatric Ophthalmology and

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Purpose: We aimed to 1) determine the time of maximum cycloplegia after instillation of cyclopentolate 1% in children with brown irises, 2) evaluate the correlation between the pupillary reaction and time of maximum cycloplegia, and 3) identify any side effects of the medication. Patients and methods: This was a prospective analytical study involving children aged 5 to 14 years who were attending refraction clinic. Cyclopentolate 1% was instilled three times at 10-minute intervals. The spherical equivalent, pupillary reaction, and pupillary diameter were recorded before the first drop and nine times after the last drop at 10-minute intervals. Side effects were assessed. Time of maximum cycloplegia was determined from the time point at which the 95% confidence interval of the differences between the mean spherical equivalent at each point and its final value at 110 minutes was reached and remained within the equivalence limit (±0.25 D). Results: Sixty children were enrolled in this study. Their mean age was 9.8 years (range: 5-14 years). Time of maximum cycloplegia was reached at 30 minutes after the first instillation of cyclopentolate. A poor correlation was observed between the pupillary reaction and the time of maximum cycloplegia (r=-0.07). The mean pupillary diameter at 30 minutes was 3.7±1.3 mm, and further dilation occurred thereafter. No side effects were observed. Conclusion: In most children, maximum cycloplegia was reached 30 minutes after the first instillation of cyclopentolate. The absence of a pupillary reaction should not be used as an indicator of maximum cycloplegia.

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Factors influencing foveal avascular zone size in healthy eyes

Laojaroenwanit¹,

Varadisai²,

Pongsachareonnont³

et al. 2021

EyeSEA

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