Abstract

This is the first human study that confirmed penetration of 0.01% topical atropine in aqueous and vitreous humor in live human eyes. This supports the possible mode of action of atropine via posterior ocular structures. This knowledge will help improve the outcomes in myopia management. The purpose of this study was to evaluate penetration of low-dose atropine 0.01% in aqueous and vitreous humor. In this cross-sectional interventional pilot study, 48 cataract cases were divided into four groups (12 each), and 30 epiretinal membrane/macular hole cases were divided into three groups (10 each). One drop of 0.01% atropine was put in the eye to be operated. Aqueous humor samples were taken from patients undergoing cataract surgery at 60 ± 15 minutes in group 1, 120 ± 15 minutes in group 2, 240 ± 15 minutes in group 3, and 360 ± 15 minutes in group 4. Vitreous humor samples were taken from patients undergoing vitreoretinal surgery for epiretinal membrane/macular hole at 120 ± 15 minutes in group 1, 240 ± 15 minutes in group 2, and 360 ± 15 minutes in group 3. The assay of atropine was performed using liquid chromatography-mass spectrometry. Median concentrations of atropine in aqueous samples were 1.33 ng/mL (min-max, 0.6 to 6.46 ng/mL; interquartile range [IQR], 3.05 ng/mL) at 60 minutes, 2.60 ng/mL (min-max, 0.63 to 4.62 ng/mL; IQR, 1.97 ng/mL) at 120 minutes, 1.615 ng/mL (min-max, 0.1 to 3.74 ng/mL; IQR, 1.62 ng/mL) at 240 minutes, and 1.46 ng/mL (min-max, 0.47 to 2.80 ng/mL; IQR, 1.73 ng/mL) at 360 minutes, and those in vitreous samples were 0.102 ng/mL (min-max, 0 to 0.369 ng/mL; IQR, 0.366 ng/mL) at 120 minutes, 0.1715 ng/mL (min-max, 0 to 0.795 ng/mL; IQR, 0.271 ng/mL) at 240 minutes, and 0.2495 ng/mL (min-max, 0 to 0.569 ng/mL; IQR, 0.402 ng/mL) at 360 minutes, respectively. Measurable concentration of low-dose topical atropine (0.01%) was noted in aqueous and vitreous humor after instillation of a single drop of low-dose atropine. Muscarinic receptors located in the posterior segment such as the choroid and retina could be the possible site of action of low-dose atropine in myopia.

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