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2015, № 12 (187)



Gurko T.S THE ANALYSIS OF THE PATIENTS WITH RETINAL PHOTO DAMAGE FOLLOWED SOLAR ECLIPSEAfter the solar eclipse, the patients consult the ophthalmological centers about "a spot", blurring, distortion of the objects, visual acuity reduction. 11 patients, mean age 24.7 years old, diagnosed as "solar maculopathy" consulted our hospital after looking at the solar eclipse without any protective means on the 20th of March 2015. All patients underwent the routine ophthalmological examination including the optical coherence tomography. Pattern-ERG was performed to one patient. When contacting the mean visual acuity was 0.86. Subjectively all patients complained of the positive microscotoma that was not detected in perimetry but was noted when reading and was fixed on the Amsler's grid. Computed perimetry at 30.20 was not peculiar. The lamellar defect in one eye was observed in all patients using optical coherence tomography. The paper presented the clinical case with pattern-ERG registration in 3 months after the solar eclipse. The the P50-N95 amplitude increase of the affected eye was noted, which pointed to the retinal ganglion cells irritation. During the secondary examination in 2.5 months, the pattern-ERG values were within normal limits. As a result of the aforesaid it is recommended to avoid the influence of the direct sun rays without any protective means. The basis of the solar maculopathy is optical coherence tomography. The pattern-ERG alterations demand further investigation.Key words: solar maculopathy, retinal photodamage, solar eclipse.

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References:

1. Akhmetshin R.F., Abdullaeva E.A., Bulgar S.N. Solar maculopathy. The results of the five-year follow-up // Kazan medical journal. 2013. Vol. 94. №6. P. 901-903.

2. Ibragimova N.M., Bilandarly L.Sh. Solar maculopathy and the diagnostic significance of the optic coherence tomography (a case report) // Oftalmologiya. 2010. №2. P. 80-82.

3. Markova E.Y., Khatsenko I.E., Godoryazya V.V. Fluorescent angiography in the solar retinopathy diagnosis in children // Russian pediatric ophthalmology. 2006. №1. P. 19-21.

4. Mosin I.M., Khatsenko I.E., Balayan I.G. et al. Retinal photodamage in children // Russian ophthalmological journal. 2009. №4. P. 48-56.

5. Mosin I.M., Khatsenko I.E., Korkh N.L. et al. Solar damages of macula in children: the outcomes of the optic coherence tomography, psycho — and electrophysical investigations in the remote period // Micro-lectures, theses, discussion transcript of the II all-Russian seminar-"round table" "Macula-2006". Rostov-na-Donu, 2006. P. 355-357.

6. Bechmann M., Ehrt O., Thiel M.J. at al. Optical coherence tomography findings in early solar retinopathy // Am. J. Ophthalmol. 2004. V. 137. No. 6. P. 1139-1142.

7. Devadason D.S., Mahmood S., Stanga P.E., Bishop P.N. Solar retinopathy in a patient with bipolar affective disorder ⁄⁄ Br. J. Ophthalmol. — 2006. — Vol. 90. — No. 2. — P. 247.

8. Douglas R. S., Duncan J., Brucker A. et al. Foveal spot: a report of thirteen patients ⁄⁄ Retina. — 2003. — Vol. 23. — No. 6. — P. 348-353.

9. Hope-Ross M.W., Mahon G.J., Gardiner M.T.A., Archer D.B. Ultrastructural findings in solar retinopathy ⁄⁄ Eye. — 1993. — Vol. 7, N 1. — P. 29 — 33.

10. Michaelides M., Rajendram R., Marshall J. et al. Eclipse retinopathy ⁄⁄ Eye. — 2001. — Vol. 15. — No. 2. — P. 148-151.

11. Long V.W., Woodruff G.H. Bilateral retinal phototoxic injury during cataract surgery in a child // J. AAPOS. 2004. Vol. 8. №3. P. 278-279.

12. Mainster M.A., Turner P.L., Tsai L. Photic retinal injury and safety: Retina / Ryan S.J. ed.: St. Louis, Missouri, Mosby, 2001. P. 1797-1809.

13. Ruddle J.B., Harper C.A., Honemann D. et al. A denileukin diftitox (Ontak) associated retinopathy? // Br. J. Ophthalmol. 2006. Vol. 90. №8. P. 1070-1071.

14. Villate N., Lee J.E., Venkatraman A., Smiddy W.E. Photoreceptor layer features in eyes with closed macular holes: optical coherence tomography findings and correlation with visual outcomes // Am. J. Opthalmol. 2005. Vol. 139, №2. P. 280-289.

15. Zambarakji H.J., Schlottmann P., Tanner V. et al. Macular microholes: pathogenesis and natural history // Br. J. Ophthalmol. 2005. Vol. 89. №2. P. 189-193.


About this article

Author: Gurko T.S.

Year: 2015


Editor-in-chief
Sergey Aleksandrovich
MIROSHNIKOV

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