Szemészet, 2019 (156. évfolyam, 1-4. szám)
2019-12-01 / 4. szám
Mikroperimetriai vizsgálatok sikeres makulalyuk elleni műtét eseteiben Irodalom 1. Ámoré FM, Fasciani R, Silvestri V, et al. Relationship between fixation stability measured with MP-1 and reading performance. Ophthalmic Physiol Opt 2013; 33: 611-617. 2. Baba T, Yamamoto S, Kimoto R, et al. Reduction of thickness of ganglion cell complex after internal limiting membrane peeling during vitrectomy for idiopathic macular hole. Eye 2012; 1173-1180. 3. Boninska K, Nawrocki J, Michalewska Z. Mechanism Of “Flap closure” after the inverted internal limiting membrane flap technique. Retina 2018; 38:2184-2189. 4. Chatziralli IP Theodossiadis PG, Steel DHW: Internal limiting membrane peeling inmacular hole surgery; why, when, and how? Retina 2018; 38: 870-882. 5. Casini G, Mura M, Figus M, et al. Inverted internal limiting membrane flap technique for macular hole surgery without extra manipulation of the flap. Retina 2017; 37: 2138-2144. 6. Choi SR, Kang JW, Jeon JH, et al. The efficacy of superior inverted internal limiting membrane flap technique for the treatment of fullthickness macular hole. Retina 2018; 38(1): 192-197. 7. Duker JS, Kaiser PK, Binder S, et al. The international vitreomacular traction study group classify cation of vitreomacular adhesion, traction, and macular hole. Ophthalmology 2013; 120: 2611-2619. 8. Eckardt C, Eckardt 0, Groos S, et al. Removal of the internal limiting membrane in macular holes. Clinical and morphological findings. Ophthalmologe 1997; 94: 545-551. 9. Ferencz M, Somfai GM, Farkas A, et al. Functional assessment of the possible toxicity of indocyanine green dye in macular hole surgery. 2006; Am J Ophthalmol 2006: 142: 765-70. 10. Halfter W, Dong S, Dong A. Origin and turnover of ECM proteins from the inner limiting membrane and vitreous body. Eye 2008; 22: 1207-1213. 11. Ishida M, Ichikawa Y, Higashida R. Retinal displacement toward optic disc after internal limiting membrane peeling for idiopathic macular hole. Am J Ophthalmol 2014; 157: 971-977. 12. Iturburu FR Garcia-Arumi C, Bővé Alvarez M, et al. Comparison of Anatomical and visual outcomes between idiopathic and myopic macular holes using the internal limiting membrane or inverted internal limiting membrane flap technique. J Ophthalmol 2019; 2019: 6723824. 13. Kang SW, Ahn K, Ham DI. Types of macular hole closure and their clinical implications Br J Ophthalmol 2003; 87: 1015-1019. 14. Kelly NE, Wendel RT. Vitreous surgery for idiopathic macular holes: results of a pilot study. Arch Ophthalmol 1991; 109: 6549. 15. Liu L, Enkh-Amgalan I, Wang NK, et al. Results of macular hole surgery. Evaluation based on the international vitreomacular traction study classification. Retina 2018; 8: 900-906. 16. Mandelcorn MS, Podbielski DW, Mandelcorn ED. Fixation stability as a goal in the treatment of macular disease. Can J Opthalmol 2013; 48: 364-367. 17. Michalewska Z, Michalewski J, Adelman RA, et al. Inverted internal limiting membrane flap technique for large macular holes. Ophthalmology 2010; 117: 2018-2025. 18. Michalewska Z, Michalewski J, Dulczewska-Cichecka K, et al. Temporal inverted internal limiting membrane flap technique versus classic inverted internal limiting membrane flap technique a comparative study. Retina 2015; 35: 1844-1850. 19. Molina-Martin A, Pinero DR Perez-Cambrodi RJ. Reliability and intersession agreement of microperimetric and fixation measurements obtained with a new microperimeter in normal eyes. Current Eye Research 2016; 41(3): 400-409. 20. Morales MU, Saker S, Wilde C, et al. Reference clinical database for fixation stability metrics in normal subjects measured with the MAIA microperimetec Trans Vis Sei Tech 2016; 5:6, doi:10.1167/ tvst.5.6.6 21. Rodrigues IA, Lee EJ, Williamson TH. Measurement of retinal displacement and metamorphopsia after epiretinal membrane or macular hole surgery. Retina 2016; 36: 695-702. 22. Romano MR, llardi G, Ferrara M, et al. Macular peeling-induced retinal damage: clinical and histopathological evaluation after using different dyes. Graefes Arch Clin Exp Ophthalmol 2018; 256: 1573-1580. 23. Rossi T Gelso A, Costagliola C, et al. Macular hole closure patterns associated with different internal limiting membrane flap techniques. Graefes Arch Clin Exp Ophthalmol 2017; 255: 1073-1078. 24. Schumann RG, Rohleder M, Schaumberger MM. Idiopathic macular holes: ultrastructural aspects of surgical failure. Retina 2008; 28: 340-349. 25. Szepessy Z, Barboni MTS, Nagy ZZs, et al. Retinal sensitivity and fixation stability changes during repeated microperimetry. J Clin Exp Ophthalmol 2017; 8: 697. 26. Steel DHW, Dinah C, Habib M, et al. ILM peeling technique influences the degree of a dissociated optic nerve fibre layer appearance after macular hole surgery. Graefes Arch Clin Exp Ophthalmol 2015; 253: 691-698. 27. Sun Z, Gan D, JiangC, et al. Effect of preoperative retinal sensitivity and fixation on long-term prognosis for idiopathic macular holes. Graefes Arch Clin Exp Ophthalmol 2012; 250: 1587-1596. 28. Tadayoni R, Svorenova I, Erginay A, et al. Decreased retinal sensitivity after internal limiting membrane peeling for macular hole surgery. Br J Ophthalmol 2012; 96: 1513-1516. 29. Tarita-Nistor L, Gonzales EG, Mandelcorn ED, et al. Fixation stability, fixation location and visual acuity after successful macular hole surgery. Invest Ophthalmol Vis Sei 2009; 50: 84-89. 30. Ueda-Consolvo T, Otsuka M, Hayashi Y, et al. Microperimetric Biofeedback Training Improved Visual Acuity After Successful Macular Hole Surgery. Journal of Ophthalmology 2015; 2015: 572942. 31. Ulrich S, Haritoglou C, Gass C, et al. (2002) Macular hole size as a prognostic factor in macular hole surgery. Br J Ophthalmol 2002; 86: 390-393. 32. Wollensak G, Spoerl E, Grosse G, et al. Biomechanical significance of the human internal limiting lamina. Retina 2006; 26: 965-968. 33. Yamashita T Uemura A, Kita H, et al. Analysis of the retinal nerve fiber layer after indocyanine green-assisted vitrectomy for idiopathic macular hole. Ophthalmology 2006; 113: 280-284. Levelezési cím '. Récsán Zsuzsanna, Semmelweis Egyetem, Szemészeti Klinika 1085 Budapest, Mária u. 39. E-mail: zsrecsan@gmail.com Í24Í;
