Analysis of the surgical treatment results of large idiopathic macular holes using tamponade with internal limiting membrane flaps and platelet-rich plasma

Andrey D. Shchukin; Щукин Андрей Дмитриевич; Andrey D. Shchukin; Anastasia G. Veryasova; Верясова Анастасия Геннадьевна; Anastasia G. Veryasova; Yury V. Gnatyuk; Гнатюк Юрий Витальевич; Yury V. Gnatyuk; Oleg B. Smirnov; Смирнов Олег Борисович; Oleg B. Smirnov

doi:10.17816/OV630581

Analysis of the surgical treatment results of large idiopathic macular holes using tamponade with internal limiting membrane flaps and platelet-rich plasma

Authors: Shchukin A.D.¹, Veryasova A.G.¹, Gnatyuk Y.V.¹, Smirnov O.B.¹
Affiliations:
1. Saint Petersburg Multifield Hospital No. 2
Issue: Vol 17, No 4 (2024)
Pages: 29-36
Section: Original researches
URL: https://journals.rcsi.science/ov/article/view/280527
DOI: https://doi.org/10.17816/OV630581
ID: 280527

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Abstract

BACKGROUND: Penetrating macular holes of the retina remain today one of the main reasons for a significant loss of central vision, especially in working age patients. At the same time, the mainstream problem are the validity and effectiveness of treatment of large and giant macular holes with a diameter of more than 500–1000 µm.

AIM: to optimize the treatment method for patients with large and long-standing macular holes. To analyze the results of treatment of patients with this condition.

MATERIALS AND METHODS: In 2023, 56 patients were operated on for idiopathic large macular hole. During vitrectomy, a new surgical technique was used for the macular hole bed tamponade with flaps of the internal limiting membrane in combination with the introduction of platelet-rich plasma.

RESULTS: After the resorption of the gas-air mixture (1–1.5 months after surgery), ophthalmoscopically and according to optical coherence tomography data, closure of the macular hole was observed in 51 of 56 operated patients, which amounted to 91.1%.

CONCLUSIONS: The surgical treatment technique used allows for closure of large macular holes in 91.1%.

Keywords

macular hole, microinvasive vitrectomy, platelet-rich plasma, internal limiting membrane

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About the authors

Andrey D. Shchukin

Saint Petersburg Multifield Hospital No. 2

Author for correspondence.
Email: Shchukin.a.d@mail.ru
ORCID iD: 0009-0001-3635-8392

MD, Cand. Sci. (Medicine)

Russian Federation, 5 Uchebnii lane, Saint Petersburg, 193318

Anastasia G. Veryasova

Saint Petersburg Multifield Hospital No. 2

Email: verangenn@mail.ru
ORCID iD: 0000-0002-2080-655X
SPIN-code: 9180-8024

Russian Federation, 5 Uchebnii lane, Saint Petersburg, 193318

Yury V. Gnatyuk

Saint Petersburg Multifield Hospital No. 2

Email: yuragnatyuk@yandex.ru
ORCID iD: 0009-0001-2061-0805

Russian Federation, 5 Uchebnii lane, Saint Petersburg, 193318

Oleg B. Smirnov

Saint Petersburg Multifield Hospital No. 2

Email: Smirnovolegborisovic@gmail.com

Russian Federation, 5 Uchebnii lane, Saint Petersburg, 193318

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2. Fig. 2. Inverted ILM flap technique used

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3. Fig. 5. Distribution of mean retinal thickness before (1) and after (2) surgical treatment of the macular hole

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4. Fig. 1. Distribution of patients according to the diameter of the macular hole’s base

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5. Fig. 3. Patient L. Right eye: macular hole stage 4, the macular hole history is longer than a year: a — Right eye: Vis before surgery 0.09; b — Right eye: Vis after surgery 0.4

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6. Fig. 4. Patient G. Right eye: macular hole stage 4, the macular hole history is about 1.5–2 years: a — Right eye: Vis before surgery 0.08; b — Right eye: Vis after surgery 0.3–0.4

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