Applied Sciences (Mar 2022)

Finite Element Analysis of the Epiretinal Membrane Contraction

  • Ana Rita Reis,
  • João P. S. Ferreira,
  • Ana Guerra,
  • António Fernandes,
  • Sónia Torres-Costa,
  • Manuel Falcão,
  • Marco P. L. Parente

DOI
https://doi.org/10.3390/app12052623
Journal volume & issue
Vol. 12, no. 5
p. 2623

Abstract

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The epiretinal membrane is a thin sheet of fibrous tissue that can form over the macular area of the retina, and may result in the loss of visual acuity or metamorphopsia, due to superficial retinal folds. A vitrectomy surgery, the current treatment procedure for this pathology, is only performed after symptoms are present. However, sometimes the patients do not present any vision improvements after the surgery. The use of computational methods for a patient-specific biomechanical analysis can contribute to better understanding the mechanisms behind the success or failure of a vitrectomy. Using medical data from two patients who underwent a vitrectomy, one with substantial improvements and another with no improvements, an analysis of the retinal displacement due to the contraction of the epiretinal membrane was performed. Our results suggest a causal effect between the magnitude of the retinal displacements caused by the epiretinal membrane contraction and the outcome of the vitrectomy procedure.

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