Deformation of the lamina cribrosa and optic nerve due to changes in cerebrospinal fluid pressure

Andrew J. Feola, Baptiste Coudrillier, John Mulvihill, Diogo M. Geraldes, Nghia T. Vo, Julie Albon, Richard L. Abel, Brian C. Samuels, C. Ross Ethier

Research output: Contribution to journalArticlepeer-review

Abstract

PURPOSE. Cerebrospinal fluid pressure (CSFp) changes are involved or implicated in various ocular conditions including glaucoma, idiopathic intracranial hypertension, and visual impairment and intracranial pressure syndrome. However, little is known about the effects of CSFp on lamina cribrosa and retrolaminar neural tissue (RLNT) biomechanics, potentially important in these conditions. Our goal was to use an experimental approach to visualize and quantify the deformation of these tissues as CSFp increased. METHODS. The posterior eye and RLNT of porcine eyes (n = 3) were imaged using synchrotron radiation phase-contrast micro-computed tomography (PC μCT) at an intraocular pressure of 15 mm Hg and CSFps of 4, 10, 20, and 30 mm Hg. Scans of each tissue region were acquired at each CSFp step and analyzed using digital volume correlation to determine 3-dimensional tissue deformations. RESULTS. Elevating CSFp increased the strain in the lamina cribrosa and RLNT of all three specimens, with the largest strains occurring in the RLNT. Relative to the baseline CSFp of 4 mm Hg, at 30 mm Hg, the lamina cribrosa experienced a mean first and third principal strain of 4.4% and 3.5%, respectively. The corresponding values for the RLNT were 9.5% and 9.1%. CONCLUSIONS. CSFp has a significant impact on the strain distributions within the lamina cribrosa and, more prominently, within the RLNT. Elevations in CSFp were positively correlated with increasing deformations in each region and may play a role in ocular pathologies linked to changes in CSFp.

Original languageEnglish
Pages (from-to)2070-2078
Number of pages9
JournalInvestigative Ophthalmology and Visual Science
Volume58
Issue number4
DOIs
Publication statusPublished - Apr 2017

Keywords

  • Cerebrospinal fluid pressure
  • Digital volume correlation
  • Intracranial pressure
  • Ocular biomechanics
  • Phase-contrast micro-computed tomography

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