September 2023
Volume 23, Issue 11
Open Access
Optica Fall Vision Meeting Abstract  |   September 2023
Poster Session: Estimation of scleral biomechanical properties from air-puff-coupled optical coherence tomography
Author Affiliations
  • Judith S. Birkenfeld
    Instituto de Óptica "Daza de Valdés", Consejo Superior de Investigaciones Científicas (IO-CSIC), Madrid, Spain
  • Lupe Villegas
    Instituto de Óptica "Daza de Valdés", Consejo Superior de Investigaciones Científicas (IO-CSIC), Madrid, Spain
  • Andrés de la Hoz
    Instituto de Óptica "Daza de Valdés", Consejo Superior de Investigaciones Científicas (IO-CSIC), Madrid, Spain
  • David Bronte-Ciriza
    CNR – IPCF, Istituto per i Processi Chimico-Fisici, Messina, Italy
  • Alejandra Varea
    Instituto de Óptica "Daza de Valdés", Consejo Superior de Investigaciones Científicas (IO-CSIC), Madrid, Spain
  • Eduardo Martínez-Enríquez
    Instituto de Óptica "Daza de Valdés", Consejo Superior de Investigaciones Científicas (IO-CSIC), Madrid, Spain
  • Andrea Curatolo
    ICTER and Institute of Physical Chemistry, Polish Academy of Sciences, Warsaw, Poland
  • James A. Germann
    Instituto de Óptica "Daza de Valdés", Consejo Superior de Investigaciones Científicas (IO-CSIC), Madrid, Spain
  • Susana Marcos
    The Center for Visual Science, University of Rochester, Rochester, New York, USA
Journal of Vision September 2023, Vol.23, 38. doi:https://doi.org/10.1167/jov.23.11.38
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      Judith S. Birkenfeld, Lupe Villegas, Andrés de la Hoz, David Bronte-Ciriza, Alejandra Varea, Eduardo Martínez-Enríquez, Andrea Curatolo, James A. Germann, Susana Marcos; Poster Session: Estimation of scleral biomechanical properties from air-puff-coupled optical coherence tomography. Journal of Vision 2023;23(11):38. https://doi.org/10.1167/jov.23.11.38.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

Progression of myopia is usually accompanied by axial overgrowth of the eyeball, which affects scleral biomechanics (BM). To study scleral biomechanics, we propose the use of air-puff deformation swept-source OCT imaging. Air-puff deformation imaging was performed at different sites of ex vivo porcine (n=5) and rabbit (n=3) eyes, (<24hr postmortem): Nasal/temporal equatorial and posterior sclera (NE, NP, TE, TP), superior (S) and inferior (I) sclera, and cornea (C). Intraocular pressure was kept at 15mmHg. Deformation data were used as input to inverse finite element model (FEM) algorithms to reconstruct BM properties. Experimental deformation amplitudes showed dependence on the animal model, with porcine scleras exhibiting greater inter-site variation (displacement of S, I was up to four times greater than that of N, T), while rabbit scleras exhibited at most 40% of displacement differences between all sites. Both models showed significant (p<.001) differences in the temporal deformation profile between sclera and (C), but similarities in all scleral locations, suggesting that the scleral temporal profile is independent of scleral thickness variations. The FEM estimated an elastic modulus of 1.84 ± 0.30 MPa (I) to 6.04 ± 2.11 MPa (TE) for the porcine sclera. The use of scleral air-puff imaging is promising for noninvasive investigation of structural changes in the sclera associated with myopia and for monitoring possible modulation of scleral stiffness with myopia treatment.

Footnotes
 Funding: Funding: Horizon 2020 Framework Programme European Project Imcustomeye (H2020-ICT-2017 Ref. 779960); European Research Council (2018-ADG-SILKEYE-833106); Spanish Government10.13039/100014440 (CSIC JAE Intro Fellowship); L'Oréal-UNESCO “For Women in Science” Spain; Spanish Government Juan de la Cierva-Incorporation Fellowship (IJC2018-037508-I); Spanish Government PID2020-115191RB-I00; Fundacja na rzecz Nauki Polskiej (MAB/2019/12); National Agency for Academic Exchange, Polish Government (NAWA ULAM/2020/1/00176); NIH NIE P30EY 001319; Unrestricted Funds Research to Prevent Blindness, NY
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