Time-dependent elastic numerical model for Optical Coherence Elastography of the murine retina

http://hdl.handle.net/10400.2/16791

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Authors

Correia, Carlos

Barbeiro, Sílvia

Domingues, José Paulo

Henriques, Rafael

Loureiro, Custódio

Santos, Mário J.

Serranho, Pedro

Abstract(s)

We present the initial stages of development of a Finite Element Method-based time-dependent elastic numerical model which seeks to support the employment of our Optical Coherence Elastography system for assessing murine retinal elasticity. The current model is able to reconstruct displacement maps in both homogeneous and heterogeneous domains with errors up to a few hundredths relatively to a known exact displacement map, within 1 millisecond. The results demonstrate the robustness of the numerical algorithm under different elastic domains, and model parametrization with real Optical Coherence Elastography data is already in progress.

Description

2023 IEEE. ENBENG, 22-23 Junho de 2023, realizado no Porto, Portugal.

Keywords

Optical coherence elastography Retina Numerical modelling Finite element method

URI

http://hdl.handle.net/10400.2/16791

Research Projects

Research ProjectShow more

DOI

10.1109/ENBENG58165.2023.10175350

Collections

Matemática e Estatística | Comunicações em congressos, conferências e seminários / Communications in congresses, conferences

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