Jelmer J. A. Weda scite author profile

We present a method, based on a single scattering model, to calculate the attenuation coefficient of each pixel in optical coherence tomography (OCT) depth profiles. Numerical simulations were used to determine the model's response to different depths and attenuation coefficients. Experiments were performed on uniform and layered phantoms with varying attenuation coefficients. They were measured by a 1300 nm OCT system and their attenuation coefficients were evaluated by our proposed method and by fitting the OCT slope as the gold standard. Both methods showed largely consistent results for the uniform phantoms. On the layered phantom, only our proposed method accurately estimated the attenuation coefficients. For all phantoms, the proposed method largely reduced the variability of the estimated attenuation coefficients. The method was illustrated on an in-vivo retinal OCT scan, effectively removing common imaging artifacts such as shadowing. By providing localized, per-pixel attenuation coefficients, this method enables tissue characterization based on attenuation coefficient estimates from OCT data.

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Quantitative measurements of absorption spectra in scattering media by low-coherence spectroscopy

Bosschaart

Aalders

Faber

et al. 2009

Opt. Lett.

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Visibility of fiducial markers used for image‐guided radiation therapy on optical coherence tomography for registration with CT: An esophageal phantom study

et al. 2017

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GaInNAs(Sb) surface normal devices

Calvez

Laurand

Sun

et al. 2008

Physica Status Solidi (a)

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Jelmer J. A. Weda

Depth-resolved model-based reconstruction of attenuation coefficients in optical coherence tomography

Quantitative measurements of absorption spectra in scattering media by low-coherence spectroscopy

Visibility of fiducial markers used for image‐guided radiation therapy on optical coherence tomography for registration with CT: An esophageal phantom study

GaInNAs(Sb) surface normal devices

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