qtOCT: quantitative transmission optical coherence tomography

TL;DR

qtOCT introduces a new method for quantitative transmission optical coherence tomography that enables direct, fast, and rigorous 2D phase retrieval, expanding OCT's capabilities for analyzing biological specimens.

Contribution

The paper presents qtOCT, a novel approach that allows direct quantitative phase measurement in transmission OCT, overcoming previous qualitative limitations.

Findings

High consistency with digital holographic microscopy

Enables analysis of multiple-scattering samples

Potential for broader biological applications

Abstract

Transmission optical coherence tomography (OCT) enables analysis of biological specimens in vitro through detection of forward scattered light. Up to now, transmission OCT was considered as a technique that cannot directly retrieve quantitative phase and is thus a qualitative method. In this paper, we present qtOCT, a novel quantitative transmission optical coherence tomography method. Unlike existing approaches, qtOCT allows for a direct, easy, fast and rigorous retrieval of 2D integrated phase information from transmission full-field swept-source OCT measurements. Our method is based on coherence gating and allows user-defined temporal measurement range selection, making it potentially suitable for analyzing multiple-scattering samples. We demonstrate high consistency between qtOCT and digital holographic microscopy phase images. This approach enhances transmission OCT capabilities, positioning it as a viable alternative to quantitative phase imaging techniques.