What question did this study set out to answer?

The study aims to determine the sensitivity limit of indocyanine green (ICG) detection in biological tissues by considering background autofluorescence signals.

May 8, 2026Open Access

Quantifying the sensitivity limit of ICG imaging in the presence of tissue autofluorescence

Key Points

The study aims to determine the sensitivity limit of indocyanine green (ICG) detection in biological tissues by considering background autofluorescence signals.
Quantitative analysis of ICG detection sensitivity in a model medium
Utilized nonfluorescent reference to isolate ICG signals
Accounted for background interference from tissue autofluorescence
Tissue autofluorescence significantly limits the sensitivity of ICG imaging in the near-infrared range.
The proposed method improves ICG imaging accuracy by distinguishing between ICG signals and autofluorescence.

Abstract

Significance: Fluorescent imaging (FI) using indocyanine green (ICG) is a powerful tool in medical diagnostics and surgery. Although numerous studies have focused on optimizing injection protocols and suppressing excitation light leakage, tissue autofluorescence has not been widely recognized as a fundamental factor limiting sensitivity. Aim: We aim to quantitatively determine the sensitivity limit for ICG detection in biological tissues, accounting for background signals from both scattered excitation light and tissue autofluorescence. Approach: using a nonfluorescent reference and a model medium with a known ICG concentration. Results: when accounting for the autofluorescence signal. Conclusions: Tissue autofluorescence is a fundamental factor limiting the sensitivity of ICG FI in the near-infrared range. The developed approach will allow for future optimization of imaging equipment and protocols for ICG and other contrast agents.

Quantifying the sensitivity limit of ICG imaging in the presence of tissue autofluorescence

Key Points

Abstract

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