Refining hemodynamic correction in in vivo wide-field fluorescent imaging through linear regression analysis.

TitleRefining hemodynamic correction in in vivo wide-field fluorescent imaging through linear regression analysis.
Publication TypeJournal Article
Year of Publication2024
AuthorsLi J, Yang F, Zhang K, Wu S, Niemeyer J, Zhao M, Luo P, Li N, Li R, Li D, Lin W, Liou J-Y, Schwartz TH, Ma H
JournalNeuroimage
Volume299
Pagination120816
Date Published2024 Aug 30
ISSN1095-9572
Abstract

Accurate interpretation of in vivo wide-field fluorescent imaging (WFFI) data requires precise separation of raw fluorescence signals into neural and hemodynamic components. The classical Beer-Lambert law-based approach, which uses concurrent 530-nm illumination to estimate relative changes in cerebral blood volume (CBV), fails to account for the scattering and reflection of 530-nm photons from non-neuronal components leading to biased estimates of CBV changes and subsequent misrepresentation of neural activity. This study introduces a novel linear regression approach designed to overcome this limitation. This correction provides a more reliable representation of CBV changes and neural activity in fluorescence data. Our method is validated across multiple datasets, demonstrating its superiority over the classical approach.

DOI10.1016/j.neuroimage.2024.120816
Alternate JournalNeuroimage
PubMed ID39209071