NeuroImage (Oct 2024)

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

  • Jing Li,
  • Fan Yang,
  • Kathleen Zhang,
  • Shiqiang Wu,
  • James Niemeyer,
  • Mingrui Zhao,
  • Peijuan Luo,
  • Nan Li,
  • Rongxin Li,
  • Dan Li,
  • Weihong Lin,
  • Jyun-you Liou,
  • Theodore H. Schwartz,
  • Hongtao Ma

Journal volume & issue
Vol. 299
p. 120816

Abstract

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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.

Keywords