Annals of Clinical and Translational Neurology (Jun 2023)

Multimodal investigation of melanopsin retinal ganglion cells in Alzheimer's disease

  • Chiara La Morgia,
  • Micaela Mitolo,
  • Martina Romagnoli,
  • Michelangelo Stanzani Maserati,
  • Stefania Evangelisti,
  • Maddalena De Matteis,
  • Sabina Capellari,
  • Claudio Bianchini,
  • Claudia Testa,
  • Gilles Vandewalle,
  • Aurelia Santoro,
  • Michele Carbonelli,
  • Pietro D'Agati,
  • Marco Filardi,
  • Pietro Avanzini,
  • Piero Barboni,
  • Corrado Zenesini,
  • Flavia Baccari,
  • Rocco Liguori,
  • Caterina Tonon,
  • Raffaele Lodi,
  • Valerio Carelli

DOI
https://doi.org/10.1002/acn3.51773
Journal volume & issue
Vol. 10, no. 6
pp. 918 – 932

Abstract

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Abstract Objective In Alzheimer's disease (AD), the presence of circadian dysfunction is well‐known and may occur early in the disease course. The melanopsin retinal ganglion cell (mRGC) system may play a relevant role in contributing to circadian dysfunction. In this study, we aimed at evaluating, through a multimodal approach, the mRGC system in AD at an early stage of disease. Methods We included 29 mild–moderate AD (70.9 ± 11 years) and 26 (70.5 ± 8 years) control subjects. We performed an extensive neurophtalmological evaluation including optical coherence tomography with ganglion cell layer segmentation, actigraphic evaluation of the rest‐activity rhythm, chromatic pupillometry analyzed with a new data‐fitting approach, and brain functional MRI combined with light stimuli assessing the mRGC system. Results We demonstrated a significant thinning of the infero‐temporal sector of the ganglion cell layer in AD compared to controls. Moreover, we documented by actigraphy the presence of a circadian‐impaired AD subgroup. Overall, circadian measurements worsened by age. Chromatic pupillometry evaluation highlighted the presence of a pupil‐light response reduction in the rod condition pointing to mRGC dendropathy. Finally, brain fMRI showed a reduced occipital cortex activation with blue light particularly for the sustained responses. Interpretation Overall, the results of this multimodal innovative approach clearly document a dysfunctional mRGC system at early stages of disease as a relevant contributing factor for circadian impairment in AD providing also support to the use of light therapy in AD.