The brain undergoes radical changes during the first years of life, which lay the foundations for many essential perceptual and cognitive abilities, such as language use or face perception. Imaging these neural changes is thus highly relevant, but not easy, as infants are challenging research participants. Near-infrared spectroscopy (NIRS) is a relatively new brain imaging technique, which is...
The coordination of cellular activities relies on the close positioning of intracellular organelles at membrane contact sites (MCSs), which has been found altered in several diseases. However, MCS study has been hampered by the lack of tools allowing to track membrane proximity with high spatial and temporal resolution. To address this limitation, we developed reversible fluorescent probes...
Brain disease is a major global health challenge, calling for new tools to probe the interplay between neural activity, neuromodulator dynamics, and molecular alterations. Understanding brain mechanisms requires both functional and biochemical measurements, yet current approaches largely rely on optical methods using genetically encoded reporters, which limit translational potential....
The development and function of neuronal circuits depend on the precise organization of neuronal morphology and synaptic architecture. These processes are shaped by intercellular communication mechanisms, including astrocyte-derived signals influencing neuronal growth, branching and synapse formation[1]. Although advanced microscopy provides detailed structural information, extracting robust...
Neural circuits underpin behavior, yet dissecting their function at single-cell resolution remains challenging due to complexity and inaccessibility in vivo. In this talk, I will show how larval zebrafish (Danio rerio) enables optical approaches that connect brain-wide activity to circuit organization and behavior. Leveraging volumetric calcium imaging, I will present experiments probing...
