Team 5
Singular Imaging

Team description

Shaping light in complex media to unlock next-generation imaging

Our team investigates novel imaging capabilities based on an in-depth understanding of singular optics and wave propagation in complex media.
We study the fundamental mechanisms underlying the control of random wavefields, with a particular focus on their topological properties in disordered and complex environments.

Our research also explores the development of advanced optical instrumentation, including compressive imaging and high-resolution wavefront sensing.
Building on these approaches, we aim to enable applications ranging from super-resolution fluorescence microscopy to laser metrology.

We combine expertise in optical physics, complex media, and bio-instrumentation to design and implement next-generation imaging technologies.

Research areas : Singular optics – Complex media – Wavefront shaping – Compressive imaging – Super-resolution microscopy – Optical metrology

Research Topics

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Optimization of MeCP2 Gene Replacement Therapy for Rett Syndrome

Improving gene therapy for Rett syndrome by enhancing brain delivery and fine-tuning MeCP2 regulation.

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Deciphering the Roles of Importins in CNS and PNS Functions

Exploring how nuclear transport proteins regulate neuronal function, behavior, and gene expression.

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Drug Screening Approaches

Identifying and validating new therapeutic strategies for neurodevelopmental disorders.

Spinal motoneuron excitability is homeostatically regulated through β-adrenergic neuromodulation in wild-type and presymptomatic SOD1 mice.

Antonucci S, et al.

Progress in Neurobiology | 2026

Motoneurons Inhibitory Synapses Homeostatically Respond to Neuronal Activity and Modulate Amyotrophic Lateral Sclerosis Pathogenesis.

Halablab K, et al.

The Journal of Neuroscience | 2026

Repetitive Trans-spinal magnetic stimulation Promotes Repair in Inflammatory Spinal Cord Injury Through Sex-Dependent Immune Modulation

Semprez F, et al.

The Journal of Neuroinflammation | 2026

Prolonged Repetitive Trans-Spinal Magnetic Stimulation Promotes Superior Functional Recovery After Severe Spinal Cord Injury in Rats

Garrido E, et al.

The Journal of Neurotrauma | 2026

Decoding Wetting Behavior: Capillary Rise Experiments with Amphiphilic Compounds and Theoretical Aspects

Hamraoui A, et al.

Langmuir | 2025

Spinal cord injury alters the therapeutic potential of olfactory ensheathing cells harvested in an autologous transplantation model

Delarue Q, et al.

Stem Cell Research & Therapy | 2025

The alpha7 nicotinic acetylcholine receptor mediates network dysfunction in a mouse model of local amyloid pathology

Koukouli F, et al.

Molecular Psychiatry | 2025

Renshaw cells, corelease and nicotinic receptors: The last journey in synaptic transmission

Lamotte d’Incamps B

Neuroscience | 2025

Involvement of the Endothelial N-Methyl-D-Aspartate Receptor on Vessel-Associated Positioning and Differentiation of Cortical Oligodendrocytes and on Motor Activity

Beranger A, et al.

The Journal of Neuroscience | 2025

KCC2 enhancers normalize reflex responses and improve locomotor function after chronic spinal cord injury

Bilchak JN, et al.

The Journal of Physiology | 2025
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