Publicaciones (57) Publicaciones de Francisco Manuel Nadal Nicolas

2024

  1. Reversible cold-induced lens opacity in a hibernator reveals a molecular target for treating cataracts

    Journal of Clinical Investigation, Vol. 134, Núm. 18

  2. Visual Deficits and Diagnostic and Therapeutic Strategies for Neurofibromatosis Type 1: Bridging Science and Patient-Centered Care

    Vision (Switzerland), Vol. 8, Núm. 2

2023

  1. Characterizing the rod pathway in cone-dominant thirteen-lined ground squirrels

    Frontiers in Ophthalmology, Vol. 3

  2. Methods to Identify Rat and Mouse Retinal Ganglion Cells in Retinal Flat-Mounts

    Methods in Molecular Biology (Humana Press Inc.), pp. 175-194

  3. Pan-retinal ganglion cell markers in mice, rats, and rhesus macaques

    Zoological research, Vol. 44, Núm. 1, pp. 226-248

2022

  1. In search for the 'idyllic' animal model to evaluate ocular pathologies and translate new therapies to improve human health

    Neural Regeneration Research, Vol. 17, Núm. 12, pp. 2697-2699

  2. Lateral gain is impaired in macular degeneration and can be targeted to restore vision in mice

    Nature Communications, Vol. 13, Núm. 1

2021

  1. A high-density narrow-field inhibitory retinal interneuron with direct coupling to Müller glia

    Journal of Neuroscience, Vol. 41, Núm. 28

  2. Establishing the ground squirrel as a superb model for retinal ganglion cell disorders and optic neuropathies

    Laboratory Investigation, Vol. 101, Núm. 9, pp. 1289-1303

  3. Treatment during a developmental window prevents NF1-associated optic pathway gliomas by targeting Erk-dependent migrating glial progenitors

    Developmental Cell, Vol. 56, Núm. 20, pp. 2871-2885.e6

2020

  1. Corrigendum to “Nerve fibre layer degeneration and retinal ganglion cell loss long term after optic nerve crush or transection in adult mice” (Experimental Eye Research (2018) 170 (40–50), (S001448351730619X), (10.1016/j.exer.2018.02.010))

    Experimental Eye Research

  2. Corrigendum to“Survival of melanopsin expressing retinal ganglion cells long term after optic nerve trauma in mice” (Experimental Eye Research (2018) 174 (93–97), (S0014483518302641), (10.1016/j.exer.2018.05.029))

    Experimental Eye Research

  3. True S-cones are concentrated in the ventral mouse retina and wired for color detection in the upper visual field

    eLife, Vol. 9, pp. 1-30

2019

  1. Melanopsin+RGCs are fully resistant to NMDA-Induced excitotoxicity

    International Journal of Molecular Sciences, Vol. 20, Núm. 12

  2. The senescent vision: Dysfunction or neuronal loss?

    Aging

  3. Topical bromfenac transiently delays axotomy-induced retinal ganglion cell loss

    Experimental Eye Research, Vol. 182, pp. 156-159

2018

  1. Human Wharton’s jelly mesenchymal stem cells protect axotomized rat retinal ganglion cells via secretion of anti-inflammatory and neurotrophic factors

    Scientific Reports, Vol. 8, Núm. 1

  2. Nerve fibre layer degeneration and retinal ganglion cell loss long term after optic nerve crush or transection in adult mice

    Experimental Eye Research, Vol. 170, pp. 40-50

  3. Pigment epithelium-derived factor protects retinal pigment epithelial cells against cytotoxicity “in vitro”

    Advances in Experimental Medicine and Biology (Springer New York LLC), pp. 457-464

  4. Survival of melanopsin expressing retinal ganglion cells long term after optic nerve trauma in mice

    Experimental Eye Research, Vol. 174, pp. 93-97