Author:
Wu Wanjie,He Sicong,Wu Junqiang,Chen Congping,Li Xuesong,Liu Kai,Qu Jianan Y.
Abstract
ABSTRACTSpinal cord, as part of the central nervous system, accounts for the main communication pathway between the brain and the peripheral nervous system. Spinal cord injury is a devastating and largely irreversible neurological trauma, and can result in lifelong disability and paralysis with no available cure. In vivo spinal cord imaging in mouse models without introducing immunological artifacts is critical to understand spinal cord pathology and discover effective treatments. We developed a minimal-invasive intervertebral window by retaining ligamentum flavum to protect the underlying spinal cord. By introducing an optical clearing method, we achieved repeated two-photon fluorescence and stimulated Raman scattering imaging at subcellular resolution with up to 16 imaging sessions over 167 days and observed no inflammatory response. Using this optically cleared intervertebral window, we studied the neuron-glia dynamics following laser axotomy and observed strengthened contact of microglia with the nodes of Ranvier during axonal degeneration. By enabling long-term, repetitive, stable, high-resolution and inflammation-free imaging of mouse spinal cord, our method provides a reliable platform in the research aiming at understanding and treatment of spinal cord pathology.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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