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Journal of neurotrauma · Dec 2022
Enhanced network in corticospinal tracts after infused mesenchymal stem cells in spinal cord injury.
- Ryosuke Hirota, Masanori Sasaki, Yuko Kataoka-Sasaki, Tsutomu Oshigiri, Kota Kurihara, Ryunosuke Fukushi, Shinichi Oka, Ryo Ukai, Mitsunori Yoshimoto, Jeffery D Kocsis, Toshihiko Yamashita, and Osamu Honmou.
- Department of Neural Regenerative Medicine, Research Institute for Frontier Medicine, and Sapporo Medical University School of Medicine, Sapporo, Japan.
- J. Neurotrauma. 2022 Dec 1; 39 (23-24): 166516771665-1677.
AbstractAlthough limited spontaneous recovery occurs after spinal cord injury (SCI), current knowledge reveals that multiple forms of axon growth in spared axons can lead to circuit reorganization and a detour or relay pathways. This hypothesis has been derived mainly from studies of the corticospinal tract (CST), which is the primary descending motor pathway in mammals. The major CST is the dorsal CST (dCST), being the major projection from cortex to spinal cord. Two other components often called "minor" pathways are the ventral and the dorsal lateral CSTs, which may play an important role in spontaneous recovery. Intravenous infusion of mesenchymal stem cells (MSCs) provides functional improvement after SCI with an enhancement of axonal sprouting of CSTs. Detailed morphological changes of CST pathways, however, have not been fully elucidated. The primary objective was to evaluate detailed changes in descending CST projections in SCI after MSC infusion. The MSCs were infused intravenously one day after SCI. A combination of adeno-associated viral vector (AAV), which is an anterograde and non-transsynaptic axonal tracer, was injected 14 days after SCI induction. The AAV with advanced tissue clearing techniques were used to visualize the distribution pattern and high-resolution features of the individual axons coursing from above to below the lesion. The results demonstrated increased observable axonal connections between the dCST and axons in the lateral funiculus, both rostral and caudal to the lesion core, and an increase in observable axons in the dCST below the lesion. This increased axonal network could contribute to functional recovery by providing greater input to the spinal cord below the lesion.
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