Yoshiyasu Nakai scite author profile

It has been demonstrated that the infusion of bone marrow stromal cells (BMSCs) through the cerebrospinal fluid (CSF) has beneficial effects on acute spinal cord injury (SCI) in rats. The present study examined whether BMSC infusion into the CSF is effective for subacute (1- and 2-week post-injury), and/or chronic (4-week post-injury) SCI in rats. The spinal cord was contused by dropping a weight at the thoracic 8-9 levels. BMSCs cultured from GFP-transgenic rats of the same strain were injected three times (once weekly) into the CSF through the fourth ventricle, beginning at 1, 2 and 4 weeks post-injury. At 4 weeks after initial injection, the average BBB score for locomotor assessment increased from 1.0–3.5 points before injection to 9.0-10.9 points in the BMSC-injection subgroups, while, in the PBS (vehicle)-injection subgroups, it increased only from 0.5–4.0 points before injection to 3.0-5.1 points. Numerous axons associated with Schwann cells extended longitudinally through the connective tissue matrices in the astrocyte-devoid lesion without being blocked at either the rostral or the caudal borders in the BMSC-injection subgroups. A small number of BMSCs were found to survive within the spinal cord lesion in SCI of the 1-week post-injury at 2 days of injection, but none at 7 days. No BMSCs were found in the spinal cord lesion at 2 days or at 7 days in the SCI of the 2-week and the 4-week post-injury groups. In an in vitro experiment, BMSC-injected CSF promoted the survival and the neurite extension of cultured neurons more effectively than did the PBS-injected CSF. These results indicate that BMSCs had beneficial effects on locomotor improvement as well as on axonal regeneration in both subacute and chronic SCI rats, and the results also suggest that BMSCs might function as neurotrophic sources via the CSF.

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Characterization of conditioned medium of cultured bone marrow stromal cells

Nakano

Nakai

Seo

et al. 2010

Neuroscience Research

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Disuse muscle atrophy exacerbates motor neuronal degeneration caudal to the site of spinal cord injury

Ohnishi¹,

Iwatsuki²,

Shinzawa

et al. 2012

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Spinal cord injury is often followed by disuse muscle atrophy. The effect of disuse muscle atrophy on motor neurons below the level of spinal cord lesions is not fully understood. We produced spinal contusions in the mid-thoracic segment (Th7/8) of rats. To promote disuse muscle atrophy, their hind limbs were immobilized. Alpha-motor neurons in L4/5 at 3 weeks postinjury showed signs of degeneration associated with disuse muscle atrophy. Muscle atrophy alone did not produce a significant α-motor neuronal degeneration. Our results demonstrate that disuse muscle atrophy within the context of spinal cord injury exacerbates motor neuronal degeneration in caudal regions remote from the injury.

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Yoshiyasu Nakai

Bone marrow stromal cell transplantation for treatment of sub-acute spinal cord injury in the rat

Characterization of conditioned medium of cultured bone marrow stromal cells

Effects of Bone Marrow Stromal Cell Transplantation through CSF on the Subacute and Chronic Spinal Cord Injury in Rats

Characterization of conditioned medium of cultured bone marrow stromal cells

Disuse muscle atrophy exacerbates motor neuronal degeneration caudal to the site of spinal cord injury

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