Seok Yong Ryu scite author profile

Seok Yong Ryu

2Publications

121Citation Statements Received

75Citation Statements Given

How they've been cited

140

115

How they cite others

Affiliations

Inje University Sanggye Paik Hospital, University of California, San Diego, American Association for the Surgery of Trauma

Publications

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Stimulating the Central Nervous System to Prevent Intestinal Dysfunction After Traumatic Brain Injury

Bansal

Costantini

Ryu

et al. 2010

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Background Traumatic brain injury (TBI) causes gastrointestinal dysfunction and increased intestinal permeability. Regulation of the gut barrier may involve the central nervous system. We hypothesize that vagal nerve stimulation prevents an increase in intestinal permeability after TBI. Methods Balb/c mice underwent a weight drop TBI. Selected mice had electrical stimulation of the cervical vagus nerve before TBI. Intestinal permeability to 4.4 kDa FITC-Dextran was measured 6 hours after injury. Ileum was harvested and intestinal tumor necrosis factor-α and glial fibrillary acidic protein (GFAP), a marker of glial activity, were measured. Results TBI increased intestinal permeability compared with sham, 6 hours after injury (98.5 μg/mL ± 12.5 vs. 29.5 μg/mL ±5.9 μg/mL; p < 0.01). Vagal stimulation prevented TBI-induced intestinal permeability (55.8 ±4.8 μg/mL vs. 98.49 μg/mL ±12.5; p < 0.02). TBI animals had an increase in intestinal tumor necrosis factor-α 6 hours after injury compared with vagal stimulation + TBI (45.6 ± 8.6 pg/mL vs. 24.1 ± 1.4 pg/mL; p < 0.001). TBI increased intestinal GFAP 6.2-fold higher than sham at 2 hours and 11.5-fold higher at 4 hours after injury (p < 0.05). Intestinal GFAP in vagal stimulation + TBI animals was also 6.7-fold higher than sham at 2 hours, however, intestinal GFAP was 18.0-fold higher at 4 hours compared with sham and 1.6-fold higher than TBI alone (p < 0.05). Conclusion In a mouse model of TBI, vagal stimulation prevented TBI-induced intestinal permeability. Furthermore, vagal stimulation increased enteric glial activity and may represent the pathway for central nervous system regulation of intestinal permeability.

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Vagal Stimulation Modulates Inflammation through a Ghrelin Mediated Mechanism in Traumatic Brain Injury

et al. 2011

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Traumatic brain injury (TBI) releases a cascade of inflammatory cytokines. Vagal nerve stimulation (VNS) and ghrelin have known anti-inflammatory effects; furthermore, ghrelin release is stimulated by acetylcholine. We hypothesized VNS decreases post-TBI inflammation through a ghrelin-mediated mechanism. TBI was created in five groups of mice: sham, TBI, TBI/ghrelin, TBI/VNS, and TBI/VNS/ghrelin receptor antagonist (GRa). Serum and tissue ghrelin, and serum TNF-α were measured. Ghrelin increased following VNS 2 h post-TBI compared to sham or TBI. At 6 h, TBI and TBI/VNS/GRa had increased TNF-α compared to sham while TBI/VNS and TBI/ghrelin had TNF-α level comparable to sham. The highest ghrelin was measured in stomach where TBI decreased ghrelin in contrast to an increase by VNS. In conclusion, VNS increased serum ghrelin and decreased TNF-α following TBI. This was abrogated with GRa. Our data suggests that ghrelin plays an important role in the anti-inflammatory effects of VNS following TBI.

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Seok Yong Ryu

Stimulating the Central Nervous System to Prevent Intestinal Dysfunction After Traumatic Brain Injury

Vagal Stimulation Modulates Inflammation through a Ghrelin Mediated Mechanism in Traumatic Brain Injury

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