刺激中枢神经系统以预防创伤性脑损伤后的肠道功能障碍。
Stimulating the central nervous system to prevent intestinal dysfunction after traumatic brain injury.
作者信息
Bansal Vishal, Costantini Todd, Ryu Seok Yong, Peterson Carrie, Loomis William, Putnam James, Elicieri Brian, Baird Andrew, Coimbra Raul
机构信息
Department of Surgery, Division of Trauma, Surgical Critical Care and Burns, University of California San Diego, California, USA.
出版信息
J Trauma. 2010 May;68(5):1059-64. doi: 10.1097/TA.0b013e3181d87373.
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-alpha 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 microg/mL +/- 12.5 vs. 29.5 microg/mL +/- 5.9 microg/mL; p < 0.01). Vagal stimulation prevented TBI-induced intestinal permeability (55.8 +/- 4.8 microg/mL vs. 98.49 microg/mL +/- 12.5; p < 0.02). TBI animals had an increase in intestinal tumor necrosis factor-alpha 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.
背景
创伤性脑损伤(TBI)会导致胃肠功能障碍和肠道通透性增加。肠道屏障的调节可能涉及中枢神经系统。我们假设迷走神经刺激可防止TBI后肠道通透性增加。
方法
Balb/c小鼠接受重物坠落致TBI。部分小鼠在TBI前接受颈迷走神经电刺激。伤后6小时测量肠道对4.4 kDa异硫氰酸荧光素葡聚糖(FITC-Dextran)的通透性。采集回肠并测量肠道肿瘤坏死因子-α和胶质纤维酸性蛋白(GFAP,一种胶质细胞活性标志物)。
结果
与假手术组相比,伤后6小时TBI增加了肠道通透性(98.5微克/毫升±12.5 vs. 29.5微克/毫升±5.9微克/毫升;p<0.01)。迷走神经刺激可防止TBI诱导的肠道通透性增加(55.8±4.8微克/毫升 vs. 98.49微克/毫升±12.5;p<0.02)。与迷走神经刺激+TBI组相比,伤后6小时TBI动物肠道肿瘤坏死因子-α增加(45.6±8.6皮克/毫升 vs. 24.1±1.4皮克/毫升;p<0.001)。伤后2小时,TBI使肠道GFAP比假手术组高6.2倍,4小时时高11.5倍(p<0.05)。迷走神经刺激+TBI动物的肠道GFAP在2小时时也比假手术组高6.7倍,然而,4小时时肠道GFAP比假手术组高18.0倍,比单纯TBI组高1.6倍(p<0.05)。
结论
在TBI小鼠模型中,迷走神经刺激可防止TBI诱导的肠道通透性增加。此外,迷走神经刺激增加了肠胶质细胞活性,可能代表了中枢神经系统调节肠道通透性的途径。
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