Enteral supplementation enriched with glutamine, fiber, and oligosaccharide prevents gut translocation in a bacterial overgrowth model.

The journal of cardiothoracic trauma Pub Date : 2009-01-01 DOI:10.1097/TA.0b013e318193109b

H. Azuma, S. Mishima, J. Oda, H. Homma, H. Sasaki, M. Hisamura, S. Ohta, T. Yukioka

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引用次数: 18

Abstract

BACKGROUND Normal gut flora plays an important role in the intestinal mucosal barrier function under various critical conditions. The flora may alter after severe insults, such as trauma and shock. Enteral nutrition should preserve the gut environment; however, full support is usually difficult for severely ill patients because of impaired gastrointestinal motility. Currently, we have commercial enteral supplementation product enriched with glutamine, dietary fiber, and oligosaccharide (GFO) in Japan. This study examines the hypothesis that the enteral supplementation ameliorates gut injury induced by a bacterial overgrowth model, even in small volumes and quantities. MATERIALS Balb/c mice received antibiotics (4 mg/mL of streptomycin) in their drinking water for 4 days to kill the normal gut flora after which they were orally inoculated with a streptomycin-resistant strain of Escherichia coli, known as E. coli C-25. The mice that were administered bacterial monoassociation received 0.5 mL of GFO twice daily (GFO group) or 10% of glucose solution (GLU group). Unsupplemented drinking water was used for control animals (control) whose gut flora was normal. The mice were killed and their mesenteric lymph nodes complex was harvested and processed to test gut bacterial translocation. The cecal population levels of bacteria and ileum histology were also examined. RESULTS The incidence and magnitude of gut translocation to the lymph nodes complex in the GLU group were significantly higher than those in the control (p < 0.01). Treatment with GFO prevented the gut translocation although animals in the GFO group had same level of the cecal bacterial population. Histologic findings in the ileum were not different between the GLU and GFO. CONCLUSION GFOs supplement prevented gut translocation for bacterial overgrowth even in small volumes and quantities. The intestinal histologic findings could not explain the protective mechanisms of GFO. Further studies may be needed to elucidate the benefit of the partial enteral nutrition.

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在细菌过度生长模型中，肠内补充谷氨酰胺、纤维和低聚糖可防止肠道易位。

背景正常肠道菌群在肠黏膜屏障功能中发挥重要作用。在严重的伤害，如创伤和休克后，菌群可能发生改变。肠内营养应保护肠道环境;然而，由于胃肠运动功能受损，重症患者通常难以获得完全的支持。目前，我们在日本有富含谷氨酰胺、膳食纤维和低聚糖(GFO)的肠内补充产品。本研究检验了肠内补充改善细菌过度生长模型引起的肠道损伤的假设，即使是小体积和数量。在balb /c小鼠的饮用水中加入抗生素(4 mg/mL链霉素)4天，以杀死正常肠道菌群，之后口服接种耐链霉素的大肠杆菌菌株，称为大肠杆菌c -25。给予细菌单关联的小鼠每天两次给予0.5 mL GFO (GFO组)或10%葡萄糖溶液(GLU组)。肠道菌群正常的对照组(对照)采用不补充饮用水。小鼠被杀死，它们的肠系膜淋巴结复合体被收集并处理以测试肠道细菌易位。还检查了盲肠菌群水平和回肠组织学。结果GLU组患者肠易位至淋巴结复合物的发生率和程度均显著高于对照组(p < 0.01)。尽管GFO组动物的盲肠细菌数量相同，但GFO治疗可防止肠道易位。回肠的组织学表现在GLU和GFO之间没有差异。结论即使小剂量和小剂量补充fos也能防止肠道细菌过度生长的易位。肠道组织学结果不能解释GFO的保护机制。可能需要进一步的研究来阐明部分肠内营养的益处。

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The journal of cardiothoracic trauma

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