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GBE

  • abbr.GBE公司;地面要素(Ground-Based Element)
GBEGBE
  1. Thoughts exploitation of GBE in the high level market

    银杏叶提取物高端市场开发的思考

  2. Behaviors : normal saline control group and GBE control group : all 0 stage .

    行为学:生理盐水对照组和GBE单独给药对照组均为0级;

  3. CONCLUSION : GBE may relieve cerebral ischemic damage after SAH .

    结论:GBE可减轻SAH后缺血性脑损伤。

  4. Research on the Detection and Purification of GBE

    银杏类黄酮(GBE)的检测与提纯工艺研究

  5. EEG : The EEG of normal saline control group and GBE control group was normal .

    EEG:生理盐水对照组和GBE单独给药对照组大鼠EEG正常。

  6. Research on the Enhancement of Therapeutic Effects of Mesenchymal Stem Cells on Diabetes by GBE

    银杏叶提取物增强骨髓间充质干细胞治疗糖尿病作用研究

  7. RESULTS Comparing with group with diabetes , retinal cell apoptosis decrease in treated group with GBE .

    结果GBE治疗组视网膜细胞凋亡明显较糖尿病组减轻(P<0.01)。

  8. Conclusion GBE can inhibit apoptosis in neuronal cells .

    结论gbe对神经细胞凋亡有抑制作用。

  9. Conclusion : GBE contained lung preservation solution can significantly reduce the lung ischemia reperfusion injury .

    结论含银杏叶提取物的肺保护液可明显减轻肺缺血再灌注损伤,对保存缺血肺组织有显著的保护作用。

  10. Fast Ethernet to GbE Migration Drives Massive Ethernet Switch Upgrade

    以太网技术演变推动交换机大规模升级

  11. Course of Breath Respiratory Burst of Leukocytes and Intervention by GbE

    白细胞呼吸暴发形态学改变及银杏叶提取物干预作用

  12. GbE has significant protective effect on myocardial ischemic damages in rabbits with ARF .

    GbE对ARF兔心肌组织缺血性损害有明显的保护作用。

  13. Expression of tissue transglutaminase on renal interstitial fibrosis rats and intervention of GBE

    银杏叶对大鼠肾脏中组织型转谷氨酰胺酶的表达及干预作用

  14. It showed that GBE could be used as a natural feed additive in high-end aquatic breeding .

    表明GBE作为一种天然物饲料添加剂在高端水产品养殖业中具有广阔的应用前景。

  15. Research on the Combined Efficacy of Intervention and GBE on Lower Extremities Vascular Disease in Diabetes Mellitus

    介入治疗联合银杏叶提取物治疗糖尿病下肢血管病变的研究

  16. The antioxidant mechanisms of GBE were discussed .

    探讨了GBE的抗氧化机理。

  17. By using FPGA , we designed and implemented GbE service rate adaptation module and GFP mapping function module .

    采用FPGA分别设计实现了GbE业务速率适配模块和GFP映射功能模块。

  18. Optimization of GBE extracting technology and effect of GBE on expression of Bcl-2 mRNA in Hela cell

    银杏叶黄酮提取工艺及对Hela细胞Bcl-2mRNA表达的影响

  19. A primary and control study of the effect of GBE on the endogenous erythropoietin change of patients with acute cerebral infarction

    银杏叶提取物对急性脑梗死患者EPO内源性调动的前瞻对照研究

  20. The network connections on the server used the built-in Intel PRO / 1000 GbE controllers .

    在服务器上的网络连接使用了内建IntelPRO/1000GbE控制器。

  21. Study and MRI Evaluation on the Treatment of Acute Cerebral Infarction of Cat with the Combination of bFGF and GbE

    bFGF,银杏叶提取物联合应用治疗猫急性脑梗塞的实验研究及其MRI评价

  22. GBE can decrease the expression of Bcl 2 mRNA . And it may has anti tumour effect .

    银杏叶黄酮能下调癌基因Bcl2mRNA表达水平,从而可能有抗肿瘤作用。

  23. AIM : To study the protective effects of Ginkgo biloba extract ( GbE ) on gastric mucosa .

    目的:研究银杏叶提取物的胃粘膜保护作用。

  24. Results show that the bacteriostasis of GBE is strengthened with the increase of the GBE concentration .

    结果表明,银杏叶提取物(GBE)的抑菌效果显著,且随其浓度增高抑菌能力增强。

  25. The technology of 10 GbE

    10吉比特以太网技术

  26. Conclusion : PNS and GbE could effectively prevent acute oxygen toxicity , which were related to their antioxidant activities .

    对过氧化氢酶和单胺氧化酶活性的影响则不显著。结论:三七总皂甙和银杏叶提取物可以有效预防急性氧中毒,其机制可能与它们的抗氧化活性有关。

  27. Conclusion The protection of VE and GbE is probably associated with stabilizing the cellular membrane structure of human KC .

    结论vE和GbE对3种氯代烯烃所致KC细胞毒性的拮抗作用可能与它们稳定细胞膜结构,减少细胞膜损伤有关。

  28. In this study , phase solubility method was used to study the GBE at different volume fraction of HP - β - CD .

    本研究采用相溶解度法,考察GBE在不同体积分数的HP-(?)-CD下相溶解度。

  29. CONCLUSIONS Expression of diabetic retinal VEGF could be reduced and retinal ganglion cell apoptosis could be attenuated by GBE .

    结论GBE可减少糖尿病视网膜VEGF表达,抑制糖尿病视网膜神经节细胞凋亡。

  30. By using grain boundary engineering ( GBE ), it is possible to improve the mechanical , chemical and magnetic properties of metallic materials significantly .

    利用晶界工程技术能够显著提高金属材料的力学、化学及磁学性能,因此,晶界工程已成为金属材料研究的一个重要领域。