| [1] | 张为, 赵晓东.创伤失血性休克中的液体复苏[J].中华急诊医学杂志, 2019, 28(2):144. |
| [2] | LOZANO R, NAGHAVI M, FOREMAN K, et al.Global and regional mortality from 235 causes of death for 20 age groups in 1990 and 2010:a systematic analysis for the Global Burden of Disease Study 2010[J].Lancet, 2012, 380(9859):2095. |
| [3] | WOLF A, LUSCZEK ER, BEILMAN GJ, et al.Review:hibernation-based approaches in the treatment of hemorrhagic shock[J].Shock, 2017, 50(1):14. |
| [4] | SAFAVIAN D, LEUNG CH, KAPUS A, et al.Hemorrhagic shock/resuscitation reduces the m2 phenotype of alveolar macrophages:a potential mechanism contributing to increased LPS-induced lung injury[J].Shock, 2018, 51(2):213. |
| [5] | EL-MENYAR A, MEKKODATHIL A, ABDELRAHMAN H, et al.Review of existing scoring systems for massive blood transfusion in trauma patients:where do we stand?[J].Shock, 2019, 52(3):1. |
| [6] | YAN R, VAN MEURSM, POPA ER, et al.Early heterogenic response of renal microvasculature to hemorrhagic shock/resuscitation and the influence of NF-κB pathway blockade[J].Shock, 2019, 51(2):200. |
| [7] | 陈硬, 徐志鹏, 宋琦, 等.乌司他丁减轻失血性休克大鼠肺炎性损伤的机制[J].南方医科大学学报, 2019, 39(10):1232. |
| [8] | LIU H, XIONG J, HE T, et al.High uric acid-induced epithelial-mesenchymal transition of renal tubular epithelial cells via the TLR4/NF-kB signaling pathway[J].Am J Nephrol, 2017, 46(4):333. |
| [9] | ZUSSO M, LUNARDI V, FRANCESCHINI D, et al.Ciprofloxacin and levofloxacin attenuate microglia inflammatory response via TLR4/NF-κB pathway[J].J Neuroinflam, 2019, 16(1):148. |
| [10] | 宋琦, 徐志鹏, 王振杰, 等.醋酸钠林格液对休克大鼠肺炎性介质及其信号通路的影响[J].中华急诊医学杂志, 2018, 27(6):638. |
| [11] | 蔡腾, 王振杰, 王林, 等.乳酸钠林格液和醋酸钠林格液复苏对失血性休克大鼠TNF-α IL-6和IL-10的影响[J].中国急救医学, 2016, 36(2):166. |
| [12] | CAO C, YIN C, SHOU S, et al.Ulinastatin protects against LPS-induced acute lung injury by attenuating TLR4/NF-κB pathway activation and reducing inflammatory mediators[J].Shock, 2018, 50(5):595. |
| [13] | 栾樱译, 姚咏明.创伤失血性休克诊治中的病理生理机制[J].中华急诊医学杂志, 2018, 27(11):1189. |
| [14] | QIAO Z, HORST K, TEUBEN M, et al.Analysis of skeletal muscle microcirculation in a porcine polytrauma model with haemorrhagic shock[J].J Orthop Res, 2017, 36(5):1377. |
| [15] | DIVO MJ, MARTINEZ CH.Ageing and the epidemiology of multimorbidity[J].Eur Respir J, 2014, 44(4):1055. |
| [16] | BALCI-PEYNIRCIOGLU B, AKKAYA-ULUM YZ, AKBABA TH, et al.Potential of miRNAs to predict and treat inflammation from the perspective of Familial Mediterranean Fever[J].Inflamm Res, 2019(10):905. |
| [17] | HUANG Y, WANG H, WANG Y, et al.Regulation and mechanism of miR-146 on renal ischemia reperfusion injury[J].Pharmazie, 2018, 73(1):29. |
| [18] | GUO X, JIANG H, CHEN J, et al.RP105 ameliorates hypoxia reoxygenation injury in cardiac microvascular endothelial cells by suppressing TLR4 MAPKs NF-κB signaling[J].Int J Mol Med, 2018, 42(1):505. |
| [19] | GRASSELLI C, FERRARI D, ZALFA C, et al.Toll-like receptor 4 modulation influences human neural stem cell proliferation and differentiation[J].Cell Death Dis, 2018, 9(3):280. |
| [20] | LIN X, XIE J, SUN S, et al.Toll-Like Receptor 4(TLR4) stimulates synovial injury of temporomandibular joint in rats through the activation of p38 Mitogen-Activated Protein Kinase (MAPK) signaling pathway[J].Med Sci Monit, 2018, 24:44052. |
| [21] | NYATI KK, KAZUYA M, MAHABUB-UZ ZM, et al.TLR4-induced NF-κB and MAPK signaling regulate the IL-6 mRNA stabilizing protein Arid5a[J].Nucleic Acids Res, 2017, 45(5):2687. |
| [22] | LENNY Z, FRANCESCO P.Recent advances on Toll-like receptor 4 modulation:new therapeutic perspectives[J].Future Med Chem, 2018, 10(4):461. |
| [23] | ZUSSO M, LUNARDI V, FRANCESCHINI D, et al.Ciprofloxacin and levofloxacin attenuate microglia inflammatory response via TLR4/NF-kB pathway[J].J Neuroinflam, 2019, 16(1):148. |
| [24] | FU HX, FAN XP, LI M, et al.MiR-146a relieves kidney injury in mice with systemic lupus erythematosus through regulating NF-κB pathway[J].Eur Rev Med Pharmacol Sci, 2019, 23(16):7024. |
| [25] | LANCASTER GI, LANGLEY KG, BERGLUND NA, et al.Evidence that TLR4 is not a receptor for saturated fatty acids but mediates lipid-induced inflammation by reprogramming macrophage metabolism[J].Cell Metabolism, 2018, 27(5):1096. |
| [26] | CHEN J, YANG C, XU X, et al.The effect of focal cerebral ischemia-reperfusion injury on TLR4 and NF-κB signaling pathway[J].Exp Ther Med, 2018, 15(1):897. |
| [27] | DANG X, COIMBRA R, MAO L, et al.Open reading frame mining identifies a TLR4 binding domain in the primary sequence of ECRG4[J].Cell Mol Life Sci, 2019(7333):5027. |
| [28] | 徐志鹏, 陈硬, 宋琦, 等.醋酸钠林格液联合乌司他丁对失血性休克大鼠肝组织NF-κB p65蛋白表达及其细胞因子的影响[J].蚌埠医学院学报, 2018, 43(10):1334. |
| [29] | HE X, ZHENG Y, LIU S, et al.miR-146a protects small intestine against ischemia/reperfusion injury by down-regulating TLR4/TRAF6/NF-κB pathway[J].J Cell Physiol, 2018, 233(3):2476. |