|
|
|
| Research progress of Rhei Radix Et Rhizoma in the treatment of sepsis based on intestinal flora regulation |
| DAI Xuan1 CHEN Shaoyu2 LI Jingxin2 ZHANG Mengying2 SUN Yanni3 CHENG Jiwei1 |
1.Department of Neurology, Putuo Hospital Affiliated to Shanghai University of Traditional Chinese Medicine, Shanghai 200062, China;
2.Department of Emergency Internal Medicine, Putuo Hospital Affiliated to Shanghai University of Traditional Chinese Medicine, Shanghai 200062, China;
3.Department of Emergency, Shanghai Baoshan District Wusong Central Hospital, Shanghai 200940, China |
|
|
|
|
Abstract A lot of studies have shown that Rhei Radix Et Rhizoma has good efficacy in the treatment of sepsis. In order to further clarify the related role and mechanism of Rhei Radix Et Rhizoma in the treatment of sepsis, this paper reviews the understanding of sepsis in traditional Chinese medicine, the negative effect of sepsis on intestinal flora, the significance of intestinal flora regulation in the treatment of sepsis, and the effect of Rhei Radix Et Rhizoma on sepsis by regulating intestinal flora. Studies have found that the occurrence and development of sepsis is closely related to the changes of intestinal flora. Single drug Rhei Radix Et Rhizoma, Rhei Radix Et Rhizoma compound and Rhei Radix Et Rhizoma monomer can effectively treat sepsis, and its mechanism may be related to improving intestinal flora imbalance, protecting gastrointestinal mucosal barrier, preventing intestinal bacterial translocation, and endotoxin absorption into the blood, and reducing inflammatory response. This review further clarified the therapeutic effect of Rhei Radix Et Rhizoma on sepsis and its related mechanism, and provided a theoretical basis for the clinical prevention and treatment of sepsis.
|
|
|
|
|
|
[1] DeMerle KM,Angus DC,Baillie JK,et al. Sepsis Subclasses:A Framework for Development and Interpretation [J]. Crit Care Med,2021,49(5):748-759.
[2] Rudd KE,Johnson SC,Agesa KM,et al. Global,regional,and national sepsis incidence and mortality,1990-2017:analysis for the Global Burden of Disease Study [J]. Lancet,2020, 395(10219):200-211.
[3] Evans L,Rhodes A,Alhazzani W,et al. Executive Summary:Surviving Sepsis Campaign:International Guidelines for the Management of Sepsis and Septic Shock 2021[J]. Crit Care Med,2021,49(11):1974-1982.
[4] Wang XH,Xu DQ,Chen YY,et al. Traditional Chinese Med- icine:A promising strategy to regulate inflammation,intestinal disorders and impaired immune function due to sepsis [J]. Front Pharmacol,2022,13:952938.
[5] 汪磊,刘阳,李慧,等.中医药调节肠道菌群治疗脓毒症研究进展[J].中国中医急症,2021,30(5):924-927.
[6] 王雪蕊,刘清泉,徐霄龙,等.强心一号配方对脓毒症小鼠海马区神经炎症反应的影响[J].世界中医药,2021,16(14):2101-2105.
[7] 朱君瑶,江勉君,古惠文,等.基于“毒、瘀、虚”理论的脓毒症与肠道菌群失调的关系探讨[J].时珍国医国药,2022, 33(1):179-181.
[8] 苏懿,罗艳霞,赖彩辉等.“四证四法”防治脓毒症心功能障碍的临床观察[J].中国中医急症,2023,32(2):285-288.
[9] Zhou A,Lei Y,Tang L,et al. Gut Microbiota:the Emerging Link to Lung Homeostasis and Disease [J]. J Bacteriol,2021, 203(4):e00454-20.
[10] 彭海英,刘宇鹏.肠道菌群失调与脓毒症关系研究进展[J].创伤与急危重病医学,2022,10(4):310-312.
[11] 陈兰涛,李晓娜,谢杰,等.成人脓毒症与肠道菌群失衡的相关性研究[J].右江医学,2021,49(8):584-587.
[12] Lou X,Xue J,Shao R,et al. Fecal microbiota transplantation and short-chain fatty acids reduce sepsis mortality by remodeling antibiotic-induced gut microbiota disturban- ces [J]. Front Immunol,2023,13:1063543.
[13] 赵赫,匡重伸,李芳,等.脓毒症模型小鼠的肠道菌群组成与变化[J].中华危重病急救医学,2021,33(1):10-16.
[14] Fay KT,Klingensmith NJ,Chen CW,et al. The gut microbiome alters immunophenotype and survival from sepsis [J]. FASEB J,2019,33(10):11258-11269.
[15] Adelman MW,Woodworth MH,Langelier C,et al. The gut microbiome’s role in the development,maintenance,and outcomes of sepsis [J]. Crit Care,2020,24(1):278.
[16] Cai J,Tang D,Hao X,et al. Mesenchymal stem cell-derived exosome alleviates sepsis-associated acute liver injury by suppressing MALAT1 through microRNA-26a-5p:an innovative immunopharmacological intervention and therapeutic approach for sepsis [J]. Front Immunol,2023, 14:1157793.
[17] Fang H,Wang Y,Deng J,et al. Sepsis-Induced Gut Dysbiosis Mediates the Susceptibility to Sepsis-Associated Encephalopathy in Mice [J]. mSystems,2022,7(3):e0139921.
[18] 王荣荣,董培贤,范滨.“肺肠同治”理论下宣肺调肠方对脓毒症相关ARDS患者肺肠功能的影响[J].四川中医,2022,40(11):166-169.
[19] Stadlbauer V,Horvath A,Komarova I,et al. Dysbiosis in early sepsis can be modulated by a multispecies probiotic:a randomised controlled pilot trial [J]. Benef Microbes,2019, 10(3):265-278.
[20] 陈蓉,刘洪峰.双歧杆菌三联活菌胶囊联合乌司他丁对脓毒症机械通气患者肠道菌群及外周血NLRP3、Caspase-1的影响[J].药物评价研究,2022,45(5):957-964.
[21] 李素彦,许宁,花然亮,等.粪菌移植通过肠道菌群调节脓毒症大鼠脑皮质胆碱能抗炎通路[J].中华危重病急救医学,2019,31(9):1102-1107.
[22] 白圆圆,董贝贝,于泳浩.脓毒症与肠道微生物相互作用的研究进展[J].中国医药导报,2022,19(10):38-41, 76.
[23] 陈敏,凌琪华,王倩.中药复方治疗脓毒症伴急性胃肠损伤用药规律的数据挖掘研究[J].中国中医急症,2022, 31(5):758-762.
[24] 宋洋,乐佳蕴,王小翠,等.大黄调节肠道菌群干预急性胰腺炎的研究进展[J].中国中医急症,2022,31(8):1307- 1309.
[25] 马丽琼,段金旗,于明克.大黄对脓毒症大鼠胃肠道菌群的影响[J].中华临床医师杂志(电子版),2012,6(10):2790-2792.
[26] 黄光伟,任爱民,张淑文,等.大黄对脓毒症大鼠肠道菌群紊乱影响的实验研究[J].临床和实验医学杂志,2012, 11(11):897-898.
[27] 翟璐,高巧营.大黄调控肠道水通道蛋白对脓毒症大鼠肠道菌群的影响[J].中国实验方剂学杂志,2016,22(3):127-131.
[28] 于彤彧,高巧营.大黄通过调控紧密连接蛋白治疗大鼠脓毒症[J].中国实验方剂学杂志,2016,22(13):146-149.
[29] 胡健,李泽庚,张峰,等.基于“肺与大肠相表里”探讨中医药调节肠道菌群治疗社区获得性肺炎研究进展[J].新中医,2022,54(21):26-30.
[30] 王丽辉,孙治霞,索红亮,等.基于HMGB1/TLR4/NF-κB通路探讨桃仁承气汤调节肠源性脓毒症大鼠肠道肌电活动及微环境稳态的作用机制[J].中国实验方剂学杂志,2020,26(12):78-84.
[31] 高薇薇,高万朋,关鹏,等.增液通腑逐瘀方对脓毒症大鼠肠道菌群紊乱和免疫失衡的调节作用[J].河南中医,2022,42(7):1040-1045.
[32] 赵锋利,王澍欣,罗苑苑,等.调胃承气汤对肠源性脓毒症大鼠免疫功能的影响[J].中国医药导报,2019,16(17):18-22.
[33] Mu S,Zhang J,Du S,et al. Gut microbiota modulation and anti-inflammatory properties of Xuanbai Chengqi decoction in septic rats [J]. J Ethnopharmacol,2020,267:113534.
[34] 潘振亚,王艳鹏,赵娜,等.基于高通量测序探讨参附桃红承气汤对脓毒症大鼠心肌抑制的影响[J].中国现代医生,2022,60(7):25-30,197.
[35] 曹强,郭亚菲,叶蕾蕾,等.大黄及其活性成分抗炎作用及机制的研究进展[J].中草药,2022,53(22):7285-7294.
[36] Zhang M,Lian B,Zhang R,et al. Emodin Ameliorates Intestinal Dysfunction by Maintaining Intestinal Barrier Integrity and Modulating the Microbiota in Septic Mice [J]. Mediators Inflamm,2022,2022:5026103.
[37] Li Y,Guo R,Zhang M,et al. Protective effect of emodin on intestinal epithelial tight junction barrier integrity in rats with sepsis induced by cecal ligation and puncture [J]. Exp Ther Med,2020,19(6):3521-3530.
[38] Shang L,Liu Y,Li J,et al. Emodin Protects Sepsis Associated Damage to the Intestinal Mucosal Barrier Through the VDR/ Nrf2 /HO-1 Pathway [J]. Front Pharmacol,2021,12:724511. |
|
|
|
