Role of Oxidative Stress in Ulcerative Colitis and Traditional Chinese Medicine Prevention and Treatment： A Review

CHEN Bo; SUN Xitong; DONG Xinqian; WANG Wei; SONG Hongquan; ZHAO Jiting; ZHENG Ya; ZHANG Honghao; LUAN Qingxin; ZHAO Kangning; DENG Hualiang; SUN Zhen

doi:10.13422/j.cnki.syfjx.20232299

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Role of Oxidative Stress in Ulcerative Colitis and Traditional Chinese Medicine Prevention and Treatment： A Review

更新时间：2023-07-18

- Role of Oxidative Stress in Ulcerative Colitis and Traditional Chinese Medicine Prevention and Treatment： A Review
- Chinese Journal of Experimental Traditional Medical Formulae Vol. 29, Issue 16, Pages: 264-273(2023)
- 作者机构：
  
  1.山东中医药大学，济南 250014
  2.山东中医药大学附属医院，济南 250014
- 作者简介：
- 基金信息：
- DOI：10.13422/j.cnki.syfjx.20232299
  CLC： R2-0;R22;R285.5;R2-031;R259;R574.62
- Published：20 August 2023，
  
  Published Online：07 June 2023，
  
  Received：18 March 2023，
- 稿件说明：
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陈博,孙夕童,董新茜等.氧化应激在溃疡性结肠炎中的作用及中医药防治研究进展[J].中国实验方剂学杂志,2023,29(16):264-273.

CHEN Bo,SUN Xitong,DONG Xinqian,et al.Role of Oxidative Stress in Ulcerative Colitis and Traditional Chinese Medicine Prevention and Treatment： A Review[J].Chinese Journal of Experimental Traditional Medical Formulae,2023,29(16):264-273.
陈博,孙夕童,董新茜等.氧化应激在溃疡性结肠炎中的作用及中医药防治研究进展[J].中国实验方剂学杂志,2023,29(16):264-273. DOI： 10.13422/j.cnki.syfjx.20232299.

CHEN Bo,SUN Xitong,DONG Xinqian,et al.Role of Oxidative Stress in Ulcerative Colitis and Traditional Chinese Medicine Prevention and Treatment： A Review[J].Chinese Journal of Experimental Traditional Medical Formulae,2023,29(16):264-273. DOI： 10.13422/j.cnki.syfjx.20232299.

摘要

溃疡性结肠炎（UC）是一种临床常见的消化系统疾病，致病机制尚不明确，病情复杂多变，迁延难愈，治疗周期漫长，且无特效药。目前，UC的治疗多采用皮质类固醇、氨基水杨酸及生物制剂等西医手段，短时间起效快，疗效确切。但随着用药时间的延长，部分患者会出现耐药性和加剧病情发展，导致结肠癌的发生。有研究发现，氧化应激是UC重要的致病因素之一，影响着UC的发生、发展。氧化应激是机体内氧化产物与抗氧化系统不平衡的一种应激状态，丙二醛（MDA）、活性氧（ROS）、一氧化氮（NO）等氧化产物的过表达或者超氧化物歧化酶（SOD）、过氧化氢酶（CAT）、谷胱甘肽（GSH）抗氧化酶的不足都会导致氧化应激的发生。值得注意的是，中医药作为我国独有的医学特色，运用中医药治疗UC疾病已经取得显著的成效。研究表明，中医药一方面通过抑制代谢产物的堆积，有效抑制UC发生，另一方面，通过提高抗氧化系统，达到拮抗UC发展的治疗效果。因此，以中医药调节氧化平衡状态作为诊疗思路，可能是未来治疗UC疾病的新手段、新方向。基于上述研究，该文总结了氧化应激关键致病蛋白与UC发生、发展的作用机制，归纳了中药有效成分、单味中药、中药复方、针灸调控氧化应激上下游靶点蛋白，减轻肠黏膜病理损害，降低结肠损伤指数，以及丰富肠道菌群，增加结肠长度，改善UC临床症状，以期为扩大中医药治疗UC疾病的应用范围，提供可靠的科学理论依据。

Abstract

Ulcerative colitis （UC） is a commonly seen digestive system disease with unclear pathogenesis. The condition is complex and variable， often chronic， and has a long treatment period with no specific cure. Currently， the treatment of UC often involves the use of corticosteroids， aminosalicylates， and biologics in western medicine， which provide fast-acting and definite efficacy in the short term. However， with prolonged medication， some patients may develop drug resistance and worsening of the disease， leading to the occurrence of colon cancer. Research has found that oxidative stress is one of the important pathogenic factors in UC and influences its onset and development. Oxidative stress is a state of imbalance between oxidative products and the antioxidant system in the body， characterized by overexpression of oxidative products such as malondialdehyde （MDA）， reactive oxygen species （ROS）， nitric oxide （NO）， or deficiency of antioxidant enzymes such as superoxide dismutase （SOD）， catalase （CAT）， and glutathione （GSH）. It is worth noting that traditional Chinese medicine （TCM）， as a unique characteristic medicine of China， has achieved significant efficacy in the treatment of UC. Studies have shown that TCM effectively inhibits the occurrence of UC by suppressing the accumulation of metabolites and antagonizes the development of UC by enhancing the antioxidant system. Therefore， using TCM to regulate the oxidative balance as a diagnostic and therapeutic approach may be a new method and direction for the treatment of UC in the future. Based on the above research， this article summarized the mechanisms of key pathogenic proteins in oxidative stress and the occurrence and development of UC， and compiled the effective ingredients of Chinese medicine， single drugs， prescriptions， and acupuncture and moxibustion in regulating upstream and downstream target proteins of oxidative stress. These interventions can reduce pathological damage to the intestinal mucosa， lower the colon injury index， enrich the intestinal microbiota， increase colon length， and improve clinical symptoms of UC. The article is expected to expand the application of TCM in the treatment of UC and provide a reliable scientific theoretical basis.

关键词

溃疡性结肠炎氧化应激丙二醛超氧化物歧化酶谷胱甘肽核因子E2相关因子2（Nrf2）核转录因子-κB（NF-κB）

Keywords

ulcerative colitisoxidative stressmalondialdehydesuperoxide dismutaseglutathionenuclear factor E2-related factor 2（Nrf2）nuclear factor-κB（NF-κB）

references

FELL J M，MUHAMMED R，SPRAY C，et al.Management of ulcerative colitis［J］.Arch Dis Child，2016，101（5）：469-474.

GAO X，LI J，PANG X，et al.Animal models and pathogenesis of ulcerative colitis［J］.Comput Math Methods Med，2022，2022：5927384.

JIA L，ZHOU H，LI W，et al.Network pharmacology integrated molecular docking revealed the mechanism of Jianpi Yiqi Taohua decoction against ulcerative colitis［J］.Med Sci Monit，2022，28：e933537.

ANSARI M N，REHMAN N U，KARIM A，et al.Role of oxidative stress and inflammatory cytokines （TNF-α and IL-6） in acetic acid-induced ulcerative colitis in rats：Ameliorated by Otostegia fruticosa［J］.Life （Basel），2021，11（3）：195.

ISMAIL ABO EL-FADL H M，MOHAMED M.Targeting endoplasmic reticulum stress，Nrf-2/HO-1，and NF-κB by myristicin and its role in attenuation of ulcerative colitis in rats［J］.Life Sci，2022，311（Pt B）：121187.

ZHANG B，PAN C，FENG C，et al.Role of mitochondrial reactive oxygen species in homeostasis regulation［J］.Redox Rep，2022，27（1）：45-52.

SALEH J，EDEAS M，VAN GOOR H.Antioxidant supplements and oxidative stress：The debate extends to the Middle East［J］.Sultan Qaboos Univ Med J，2019，19（3）：e177-e180.

RAHAL A，KUMAR A，SINGH V，et al.Oxidative stress，prooxidants，and antioxidants：the interplay［J］.Biomed Res Int，2014，2014：761264.

SHARIFI-RAD M，ANIL KUMAR N V，ZUCCA P，et al.Lifestyle，oxidative stress，and antioxidants：Back and forth in the pathophysiology of chronic diseases［J］.Front Physiol，2020，11：694.

AYALA A，MUñOZ M F，ARGÜELLES S.Lipid peroxidation：Production，metabolism，and signaling mechanisms of malondialdehyde and 4-hydroxy-2-nonenal［J］.Oxid Med Cell Longev，2014，2014：360438.

TAGNON M D，SIMEON K O.Aldehyde dehydrogenases may modulate signaling by lipid peroxidation-derived bioactive aldehydes［J］.Plant Signal Behav，2017，12（11）：e1387707.

HU H C，ZHANG W，XIONG P Y，et al.Anti-inflammatory and antioxidant activity of astragalus polysaccharide in ulcerative colitis：A systematic review and Meta-analysis of animal studies［J］.Front Pharmacol，2022，13：1043236.

TOTO A，WILD P，GRAILLE M，et al.Urinary malondialdehyde （MDA） concentrations in the general population-A systematic literature review and Meta-analysis［J］.Toxics，2022，10（4）：160.

SARGIS R M，SUBBAIAH P V.Protection of membrane cholesterol by sphingomyelin against free radical-mediated oxidation［J］.Free Radic Biol Med，2006，40（12）：2092-2102.

JELIC M D，MANDIC A D，MARICIC S M，et al.Oxidative stress and its role in cancer［J］.J Cancer Res Ther，2021，17（1）：22-28.

TSIKAS D.Assessment of lipid peroxidation by measuring malondialdehyde （MDA） and relatives in biological samples：Analytical and biological challenges［J］.Anal Biochem，2017，524：13-30.

李曦，吴仲，代丽娜，等.依托咪酯对DNBS诱导的大鼠溃疡性结肠炎氧化应激和炎症因子表达的干预及机制研究［J］.中国免疫学杂志，2021，37（23）：2822-2826，2831.

NGUYEN N H，TRAN G B，NGUYEN C T.Anti-oxidative effects of superoxide dismutase 3 on inflammatory diseases［J］.J Mol Med （Berl），2020，98（1）：59-69.

OLADELE J O，ANYIM J C，OYELEKE O M，et al.Telfairia occidentalis mitigates dextran sodium sulfate-induced ulcerative colitis in rats via suppression of oxidative stress，lipid peroxidation，and inflammation［J］.J Food Biochem，2021，45（9）：e13873.

FERRAT M，MOULAHOUM H，BOUMAZA B，et al.Gadolinium chloride attenuates acetic acid-evoked colitis in mice by reducing neutrophil infiltration and pro-oxidative enzyme activity［J］.Naunyn Schmiedebergs Arch Pharmacol，2019，392（3）：299-311.

MIAO L，ST CLAIR D K .Regulation of superoxide dismutase genes：Implications in disease［J］.Free Radic Biol Med，2009，47（4）：344-356.

黎俏灵，李鹤年，郭静科，等.灌胃纳米超氧化物歧化酶脂质体对小鼠溃疡性结肠炎的改善作用［J］.食品科学，2023，44（1）：166-174.

DUDZIŃSKA E，GRYZINSKA M，OGNIK K，et al.Oxidative stress and effect of treatment on the oxidation product decomposition processes in IBD［J］.Oxid Med Cell Longev，2018，2018：7918261.

ANDERSON M E.Glutathione：An overview of biosynthesis and modulation［J］.Chem Biol Interact，1998，111-112：1-14.

OOKHTENS M，KAPLOWITZ N.Role of the liver in interorgan homeostasis of glutathione and cyst（e）ine［J］.Semin Liver Dis，1998，18（4）：313-329.

LU S C.Glutathione synthesis［J］.Biochim Biophys Acta，2013，1830（5）：3143-3153.

LU S C.Regulation of glutathione synthesis［J］.Mol Aspects Med，2009，30（1/2）：42-59.

PATLEVIČ P，VAŠKOVÁ J，ŠVORC P，et al.Reactive oxygen species and antioxidant defense in human gastrointestinal diseases［J］.Integr Med Res，2016，5（4）：250-258.

LOGUERCIO C，D'ARGENIO G，DELLE CAVE M，et al.Glutathione supplementation improves oxidative damage in experimental colitis［J］.Dig Liver Dis，2003，35（9）：635-641.

VANNINI F，KASHFI K，NATH N.The dual role of iNOS in cancer［J］.Redox Biol，2015，6：334-343.

XUE Q，YAN Y，ZHANG R，et al.Regulation of iNOS on immune cells and its role in diseases［J］.Int J Mol Sci，2018，19（12）：3805.

CINELLI M A，DO H T，MILEY G P，et al.Inducible nitric oxide synthase：Regulation，structure，and inhibition［J］.Med Res Rev，2020，40（1）：158-189.

ZHOU X，REN M，YANG J，et al.Curcumin improves epithelial barrier integrity of Caco-2 monolayers by inhibiting endoplasmic reticulum stress and subsequent apoptosis［J］.Gastroenterol Res Pract，2021，2021：5570796.

DHILLON S S，MASTROPAOLO L A，MURCHIE R，et al.Higher activity of the inducible nitric oxide synthase contributes to very early onset inflammatory bowel disease［J］.Clin Transl Gastroenterol，2014，5（1）：e46.

KUMAR V S，RAJMANE A R，ADIL M，et al.Naringin ameliorates acetic acid induced colitis through modulation of endogenous oxido-nitrosative balance and DNA damage in rats［J］.J Biomed Res，2014，28（2）：132-145.

HE F，RU X，WEN T.NRF2，a transcription factor for stress response and beyond［J］.Int J Mol Sci，2020，21（13）：4777.

TONELLI C，CHIO I，TUVESON D A.Transcriptional regulation by Nrf2［J］.Antioxid Redox Signal，2018，29（17）：1727-1745.

KOBAYASHI A，KANG M I，OKAWA H，et al.Oxidative stress sensor Keap1 functions as an adaptor for Cul3-based E3 ligase to regulate proteasomal degradation of Nrf2［J］.Mol Cell Biol，2004，24（16）：7130-7139.

KOBAYASHI E H，SUZUKI T，FUNAYAMA R，et al.Nrf2 suppresses macrophage inflammatory response by blocking proinflammatory cytokine transcription［J］.Nat Commun，2016，7：11624.

CHEN Y，MIAO Z，SHENG X，et al.Sesquiterpene lactones-rich fraction from Aucklandia lappa Decne.alleviates dextran sulfate sodium induced ulcerative colitis through co-regulating MAPK and Nrf2/Hmox-1 signaling pathway［J］.J Ethnopharmacol，2022，295：115401.

BAI X，GOU X，CAI P，et al.Sesamin enhances Nrf2-mediated protective defense against oxidative stress and inflammation in colitis via Akt and ERK activation［J］.Oxid Med Cell Longev，2019，2019：2432416.

MITCHELL S，VARGAS J，HOFFMANN A.Signaling via the NFκB system［J］.Wiley Interdiscip Rev Syst Biol Med，2016，8（3）：227-241.

PISANI L F，TONTINI G，VECCHI M，et al.NF-κB pathway is involved in microscopic colitis pathogenesis［J］.J Int Med Res，2022，doi：10.1177/03000605221080104http://dx.doi.org/10.1177/03000605221080104.

MATHES E，O'DEA E L，HOFFMANN A，et al.NF-kappaB dictates the degradation pathway of IkappaBalpha［J］.EMBO J，2008，27（9）：1357-1367.

SUN S C.The non-canonical NF-κB pathway in immunity and inflammation［J］.Nat Rev Immunol，2017，17（9）：545-558.

YAO D，ZHOU Z，WANG P，et al.MiR-125-5p/IL-6R axis regulates macrophage inflammatory response and intestinal epithelial cell apoptosis in ulcerative colitis through JAK1/STAT3 and NF-κB pathway［J］.Cell Cycle，2021，20（23）：2547-2564.

SHEN P，ZHANG Z，ZHU K，et al.Evodiamine prevents dextran sulfate sodium-induced murine experimental colitis via the regulation of NF-κB and NLRP3 inflammasome［J］.Biomed Pharmacother，2019，110：786-795.

YANG S，LI F，LU S，et al.Ginseng root extract attenuates inflammation by inhibiting the MAPK/NF-κB signaling pathway and activating autophagy and p62-Nrf2-Keap1 signaling in vitro and in vivo［J］.J Ethnopharmacol，2022，283：114739.

鲁香凤，张书信，王梦媛.论狭义之毒邪与溃疡性结肠炎［J］.中华中医药杂志，2022，37（11）：6647-6651.

吴航，陈莉娟，杨维建，等.中医药治疗溃疡性结肠炎及其肺损伤的机制研究［J］.中国中医基础医学杂志，2023，29（2）：339-344.

程小真，于永铎.基于脏腑辨证探讨溃疡性结肠炎肠外表现的中医病机［J］.中华中医药杂志，2022，37（10）：5726-5730.

张阳，王允亮，王志斌，等.溃疡性结肠炎病机特点探讨［J］.中医杂志，2022，63（5）：488-490.

李卫东，花宝金.中医药调控氧化应激防治肠炎癌变的机制研究概况［J］.中医杂志，2017，58（23）：2059-2064.

KONG J，XIANG Q，SHI G，et al.Licorice protects against ulcerative colitis via the Nrf2/PINK1-mediated mitochondrial autophagy［J］.Immun Inflamm Dis，2023，11（1）：e757.

FATANI A J，ALROJAYEE F S，PARMAR M Y，et al.Myrrh attenuates oxidative and inflammatory processes in acetic acid-induced ulcerative colitis［J］.Exp Ther Med，2016，12（2）：730-738.

钱雪芬，孟云霞，徐大洲.基于糖萼损伤研究金银花水煎液治疗溃疡性结肠炎的作用机制［J］.现代中西医结合杂志，2021，30（10）：1079-1082，1140.

马文强，杨坤，田昕，等.青黛对溃疡性结肠炎小鼠的治疗作用及其治疗机制研究［J］.解剖科学进展，2019，25（2）：146-149.

SU J，GAO C，XIE L，et al.Astragaloside Ⅱ ameliorated podocyte injury and mitochondrial dysfunction in streptozotocin-induced diabetic rats［J］.Front Pharmacol，2021，12：638422.

QIAO C，WAN J，ZHANG L，et al.Astragaloside Ⅱ alleviates the symptoms of experimental ulcerative colitis in vitro and in vivo［J］.Am J Transl Res，2019，11（11）：7074-7083.

LUAN F，JI Y，PENG L，et al.Extraction，purification，structural characteristics and biological properties of the polysaccharides from Codonopsis pilosula：A review［J］.Carbohydr Polym，2021，261：117863.

刘雪枫，乔婧，高建德，等.党参多糖对溃疡性结肠炎大鼠结肠上皮NF-κB信号通路的影响［J］.中成药，2021，43（6）：1445-1450.

XIA S，LIN H，LIU H，et al.Honokiol attenuates sepsis-associated acute kidney injury via the inhibition of oxidative stress and inflammation［J］.Inflammation，2019，42（3）：826-834.

WANG L，WANG J.Honokiol ameliorates DSS-induced mouse colitis by inhibiting inflammation and oxidative stress and improving the intestinal barrier［J］.Oxid Med Cell Longev，2022，2022：1755608.

ZENG B，WEI A，ZHOU Q，et al.Andrographolide：A review of its pharmacology，pharmacokinetics，toxicity and clinical trials and pharmaceutical researches［J］.Phytother Res，2022，36（1）：336-364.

SANDBORN W J，TARGAN S R，BYERS V S，et al.Andrographis paniculata extract （HMPL-004） for active ulcerative colitis［J］.Am J Gastroenterol，2013，108（1）：90-98.

JING M，WANG Y，XU L.Andrographolide derivative AL-1 ameliorates dextran sodium sulfate-induced murine colitis by inhibiting NF-κB and MAPK signaling pathways［J］.Oxid Med Cell Longev，2019，2019：6138723.

LIU W，ZHANG Y，ZHU W，et al.Sinomenine inhibits the progression of rheumatoid arthritis by regulating the secretion of inflammatory cytokines and monocyte/macrophage subsets［J］.Front Immunol，2018，9：2228.

ZHOU Y，LIU H，SONG J，et al.Sinomenine alleviates dextran sulfate sodium‑induced colitis via the Nrf2/NQO‑1 signaling pathway［J］.Mol Med Rep，2018，18（4）：3691-3698.

YANG H，YUE Y，LI Y，et al.Geniposide attenuates dextran sulfate sodium-induced colitis in mice via Nrf-2/HO-1/NF-κB pathway［J］.Ann Palliat Med，2020，9（5）：2826-2836.

KAZI H A，QIAN Z.Crocetin reduces TNBS-induced experimental colitis in mice by downregulation of NFκB［J］.Saudi J Gastroenterol，2009，15（3）：181-187.

ZDUŃSKA K，DANA A，KOLODZIEJCZAK A，et al.Antioxidant properties of ferulic acid and its possible application［J］.Skin Pharmacol Physiol，2018，31（6）：332-336.

SADAR S S，VYAWAHARE N S，BODHANKAR S L.Ferulic acid ameliorates TNBS-induced ulcerative colitis through modulation of cytokines，oxidative stress，iNOS，COX-2，and apoptosis in laboratory rats［J］.EXCLI J，2016，15：482-499.

WANG X，FENG S，DING N，et al.Anti-inflammatory effects of berberine hydrochloride in an LPS-induced murine model of mastitis［J］.Evid Based Complement Alternat Med，2018，2018：5164314.

ZHU L，GU P，SHEN H.Protective effects of berberine hydrochloride on DSS-induced ulcerative colitis in rats［J］.Int Immunopharmacol，2019，68：242-251.

何佳，邵继华，王林园，等.黄芪多糖对溃疡性结肠炎大鼠的研究［J］.中国临床药理学杂志，2022，38（14）：1678-1682.

张霞，杜文泽，赵汉清，等.汉黄芩苷对溃疡性结肠炎大鼠促炎因子、氧化应激标志物水平的影响及黏膜修复作用［J］.中国老年学杂志，2022，42（12）：2994-2998.

刘扬，芮雪琳，李嘉诚，等.桔梗多糖对溃疡性结肠炎小鼠的影响［J］.中成药，2022，44（4）：1093-1099.

曾勇，朱楷，刘煌.芍药苷对溃疡性结肠炎小鼠Treg/Th17平衡、氧化应激反应的调节作用［J］.药品评价，2021，18（21）：1306-1310.

郭子右，刘葭，余玲，等.当归汤多糖对溃疡性结肠炎的改善作用及机制初步研究［J］.天津中医药，2021，38（4）：528-534.

李彤，刘芬，张新悦，等.基于网络药理学解析葛根芩连汤治疗溃疡性结肠炎的配伍机制［J］.中国中药杂志，2022，47（13）：3619-3628.

林川，王菲，王鸿卿，等.葛根芩连汤及配伍调控Nrf2/NQO1信号通路抑制溃疡性结肠炎大鼠氧化应激损伤［J］.中国实验方剂学杂志，2022，28（13）：19-27.

WEI P，HE Q，LIU T，et al.Baitouweng decoction alleviates dextran sulfate sodium-induced ulcerative colitis by suppressing leucine-related mTORC1 signaling and reducing oxidative stress［J］.J Ethnopharmacol，2023，304：116095.

LIU B，PIAO X，NIU W，et al.Kuijieyuan decoction improved intestinal barrier injury of ulcerative colitis by affecting TLR4-dependent PI3K/Akt/NF-κB oxidative and inflammatory signaling and gut microbiota［J］.Front Pharmacol，2020，11：1036.

刘保光，谢苗，董颖，等.黄连解毒汤作用机制研究进展［J］.中医学报，2022，37（9）：1861-1868.

YUAN Z，YANG L，ZHANG X，et al.Huang-Lian-Jie-Du decoction ameliorates acute ulcerative colitis in mice via regulating NF-κB and Nrf2 signaling pathways and enhancing intestinal barrier function［J］.Front Pharmacol，2019，10：1354.

柴瑞婷，贾育新，张明雨，等.参苓白术散对脾虚湿困型UC大鼠结肠组织MKK/JNK通路的影响［J］.中国免疫学杂志，2022，38（23）：2852-2857，2864.

熊艳玲，钟薏文，陈雅茜，等.基于抗炎和氧化应激角度研究参苓白术颗粒对脾虚湿困溃疡性结肠炎大鼠的作用机制［J］.中药新药与临床药理，2021，32（2）：149-157.

SHEN Y，ZOU J，CHEN M，et al.Protective effects of Lizhong decoction on ulcerative colitis in mice by suppressing inflammation and ameliorating gut barrier［J］.J Ethnopharmacol，2020，259：112919.

谢家诚，马晓聪，罗伟生.乌梅丸合甘草泻心汤对寒热错杂型活动期溃疡性结肠炎患者的临床疗效及对免疫功能、氧化应激的影响［J］.中药材，2023，46（1）：226-230.

方静，陈江，彭君伟，等.基于Nrf2通路探讨薏苡附子败酱散治疗溃疡性结肠炎的作用机制［J］.中国实验方剂学杂志，2018，24（13）：85-92.

祁燕，袁志伟，万春平，等.溃结康对溃疡性结肠炎小鼠结肠抗氧化作用及Nrf2/ARE信号通路的影响［J］.中药药理与临床，2019，35（2）：115-119.

吴阳阳，刘明江，殷韶杰，等.针刺对溃疡性结肠炎大鼠氧化应激和内质网应激的影响［J］.针刺研究，2020，45（1）：8-14.

王虎.电针大肠俞募穴治疗溃疡性结肠炎的临床研究［J］.辽宁中医杂志，2022，49（11）：173-175.

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