表皮生长因子受体抑制剂相关甲沟炎的研究进展

doi:10.35541/cjd.20210858

中华皮肤科杂志 ›› 2025, Vol. 58 ›› Issue (3): 276-281.doi: 10.35541/cjd.20210858

表皮生长因子受体抑制剂相关甲沟炎的研究进展

胡紫馨^1，2 谭可欣^1，2 董慧静^1，2 张旭^1，2 俞仪萱^1，2 鲁星妤^1，2 李嘉^1，2 崔慧娟²

¹北京中医药大学，北京 100029；²中日友好医院中西医结合肿瘤内科，北京 100029

收稿日期:2021-11-26 修回日期:2022-05-19 发布日期:2025-03-07
通讯作者: 崔慧娟 E-mail:chjzryhyy@sina.com
基金资助:
国家自然科学基金（81873396）；首都卫生发展科研专项项目（首发2018-2-4065）

Epidermal growth factor receptor inhibitor-related paronychia

Hu Zixin^1,2, Tan Kexin^1,2, Dong Huijing^1,2, Zhang Xu^1,2, Yu Yixuan^1,2, Lu Xingyu^1,2, Li Jia^1,2, Cui Huijuan²

1Beijing University of Chinese Medicine, Beijing 100029, China; 2Department of Oncology, China-Japan Friendship Hospital, Beijing 100029, China

Received:2021-11-26 Revised:2022-05-19 Published:2025-03-07
Contact: Cui Huijuan E-mail:chjzryhyy@sina.com
Supported by:
National Natural Science Foundation of China （81873396）; Capital Funds for Health Improvement and Research （2018-2-4065）

摘要/Abstract

摘要： 【摘要】表皮生长因子受体抑制剂（EGFRI）相关甲沟炎是指与EGFRI治疗明确相关的以甲周皮肤红斑、水肿、脓性渗出、甲周或甲下肉芽组织病变，或伴甲板变薄变脆甚至碎裂分离为特点的疾病。表皮功能抑制、炎症形成并继发感染、血管新生是EGFRI相关甲沟炎发生发展的核心过程。本文综述EGFRI相关甲沟炎的流行病学、发病机制、临床表现、预防和治疗手段。

关键词: 甲沟炎, 表皮生长因子受体抑制剂, 皮肤毒性反应

Abstract: 【Abstract】 Epidermal growth factor receptor inhibitor （EGFRI）-related paronychia is a condition clearly related to EGFRI therapy, characterized by periungual erythema, edema, purulent exudates, periungual or subungual granulomatous lesions, and sometimes accompanied by thinning, fragility or even splitting and seperation of nail plates. Inhibition of epidermal function, inflammation and secondary infections, as well as angiogenesis are the core processes in the occurrence and development of EGFRI-related paronychia. This review summarizes epidemiology, pathogenesis, clinical manifestations, prevention and treatment of EGFRI-related paronychia.

Key words: Paronychia, Epidermal growth factor receptor inhibitors, Cutaneous adverse reactions

中图分类号:

胡紫馨谭可欣董慧静张旭俞仪萱鲁星妤李嘉崔慧娟. 表皮生长因子受体抑制剂相关甲沟炎的研究进展[J]. 中华皮肤科杂志, 2025,58(3):276-281. doi:10.35541/cjd.20210858

Hu Zixin, Tan Kexin, Dong Huijing, Zhang Xu, Yu Yixuan, Lu Xingyu, Li Jia, Cui Huijuan. Epidermal growth factor receptor inhibitor-related paronychia[J]. Chinese Journal of Dermatology, 2025, 58(3): 276-281.doi:10.35541/cjd.20210858

参考文献 56

［1］	Lacouture ME, Sibaud V, Gerber PA, et al. Prevention and management of dermatological toxicities related to anticancer agents: ESMO Clinical Practice Guidelines［J］. Ann Oncol, 2021,32（2）:157⁃170. doi: 10.1016/j.annonc.2020.11.005.
［2］	Gutzmer R, Becker JC, Enk A, et al. Management of cutaneous side effects of EGFR inhibitors: recommendations from a German expert panel for the primary treating physician［J］. J Dtsch Dermatol Ges, 2011,9（3）:195⁃203. doi: 10.1111/j.1610⁃0387. 2010.07561.x.
［3］	Tseng LC, Chen KH, Wang CL, et al. Effects of tyrosine kinase inhibitor therapy on skin toxicity and skin⁃related quality of life in patients with lung cancer: an observational study［J］. Medicine（Baltimore）, 2020,99（23）:e20510. doi: 10.1097/MD. 000000 0000020510.
［4］	Peng Y, Li Q, Zhang J, et al. Update review of skin adverse events during treatment of lung cancer and colorectal carcinoma with epidermal growth receptor factor inhibitors［J］. Biosci Trends, 2019,12（6）:537⁃552. doi: 10.5582/bst.2018.01246.
［5］	Li J, Yan H. Skin toxicity with anti⁃EGFR monoclonal antibody in cancer patients: a meta⁃analysis of 65 randomized controlled trials［J］. Cancer Chemother Pharmacol, 2018,82（4）:571⁃583. doi: 10.1007/s00280⁃018⁃3644⁃2.
［6］	Gisondi P, Geat D, Mattiucci A, et al. Incidence of adverse cutaneous reactions to epidermal growth factor receptor inhibitors in patients with non⁃small⁃cell lung cancer［J］. Dermatology, 2021,237（6）:929⁃933. doi: 10.1159/000513233.
［7］	Cheng Y, Mok TS, Zhou X, et al. Safety and efficacy of first⁃line dacomitinib in Asian patients with EGFR mutation⁃positive non⁃small cell lung cancer: results from a randomized, open⁃label, phase 3 trial（ARCHER 1050）［J］. Lung Cancer, 2021,154:176⁃185. doi: 10.1016/j.lungcan.2021.02.025.
［8］	Zhou C, Wu YL, Chen G, et al. Erlotinib versus chemotherapy as first⁃line treatment for patients with advanced EGFR mutation⁃positive non⁃small⁃cell lung cancer（OPTIMAL, CTONG⁃0802）: a multicentre, open⁃label, randomised, phase 3 study［J］. Lancet Oncol, 2011,12（8）:735⁃742. doi: 10.1016/S1470⁃2045（11）70184⁃X.
［9］	Shi Y, Zhang S, Hu X, et al. Safety, clinical activity, and pharmacokinetics of alflutinib（AST2818） in patients with advanced NSCLC with EGFR T790M mutation［J］. J Thorac Oncol, 2020,15（6）:1015⁃1026. doi: 10.1016/j.jtho.2020.01.010.
［10］	Tan DS, Leighl NB, Riely GJ, et al. Safety and efficacy of nazartinib（EGF816） in adults with EGFR⁃mutant non⁃small⁃cell lung carcinoma: a multicentre, open⁃label, phase 1 study［J］. Lancet Respir Med, 2020,8（6）:561⁃572. doi: 10.1016/S2213⁃2600（19）30267⁃X.
［11］	Antonetti P, Fargnoli MC, Porzio G, et al. A multicenter study of skin toxicity management in patients with left⁃sided, RAS/BRAF wild⁃type metastatic colorectal cancer treated with first⁃line anti⁃EGFR⁃based doublet regimen: is there room for improvement?［J］. Support Care Cancer, 2022,30（3）:2455⁃2465. doi: 10.1007/s00520⁃021⁃06652⁃5.
［12］	Melosky B, Leighl NB, Rothenstein J, et al. Management of EGFR TKI⁃induced dermatologic adverse events［J］. Curr Oncol, 2015,22（2）:123⁃132. doi: 10.3747/co.22.2430.
［13］	张旭, 薛崇祥, 李嘉, 等. 表皮生长因子受体抑制剂相关皮疹动物模型的构建［J］. 南方医科大学学报, 2021,41（3）:352⁃357. doi: 10.12122/j.issn.1673⁃4254.2021.03.06.
［14］	Castañeda⁃Zárraga A, Rodríguez⁃Cid JR, Flores⁃Mariñelarena RR, et al. Human skin biomarkers relationship to response to treatment with tyrosine kinase inhibitors in advanced EGFR⁃mutated lung adenocarcinoma［J］. Thorac Cancer, 2020,11（11）:3243⁃3251. doi: 10.1111/1759⁃7714.13657.
［15］	Lacouture ME. Mechanisms of cutaneous toxicities to EGFR inhibitors［J］. Nat Rev Cancer, 2006,6（10）:803⁃812. doi: 10. 1038/nrc1970.
［16］	Joly⁃Tonetti N, Ondet T, Monshouwer M, et al. EGFR inhibitors switch keratinocytes from a proliferative to a differentiative phenotype affecting epidermal development and barrier function［J］. BMC Cancer, 2021,21（1）:5. doi: 10.1186/s12885⁃020⁃07685⁃5.
［17］	Sheen YS, Lin MH, Tzeng WC, et al. Purpuric drug eruptions induced by EGFR tyrosine kinase inhibitors are associated with IQGAP1⁃mediated increase in vascular permeability［J］. J Pathol, 2020,250（4）:452⁃463. doi: 10.1002/path.5393.
［18］	Kim JM, Ji JH, Kim YS, et al. rhEGF treatment improves EGFR inhibitor⁃induced skin barrier and immune defects［J］. Cancers（Basel）, 2020,12（11）:3120. doi: 10.3390/cancers12113120.
［19］	Nanba D, Toki F, Asakawa K, et al. EGFR⁃mediated epidermal stem cell motility drives skin regeneration through COL17A1 proteolysis［J］. J Cell Biol, 2021,220（11）:e202012073. doi: 10.1083/jcb.202012073.
［20］	Uchino T, Fujino H, Kamiya D, et al. Association of dry skin with intercellular lipid composition of stratum corneum after erlotinib administration［J］. Cancer Chemother Pharmacol, 2020,86（2）:233⁃243. doi: 10.1007/s00280⁃020⁃04095⁃z.
［21］	Oh JH, Hur W, Li N, et al. Effects of the epidermal growth factor receptor inhibitor, gefitinib, on lipid and hyaluronic acid synthesis in cultured HaCaT keratinocytes［J］. Exp Dermatol, 2022,31（6）:918⁃927. doi: 10.1111/exd.14538.
［22］	Wolf C, Qian Y, Brooke MA, et al. ADAM17/EGFR axis promotes transglutaminase⁃dependent skin barrier formation through phospholipase C γ1 and protein kinase C pathways［J］. Sci Rep, 2016,6:39780. doi: 10.1038/srep39780.
［23］	Fang H, Wang Y, Xu L, et al. EGFR inhibitor gefitinib regulates barrier function in human epidermal keratinocytes via the modulation of the expression of claudins［J］. Int J Mol Med, 2019,43（3）:1522⁃1530. doi: 10.3892/ijmm.2018.4046.
［24］	Lulli D, Carbone ML, Pastore S. Epidermal growth factor receptor inhibitors trigger a type I interferon response in human skin［J］. Oncotarget, 2016,7（30）:47777⁃47793. doi: 10.18632/oncotarget. 10013.
［25］	Villarreal⁃Ponce A, Tiruneh MW, Lee J, et al. Keratinocyte⁃macrophage crosstalk by the Nrf2/Ccl2/EGF signaling axis orchestrates tissue repair［J］. Cell Rep, 2020,33（8）:108417. doi: 10.1016/j.celrep.2020.108417.
［26］	Gangemi S, Franchina T, Minciullo PL, et al. IL⁃33/IL⁃31 axis: a new pathological mechanisms for EGFR tyrosine kinase inhibitors⁃associated skin toxicity［J］. J Cell Biochem, 2013,114（12）:2673⁃2676. doi: 10.1002/jcb.24614.
［27］	Tougeron D, Emambux S, Favot L, et al. Skin inflammatory response and efficacy of anti⁃epidermal growth factor receptor therapy in metastatic colorectal cancer（CUTACETUX）［J］. Oncoimmunology, 2020,9（1）:1848058. doi: 10.1080/2162402X. 2020.1848058.
［28］	Yamaki M, Sugiura K, Muro Y, et al. Epidermal growth factor receptor tyrosine kinase inhibitors induce CCL2 and CCL5 via reduction in IL⁃1R2 in keratinocytes［J］. Exp Dermatol, 2010,19（8）:730⁃735. doi: 10.1111/j.1600⁃0625.2010.01108.x.
［29］	Morita M, Iizuka⁃Ohashi M, Watanabe M, et al. Oxidative stress induces EGFR inhibition⁃related skin cell death［J］. J Clin Biochem Nutr, 2021,68（3）:235⁃242. doi: 10.3164/jcbn.20⁃112.
［30］	Chen L, You Q, Liu M, et al. Remodeling of dermal adipose tissue alleviates cutaneous toxicity induced by anti⁃EGFR therapy［J］. Elife, 2022,11:e72443. doi: 10.7554/eLife.72443.
［31］	Lichtenberger BM, Gerber PA, Holcmann M, et al. Epidermal EGFR controls cutaneous host defense and prevents inflammation［J］. Sci Transl Med, 2013,5（199）:199ra111. doi: 10.1126/scitranslmed.3005886.
［32］	Eames T, Grabein B, Kroth J, et al. Microbiological analysis of epidermal growth factor receptor inhibitor therapy⁃associated paronychia［J］. J Eur Acad Dermatol Venereol, 2010,24（8）:958⁃960. doi: 10.1111/j.1468⁃3083.2009.03516.x.
［33］	Lacouture ME, Anadkat MJ, Bensadoun RJ, et al. Clinical practice guidelines for the prevention and treatment of EGFR inhibitor⁃associated dermatologic toxicities［J］. Support Care Cancer, 2011,19（8）:1079⁃1095. doi: 10.1007/s00520⁃011⁃1197⁃6.
［34］	Xian D, Song J, Yang L, et al. Emerging roles of redox⁃mediated angiogenesis and oxidative stress in dermatoses［J］. Oxid Med Cell Longev, 2019,2019:2304018. doi: 10.1155/2019/2304018.
［35］	Fan X, He L, Dai Q, et al. Interleukin⁃1β augments the angiogenesis of endothelial progenitor cells in an NF⁃κB/CXCR7⁃dependent manner［J］. J Cell Mol Med, 2020,24（10）:5605⁃5614. doi: 10.1111/jcmm.15220.
［36］	Wong VW, Crawford JD. Vasculogenic cytokines in wound healing［J］. Biomed Res Int, 2013,2013:190486. doi: 10.1155/2013/190486.
［37］	Olamiju B, Bhullar S, Coleman EL, et al. Management of paronychia with pseudopyogenic granulomas secondary to epidermal growth factor receptor inhibitors: an assessment of topical timolol and the need for multiple medical and procedural therapies［J］. J Am Acad Dermatol, 2021,84（3）:806⁃808. doi: 10.1016/j.jaad.2020.06.010.
［38］	Chen AP, Setser A, Anadkat MJ, et al. Grading dermatologic adverse events of cancer treatments: the Common Terminology Criteria for Adverse Events Version 4.0［J］. J Am Acad Dermatol, 2012,67（5）:1025⁃1039. doi: 10.1016/j.jaad.2012. 02.010.
［39］	Lacouture ME, Maitland ML, Segaert S, et al. A proposed EGFR inhibitor dermatologic adverse event⁃specific grading scale from the MASCC skin toxicity study group［J］. Support Care Cancer, 2010,18（4）:509⁃522. doi: 10.1007/s00520⁃009⁃0744⁃x.
［40］	Ho PH, Lin IC, Yang X, et al. Using a novel scoring system for paronychia related to oncologic treatments（SPOT） for assessing paronychia severity and its correlation with pain index and quality of life［J］. J Eur Acad Dermatol Venereol, 2019,33（1）:204⁃212. doi: 10.1111/jdv.15121.
［41］	Capriotti KD, Anadkat M, Choi J, et al. A randomized phase 2 trial of the efficacy and safety of a novel topical povidone⁃iodine formulation for cancer therapy⁃associated paronychia［J］. Invest New Drugs, 2019,37（6）:1247⁃1256. doi: 10.1007/s10637⁃019⁃00825⁃0.
［42］	Joshi SS, Ortiz S, Witherspoon JN, et al. Effects of epidermal growth factor receptor inhibitor⁃induced dermatologic toxicities on quality of life［J］. Cancer, 2010,116（16）:3916⁃3923. doi: 10.1002/cncr.25090.
［43］	中国临床肿瘤学会结直肠癌专家委员会, 中国医师协会皮肤科医师分会, 中国医药教育协会. 抗EGFR单抗治疗相关皮肤不良反应临床处理专家共识［J］. 实用肿瘤杂志, 2021,36（3）:195⁃201. doi: 10.13267/j.cnki.syzlzz.2021.042.
［44］	中国抗癌协会肺癌专业委员会. EGFR⁃TKI不良反应管理专家共识［J］. 中国肺癌杂志, 2019,22（2）:57⁃81. doi: 10.3779/j.issn.1009⁃3419.2019.02.01.
［45］	Nakata K, Komori T, Saso K, et al. Pre⁃emptive oral clarithromycin reduces the skin toxicity of panitumumab treatment for metastatic colorectal cancer［J］. Int J Colorectal Dis, 2021,36（12）:2621⁃2627. doi: 10.1007/s00384⁃021⁃04002⁃9.
［46］	Raimondi A, Corallo S, Lonardi S, et al. Systemic doxycycline for pre⁃emptive treatment of anti⁃EGFR⁃related skin toxicity in patients with metastatic colorectal cancer receiving first⁃line panitumumab⁃based therapy: a post hoc analysis of the Valentino study［J］. Support Care Cancer, 2021,29（7）:3971⁃3980. doi: 10.1007/s00520⁃020⁃05972⁃2.
［47］	Lu CW, Wang TY, Yen CF, et al. Using betaxolol for the prevention of paronychia induced by epidermal growth factor receptor inhibitors: a case⁃control cohort study［J］. Int J Dermatol, 2021,60（2）:179⁃184. doi: 10.1111/ijd.15099.
［48］	Nishino K, Fujiwara Y, Ohe Y, et al. Results of the non⁃small cell lung cancer part of a phaseⅢ, open⁃label, randomized trial evaluating topical corticosteroid therapy for facial acneiform dermatitis induced by EGFR inhibitors: stepwise rank down from potent corticosteroid（FAEISS study, NCCH⁃1512）［J］. Support Care Cancer, 2021,29（5）:2327⁃2334. doi: 10.1007/s00520⁃020⁃05765⁃7.
［49］	Li CL, Hsia TC, Yang ST, et al. Efficacy of prophylactic traditional chinese medicine on skin toxicity of afatinib in EGFR mutation⁃positive advanced lung adenocarcinoma: a single⁃center, prospective, double⁃blinded, randomized⁃controlled pilot trial［J］. Integr Cancer Ther, 2022,21:15347354221086663. doi: 10.1177/15347354221086663.
［50］	郑舒月. 应用“止痒平肤液”治疗EGFRIs相关甲沟炎的临床和网络药理学研究［D］. 北京: 北京中医药大学, 2021.
［51］	Panariello L, Donnarumma M, Cinelli E, et al. Case series showing the efficacy of 5⁃aminolaevulinic acid photodynamic therapy for epidermal growth factor receptor inhibitor⁃induced paronychia and pyogenic granuloma⁃like lesions［J］. Br J Dermatol, 2019,180（3）:676⁃677. doi: 10.1111/bjd.17270.
［52］	Agematsu A, Kamata M, Namiki K, et al. Usefulness of noninvasive management with the gutter method for epidermal growth factor receptor inhibitor⁃induced paronychia, pyogenic granuloma⁃like lesion, and ingrown nail［J］. JAMA Dermatol, 2022,158（5）:583⁃585. doi: 10.1001/jamadermatol.2022.0725.
［53］	Yen CF, Hsu CK, Yang HS, et al. Treatment of epidermal growth factor receptor inhibitor⁃induced severe paronychia with pyogenic granuloma⁃like lesions with topical betaxolol: an open⁃label observation study［J］. Int J Dermatol, 2020,59（3）:326⁃332. doi: 10.1111/ijd.14730.
［54］	Jornsamer C, Theerawattanawit C, Wichayachakorn C, et al. Red light emitting diode as an adjuvant treatment for epidermal growth factor receptor inhibitors⁃induced paronychia［J］. J Dermatolog Treat, 2022,33（4）:1990⁃1994. doi: 10.1080/09546 634.2021.1927950.
［55］	Chen LY, You Q, Lv DZ, et al. GPCR⁃mediated EGFR transactivation ameliorates skin toxicities induced by afatinib［J］. Acta Pharmacol Sin, 2022,43（6）:1534⁃1543. doi: 10.1038/s41401⁃021⁃00774⁃6.
［56］	Lacouture ME, Wainberg ZA, Patel AB, et al. Reducing skin toxicities from EGFR inhibitors with topical BRAF inhibitor therapy［J］. Cancer Discov, 2021,11（9）:2158⁃2167. doi: 10. 1158/2159⁃8290.CD⁃20⁃1847.

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表皮生长因子受体抑制剂相关甲沟炎的研究进展

Epidermal growth factor receptor inhibitor-related paronychia

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