环球超重和肥胖的临界点没有统一的标准,瘦型NAFLD也没有统一的定义。在确定的BMI下,亚洲人群体内的脂肪所占的比例较欧洲人群更大,因此划分超重和肥胖的BMI阈值,亚洲低于欧洲,对付亚洲人,瘦型NAFLD和非肥胖NAFLD分别指BMI<23 kg/m2和BMI<25 kg/m2的NAFLD人群。对付欧洲人,瘦型NAFLD和非肥胖NAFLD分别指BMI<25 kg/m2和BMI<30 kg/m2的NAFLD人群[8]。
有学者提出了“多重打击学说”的假说,可以阐明瘦型NAFLD的发病机制,只管目前的科学共识接管了“多重打击学说”的理念,但对详细的发病机制不清楚[9]。关于瘦型NAFLD的研究有很多,但对付发病机制、代谢特点以及与肥胖型脂肪肝的差异等方面,还没有达成统一的意见,须要更大规模的研究来进一步研究。截至2019年10月30日,通过PubMed官网输入检索词:“(“non-alcoholic fatty liver disease”[Mesh]) AND (non-obese OR lean)”,共搜索到295条结果,通过综合所有干系研究,本文对瘦型NAFLD在盛行病学、发病机制、治疗和预后等方面的最新研究进展进行了阐述,总体来说,仍有很多的不愿定性的结论,须要更多的研究进行磋商。
盛行病学研究
肥胖是NAFLD的主要危险成分,2016年一项涉及22个国家850多万人的Meta剖析显示,超过80%的NASH患者超重或肥胖[3]。然而,NAFLD也可以发生在瘦型的受试者身上。最近的一项Meta剖析创造,瘦型和非肥胖NAFLD的总患病率分别为10.2%和15.7%,解释瘦型/非肥胖NAFLD并不罕见[10]。亚洲非肥胖NAFLD患病率从15%到21%不等[11]。在印度屯子的研究[12]中创造,52%的NAFLD患者是瘦人(BMI<23 kg/m2)。对体检中央1799名中国受试者的研究[13]创造瘦型NAFLD在瘦人中占比为18.33%,NAFLD在肥胖和超重群体中占比为72.90%(表1)。
不同的种群发生NAFLD的机会也不相同,一项研究[18]显示,与年事、性别、BMI相匹配的白种人、西班牙裔、黑人和东亚人比较,不酗酒、无糖尿病、不吸烟的亚裔印度瘦人的胰岛素抵抗增加了2~3倍,肝脏脂肪变性增加了2倍。
由于大多数NAFLD是无症状的,而且在超声检讨下的敏感度较低,会涌现漏诊的情形,因此导致数据并不准确。因此,所研究的人群以及检讨方法对瘦型NAFLD的盛行病学研究有很大的影响。
发病机制
1.代谢非常
在临床试验根本上进行的盛行病学研究[19]提示,NAFLD在代谢综合征人群中的发病率最高,代谢综合征包括:肥胖、胰岛素抵抗、高血压、高脂血症、高甘油三酯血症以及低高密度脂蛋白血症。在日本的研究[20]创造,762例NAFLD患者中,25%的男性和40%的女性都是BMI<25 kg/m2的,但是他们之中大多是都有内脏肥胖和(或)胰岛素抵抗。瘦型和非肥胖NAFLD患者都有发生高脂血症、高血压、糖尿病等代谢非常状态的风险。在中国的研究创造瘦型NAFLD患者(n=134)的BMI[(22.7±1.7)kg/m2]、腰围[(82.4±6.3) cm]、高血脂(49%)、高血压(35%)、代谢综合征发生率(15%)均显著高于瘦型康健组[n=597,(21.4±1.7)kg/m2、(75.5±7.1)cm、34%、12%、3.06%]。除此之外,瘦型NAFLD与糖尿病[比值比(OR)=2.47,95%CI:1.14~5.35]、高血压(OR=1.72,95%CI:1.00~2.96)和代谢综合征(OR=3.19,95%CI:1.17~4.05)的干系性乃至比肥胖和超重 NAFLD(OR=1.34,95%CI:0.80~2.27;OR=1.33,95%CI:0.92~1.93;OR=1.89,95%CI:1.29~2.77)更显著[13],可见代谢成分在瘦型NAFLD发病机制中,同样不可忽略。
虽然都是NAFLD,但是瘦型NAFLD组与肥胖 NAFLD组比较,患者的代谢非常程度更轻。Sookoian等[21]的Meta剖析创造,肥胖 NAFLD患者的空腹血糖水平、胰岛素抵抗指数、血压以及甘油三酯都比瘦型NAFLD更高,而且BMI增加(5.93±0.40)km/m2,腰围增加(11.58±0.83)cm。在中国东北部的人群中,比较肥胖 NAFLD组(n=259),在瘦型NAFLD组(n=43)中甘油三酯(62.44% vs 40.15%,P=0.000 8)和血糖水平(84.19% vs 69.11%,P=0.043 9)在正惯例模的患者更多见[22](表2)。
有研究[25]证明,因营养不良也可导致瘦型NAFLD,而且也有其分外的代谢非常,营养不良动物模型表明,严重营养不良可能导致肝线粒体功能受损和过氧化物酶体丢失。研究创造,在严重营养不良的厌食症患者中常见因肝酶升高提示的NAFLD,特殊是在BMI非常低的患者(BMI<12 kg/m2)。
2.血尿酸非常
尿酸是嘌呤代谢的产物,它的产生受到肝脏的调节,而其渗出受肾脏的掌握,代谢紊乱可能是空腹尿酸水平与发生NAFLD风险之间的一个联系,空腹尿酸水平增加导致内皮功能障碍、氧化应激、胰岛素抵抗和炎症[26]。一项来源于重庆医科大学第一附属医院公共卫生中央接管常规康健检讨的受试者研究[27]中,高血压、中央性肥胖、高血脂、高ALT是NAFLD的危险成分,在对这些危险成分进行校正后,高尿酸血症仍旧是NAFLD独立危险成分,高尿酸血症的瘦型受试者发生NAFLD的OR值为1.718(95%CI:1.622~1.820)。在对11项研究的Meta剖析中,创造血尿酸与瘦型NAFLD之间存在显著的干系性(OR=1.73,95%CI:1.36~2.20),并且血尿酸水平最高组与血尿酸水平最低组比较,NAFLD的风险增加了近2倍[28]。
3.铁代谢非常
有研究[29]证明全身铁代谢稳态紧张通过铁调节蛋白(Hepcidin)掌握十二指肠上皮细胞和巨噬细胞的铁开释来实现。Hepcidin是由肝细胞产生,通过减少肠道铁的接管来调节全身铁代谢平衡,通过剖析基因敲除啮齿动物模型,创造 Hepcidin由HAMP基因表达。
Akyuz等[30]于2014年对土耳其患者群体的研究证明,与超重的NAFLD患者比较,瘦型NAFLD患者的血红蛋白水平更高[(13.2±1.2)g/dl vs (15.3±1.5)g/dl,P<0.001],当血红蛋白每增加5 g/dl,其对应的OR值为2.1(95%CI:1.3~5.9,P<0.05)。目前因肝损伤而导致铁代谢活动非常的调节也是研究重点。关于铁代谢非常在瘦型NAFLD患者中的详细发生机制须要进一步研究。
4.胰岛素抵抗
胰岛素抵抗是NAFLD的一个紧张特色,与纯挚脂肪变性比较,NASH涌现胰岛素抵抗的征象更普遍,胰岛素抵抗是导致NAFLD发展和NASH进展的“多重打击”成分之一,对脂毒性、氧化应激和炎症级联激活起着关键浸染[31]。此外,胰岛素具有高效抑制脂肪分解的浸染,发生胰岛素抵抗时,这种抑制浸染受损[32]。通过质子磁共振波谱剖析瘦人的骨骼肌细胞内脂质,结果表明打消肥胖导致的影响,肌肉和肝脏中的异位脂肪堆积可能导致组织胰岛素抵抗[33],提示NAFLD也可导致胰岛素抵抗,两者互为因果。
Gonzalez-Cantero 等[34]证明HOMA-IR与肝脏的甘油三酯水平明显干系,与肥胖无NAFLD者比较,瘦型NAFLD组的空腹血糖水平及HOMA-IR值更高,这表明高腰围或高BMI可能不是导致胰岛素抵抗发生的成分。
瘦型NAFLD患者纵然没有代谢功能非常,也常表现胰岛素抵抗[24],但是其胰岛素抵抗程度相对肥胖型患者要更轻。在喷鼻香港的研究[35]创造,BMI<25 kg/m2(n=135)的NAFLD患者HOMA-IR值更低(2.0 vs 2.9,P<0.001)。Bugianesi等[36]创造在NAFLD患者中,由于葡萄糖氧化和合成糖原能力降落,外周(脂肪组织和骨骼肌)葡萄糖处理能力显著降落,提示在瘦型NAFLD中,外周胰岛素抵抗可能比肝脏胰岛素抵抗更主要,用HOMA-IR来估计胰岛素抵抗,这是一种间接的方法,它仅反响肝脏胰岛素敏感性。因此为得到更可靠的结果,须要反应外周胰岛素抵抗的水平。
5.骨骼肌萎缩
骨骼肌在胰岛素介导的葡萄糖代谢过程中起到了主要的浸染。骨骼肌的减少可能导致胰岛素抵抗和NAFLD[5]。NAFLD和骨骼肌萎缩有一些相同的病理生理过程,如糖尿病和代谢综合征[5]。对2008年-2011年在韩国随机抽取组成的15 132名受试者的研究[37]创造,在不伴有代谢综合征的人群中,骨骼肌萎缩受试者的NAFLD比例比非骨骼肌萎缩受试者高2.3~3.3倍(15%~31% vs 7%~10%,P<0.001),而且与无骨骼肌萎缩受试者比较,骨骼肌萎缩症受试者的肝脏BARD和FIB-4的评分均显著增加(BARD:1.87 vs 1.35,P<0.001;FIB-4:0.99 vs 0.85,P<0.001)。
在韩国首尔对康健体检受试者10年的随访研究[38]创造,瘦型NAFLD患者的四肢骨骼肌质量降落与NAFLD的发生显著干系,而肥胖者的四肢骨骼肌质量降落与NAFLD的发生关联性不是很显著。
6.肠道菌群改变
肠道菌群在机体能量储存过程中有一定的调节浸染,也是发生NAFLD的主要成分,它们有助于食品消化、合成维生素、调节免疫[39]。研究显示[10]微生物群与超重、炎症和胰岛素抵抗之间存在联系。
在Duarte等[40]研究中创造,与康健的瘦人比较,瘦型NASH患者的粪杆菌属(Faecalibacterium)和瘤胃球菌属(Ruminococcus) (Faecalibacterium,logFC =-3.625,P=0.004;Ruminococcus,logFC =-3.782,P=0.004)的丰度降落了3倍。与肥胖和超重NASH患者比较,瘦型NASH患者的Ruminococcus的丰度更低(瘦型NASH vs 肥胖 NASH:logFC=-3.340,P=0.034;瘦型NASH vs 超重 NASH:logFC=-3.643,P=0.015)。
纵然是体质量的眇小变革也会增加脂肪肝发生风险[10]。在韩国的一项研究[41]中,BMI在正惯例模内(18.5~22.9 kg/m2)的个体体质量增加2.3 kg与肝脏脂肪变性的发生有关。肠道菌群可能通过调度人的代谢路子使其更随意马虎增重,进而增加NAFLD的患病风险。
合生元是益生菌和益生元的结合,在最初对超重和肥胖的NAFLD患者的研究[42]中创造,联合益生元的补充和生活办法的改变比单独的生活办法改变更有效,随后在对低BMI与正常BMI NAFLD的患者治疗效果研究中创造,两组的肝脂肪变性和肝纤维化均降落,合生元组的均匀降落幅度明显大于安慰剂组(P<0.001)。通过对肠道菌群的调节提示肠道菌群在NAFLD中起着重要浸染。
7.生活办法
肝脏脂肪沉积是NAFLD的一个主要的特点,脂肪沉积常与能量过多摄入有关。不论是肥胖 NAFLD 还是非肥胖NAFLD ,生活办法都是非常主要的影响成分。碳水化合物、脂肪酸、维生素都是与NAFLD干系的主要成分。有研究[43]表明,与肥胖 NAFLD患者比较,非肥胖NAFLD患者胆固醇摄入更多,但是不饱和脂肪酸的摄入更少。喂食高脂肪、高胆固醇、胆酸盐饮食3周的小鼠,在体质量或脂肪垫重量不变的情形下,涌现NAFL和NASH的病理改变[44]。其余,摄入过量饮料和肉类,也被认为是校正BMI后引起瘦型NAFLD的危险成分[24]。
8.遗传成分
印度的研究[45]创造,非肥胖NAFLD患者在载脂蛋白C3(APOC3)基因中携带两种有功能的单核苷酸多态性(SNP)即C-482T和T-455C,这种变异在野生型纯合子中不存在,NAFLD在两种变异SNP携带者中的患病率为38%。这种变异等位基因携带者的血浆APOC3增加30%,血浆甘油三酯增加60%,胰岛素抵抗更明显。
全基因组干系研究[46]在脂肪营养素/patatin样磷脂酶3(PNPLA3)rs738409 C→G中创造一个SNP,编码148m变异蛋白,是肝脏脂肪含量和ALT水平的最强遗传决定成分。PNPLA3危险等位基因在西班牙人群中最常见,其次是亚洲人,并且更多见于瘦型NAFLD人群中[37]。这种SNP共有三种基因型,与CC基因型比较,PNPLA3中rs738409的CG和GG基因型受试者的肝甘油三酯水平也增加[47]。携带APOC3和PNPLA3变异的受试者比单独携带APOC3变异的受试者有更高的脂肪肝患病率[11]。喷鼻香港的研究[48]创造,PNPLA3三种基因型在646例没有代谢综合征的患者中仍旧表现为一个独立的NAFLD预测成分(CG vs CC,OR=2.22, 95%CI:1.36~3.63,P=0.002;GG vs CC,OR=3.39,95%CI:1.78~6.43,P<0.001)。有研究[35]创造,瘦型NAFLD患者的PNPLA3 rs738409基因多态性比例比肥胖 NAFLD患者高(78.4% vs 59.8%),PNPLA3多态性是瘦型NAFLD的独立危险成分。
病理特点及预后
瘦型NAFLD与肥胖和超重NAFLD患者同样有着范例的病理改变,但是瘦型NAFLD患者的病理改变程度较肥胖 NAFLD轻,预后更好。Tobari 等[20]的研究创造,在组织学检讨中,高BMI组的脂肪变性(瘦:35.3%,肥胖:58.4%,重度肥胖:69.9%;P<0.01)和晚期纤维化(瘦:31.0%,肥胖:41.6%,重度肥胖:60.9%;P<0.01)的发生率显著升高。Sookoian等[49]的Meta剖析创造,肥胖 NAFLD患者(n=2209)的纤维化评分明显高于瘦型NAFLD患者(n=493,P=0.032),肥胖和超重NAFLD患者纤维化评分增加了约24.82%。与肥胖和超重NAFLD患者(n=1357)比较,瘦型NAFLD患者(n=322)患NASH的风险(OR=0.58,95%CI:0.34~0.97)显著降落(P=0.04),脂肪变性评分显著降落(差值为0.23±0.07,P=0.002 3),并且他们创造瘦型NAFLD患者的代谢和心血管状况改变相对肥胖 NAFLD较轻。在中国东北的研究[22]创造肥胖 NAFLD患者ALT升高较瘦型NAFLD患者(79.21% vs 20.79%)更为常见(P=0.045 6),合并ALT升高的NAFLD患者是发生NASH的高危人群,NASH患者的预后较NAFLD更差。
目前研究创造患有脂肪性肝炎和晚期纤维化的患者,发生终末期肝病或肝干系去世亡的风险要大得多,仅患有脂肪变性的患者更可能涌现心血管或非肝癌干系疾病,但不会增加与肝脏干系的病去世率[50]。
治疗
目前普遍认为,针对病因治疗可能是有效的,包括采取康健的生活办法,必要时开始对高血压、血脂非常和高血糖进行药物治疗[51]。在孟加拉进行的前瞻性研究中[52],共有31例NASH患者(瘦型NASH 15例,非瘦型NASH 16例)被纳入终极剖析,瘦型和肥胖型患者1年后的体质量减轻,不论减轻多少,都与显著改进脂肪变性、气球样变和NAS评分显著干系。在独身只身分剖析中,减重对组织学改进有显著影响 (OR=25.5,95%CI:3.58~181.61,P=0.001)。
一项对患有晚期NASH瘦豚鼠的研究[53]创造,在运用利拉鲁肽后,改进了NASH和范例病理学特色,纵然在严重纤维化和持续摄入高脂和胆固醇的情形下也具有改进浸染。如果不雅观察到的效应转化到人体,胰高血糖素样肽-1类似物可作为瘦型NASH的潜在治疗选择。
总结
瘦型NAFLD的发病机制仍不明确,须要更多的研究深入谈论,可以明确的是其发病机制并非某个单一发病机制通路导致的,而是涉及机体代谢改变、遗传成分和肠道菌群等多种路子的共同浸染。瘦型NAFLD患者在调节铁、血糖、血脂、尿酸代谢方面也存在非常,但程度相对肥胖 NAFLD更轻,而且其肠道内微生物有特异改变,SNP的改变比较肥胖型NAFLD更加突出,此外,骨骼肌萎缩也是瘦型NAFLD 特异的危险成分。在治疗方面,减重和调度饮食构造是被证明有效的改进预后的治疗方法,但是药物治疗方面还未涌现能够特异治疗瘦型NAFLD药物,须要进一步研究开拓。
参考文献:
[1]ANDRONESCU CI,PURCAREA MR,BABES PA. Nonalcoholic fatty liver disease:Epidemiology, pathogenesis and therapeutic implications[J]. J Med Life, 2018, 11(1): 20-23.
[2]CHALASANI N, YOUNOSSI Z, LAVINE JE, et al. The diagnosis and management of non-alcoholic fatty liver disease: Practice guideline by the American Gastroenterological Association, American Association for the Study of Liver Diseases, and American College of Gastroenterology[J]. Gastroenterology, 2012, 55(6): 2005-2023.
[3]YOUNOSSI ZM, KOENIG AB, ABDELATIF D, et al. Global epidemiology of nonalcoholic fatty liver disease—meta-analytic assessment of prevalence, incidence, and outcomes[J]. Hepatology, 2016, 64(1): 73-84.
[4]PERUMPAIL BJ, ALI KM, YOO ER, et al. Clinical epidemiology and disease burden of nonalcoholic fatty liver disease[J]. World J Gastroenterol, 2017, 23(47): 8263-8276.
[5]CHING-YEUNG YB, KWOK D, WONG VW. Magnitude of nonalcoholic fatty liver disease: Eastern perspective[J]. J Clin Exp Hepatol, 2019, 9(4): 491-496.
[6]HUANG JF, TSAI PC, YEH ML, et al. Risk stratification of non-alcoholic fatty liver disease across body mass index in a community basis[J]. J Formos Med Assoc, 2020, 119(1 Pt 1): 89-96.
[7]ESTES C, ANSTEE QUENTIN M, ARIAS-LOSTE MT, et al. Modeling NAFLD disease burden in China, France, Germany, Italy, Japan, Spain, United Kingdom, and United States for the period 2016-2030[J]. J Hepatol, 2018, 69(4): 896-904.
[8]KUMAR R, MOHAN S. Non-alcoholic fatty liver disease in lean subjects: Characteristics and implications[J]. J Clin Transl Hepatol, 2017, 5(3): 216-223.
[9]BORRELLI A, BONELLI P, TUCCILLO FM, et al. Role of gut microbiota and oxidative stress in the progression of non-alcoholic fatty liver disease to hepatocarcinoma: Current and innovative therapeutic approaches[J]. Redox Biology, 2018, 15: 467-479.
[10]SHI YW, WANG QY, SUN YM, et al. The prevalence of lean/nonobese nonalcoholic fatty liver disease: A systematic review and meta-analysis[J]. J Clin Gastroenterol, 2019. [Online ahead of print]
[11]LIU CJ. Prevalence and risk factors for non-alcoholic fatty liver disease in Asian people who are not obese[J]. J Gastroenterol Hepatol, 2012, 27(10): 1555-1560.
[12]DAS K, DAS K, MUKHERJEE PS, et al. Nonobese population in a developing country has a high prevalence of nonalcoholic fatty liver and significant disease[J]. Hepatology, 2010, 51(5): 1593-602.
[13]FENG RN, DU SS, WANG C, et al. Lean-non-alcoholic fatty liver disease increases risk for metabolic disorders in a normal weight Chinese population[J]. World J Gastroenterol, 2014, 20(47): 17932-17940.
[14]LEE SW, LEE TY, YANG SS, et al. Risk factors and metabolic abnormality of patients with non-alcoholic fatty liver disease: Either non-obese or obese Chinese population[J]. Hepatobiliary Pancreat Dis Int, 2018, 17(1): 45-48.
[15]NADERIAN M, KOLAHDOOZAN S, SHARIFI AS, et al. Assessment of lean patients with nonalcoholic fatty liver disease in a middle income country; prevalence and its association with metabolic disorders: A cross-sectional study[J]. Arch Iran Med, 2017, 20(4): 211-217.
[16]HAGSTRM H, NASR P, EKSTEDT M, et al. Risk for development of severe liver disease in lean patients with nonalcoholic fatty liver disease: A long-term follow-up study[J]. Hepatol Commun, 2017, 2(1): 48-57.
[17]GONZALEZ-CANTERO J, MARTIN-RODRIGUEZ JL, GONZALEZ-CANTERO A, et al. Insulin resistance in lean and overweight non-diabetic Caucasian adults: Study of its relationship with liver triglyceride content, waist circumference and BMI[J]. PLoS One, 2018, 13(2): e0192663.
[18]SUCCURRO E, MARINI MA, FRONTONI S, et al. Insulin secretion in metabolically obese, but normal weight, and in metabolically healthy but obese individuals[J]. Obesity (Silver Spring), 2008, 16(8): 1881-1886.
[19]TU LN, SHOWALTER MR, CAJKA T, et al. Metabolomic characteristics of cholesterol-induced non-obese nonalcoholic fatty liver disease in mice[J]. Sci Rep, 2017, 7(1): 6120.
[20]TOBARI M, HASHIMOTO E, TANIAI M, et al. Characteristics of non-alcoholic steatohepatitis among lean patients in Japan: Not uncommon and not always benign[J]. J Gastroenterol Hepatol, 2019, 34(8): 1404-1410.
[21]SOOKOIAN S, PIROLA CJ. Systematic review with meta-analysis: Risk factors for non-alcoholic fatty liver disease suggest a shared altered metabolic and cardiovascular profile between lean and obese patients[J]. Aliment Pharmacol Ther, 2017, 46(2): 85-95.
[22]LI H, CHEN Y, TIAN X, et al. Comparison of clinical characteristics between lean and obese nonalcoholic fatty liver disease in the northeast Chinese population[J]. Arch Med Sci Atheroscler Dis, 2019, 4: e191-e195.
[23]KUMAR R, RASTOGI A, SHARMA MK, et al. Clinicopathological characteristics and metabolic profiles of non-alcoholic fatty liver disease in Indian patients with normal body mass index: Do they differ from obese or overweight non-alcoholic fatty liver disease?[J]. Indian J Endocrinol Metab, 2013, 17(4): 665-671.
[24]MARGARITI E, DEUTSCH M, MANOLAKOPOULOS S, et al. Non-alcoholic fatty liver disease may develop in individuals with normal body mass index[J]. Ann Gastroenterol, 2012, 25(1): 45-51.
[25]NERVOSA ROSEN E, BAKSHI N, WATTERS A, et al. Hepatic complications of anorexia nervosa[J]. Dig Dis Sci, 2017, 62(11): 2977-2981.
[26]ZHOU Y, WEI F, FAN Y. High serum uric acid and risk of nonalcoholic fatty liver disease: A systematic review and meta-analysis[J]. Clin Biochem, 2016, 49(7-8): 636-642.
[27]ZHENG X, GONG L, LUO R, et al. Serum uric acid and non-alcoholic fatty liver disease in non-obesity Chinese adults[J]. Lipids Health Dis, 2017, 16(1): 202.
[28]DARMAWAN G, HAMIJOYO L, HASAN I. Association between serum uric acid and non-alcoholic fatty liver disease: A Meta-analysis[J]. Acta Med Indones, 2017, 49(2): 136-147.
[29]ANDERSON GJ, VULPE CD. Mammalian iron transport[J]. Cell Mol Life Sci, 2009, 66(20): 3241-3261.
[30]AKYUZ U, YESIL A, YILMAZ Y. Characterization of lean patients with nonalcoholic fatty liver disease: Potential role of high hemoglobin levels[J]. Scand J Gastroenterol, 2015, 50(3): 341-346.
[31]PEVERILL W, POWELL LW, SKOIEN R. Evolving concepts in the pathogenesis of NASH: Beyond steatosis and inflammation[J]. Int J Mol Sci, 2014, 15(5): 8591-8638.
[32]BUZZETTI E, PINZANI M, TSOCHATZIS EA. The multiple-hit pathogenesis of non-alcoholic fatty liver disease (NAFLD)[J]. Metabolism, 2016, 65(8): 1038-1048.
[33]VIRKAMAKI A, KORSHENINNIKOVA E, SEPPALA-LINDROOS A, et al. Intramyocellular lipid is associated with resistance to in vivo insulin actions on glucose uptake, antilipolysis, and early insulin signaling pathways in human skeletal muscle[J]. Diabetes, 2001, 50(10): 2337-2343.
[34]GONZALEZ-CANTERO J, MARTIN-RODRIGUEZ JL, GONZALEZ-CANTERO A, et al. Insulin resistance in lean and overweight non-diabetic Caucasian adults: Study of its relationship with liver triglyceride content, waist circumference and BMI[J]. PLoS One, 2018, 13(2): e0192663.
[35]WEI JL, LEUNG JC, LOONG TC, et al. Prevalence and severity of nonalcoholic fatty liver disease in non-obese patients: A population study using proton-magnetic resonance spectroscopy[J]. Am J Gastroenterol, 2015, 110(9): 1306-1315.
[36]BUGIANESI E, GASTALDELLI A, VANNI E, et al. Insulin resistance in non-diabetic patients with non-alcoholic fatty liver disease: Sites and mechanisms[J]. Diabetologia, 2005, 48(4): 634-642.
[37]LEE YH, JUNG KS, KIM SU, et al. Sarcopaenia is associated with NAFLD independently of obesity and insulin resistance: Nationwide surveys(KNHANES 2008-2011)[J]. J Hepatol, 2015, 63(2): 486-493.
[38]LEE MJ, KIM EH, BAE SJ, et al. Age-related decrease in skeletal muscle mass is an independent risk factor for incident nonalcoholic fatty liver disease: A 10-year retrospective cohort study[J]. Gut Liver, 2019, 13(1): 67-76.
[39]BULL MJ, PLUMMER NT. Part 1: The human gut microbiome in health and disease[J]. Integr Med (Encinitas), 2014, 13(6): 17-22.
[40]DUARTE SMB, STEFANO JT, MIELE L. Gut microbiome composition in lean patients with NASH is associated with liver damage independent of caloric intake: A prospective pilot study[J]. Nutr Metab Cardiovasc Dis, 2018, 28(4): 369-387.
[41]ZHOU YJ, LI YY, NIE YQ, et al. Prevalence of fatty liver disease and its risk factors in the population of South China[J]. World J Gastroenterol, 2007, 13(47): 6419-6424.
[42]MOFIDI F, POUSTCHI H, YARI Z, et al. Synbiotic supplementation in lean patients with non-alcoholic fatty liver disease: A pilot, randomised, double-blind, placebo-controlled, clinical trial[J]. Br J Nutr, 2017, 117(5): 662-668.
[43]KWAK JH, JUN DW, LEE SM, et al. Lifestyle predictors of obese and non-obese patients with nonalcoholic fatty liver disease: A cross-sectional study[J]. Clin Nutr, 2018, 37(5): 1550-1557.
[44]TU LN, SHOWALTER MR, CAJKA T, et al. Metabolomic characteristics of cholesterol-induced non-obese nonalcoholic fatty liver disease in mice[J]. Sci Rep, 2017, 7(1): 6120.
[45]PETERSEN KF, DUFOUR S, HARIRI A, et al. Apolipoprotein C3 gene variants in nonalcoholic fatty liver disease[J]. N Engl J Med, 2010, 362(12): 1082-1089.
[46]YUAN X, WATERWORTH D, PERRY JR, et al. Population-based genome-wide association studies reveal six loci influencing plasma levels of liver enzymes[J]. Am J Hum Genet, 2008, 83(4): 520-528.
[47]ROMEO S, KOZLITINA J, XING C, et al. Genetic variation in PNPLA3 confers susceptibility to nonalcoholic fatty liver disease[J]. Nat Genet, 2008, 40(12): 1461-1465.
[48]SHEN J, WONG GL, CHAN HL, et al. PNPLA3 gene polymorphism accounts for fatty liver in community subjects without metabolic syndrome[J]. Aliment Pharmacol Ther, 2014, 38(5): 532-539.
[49]SOOKOIAN S, PIROLA CJ. Systematic review with meta-analysis: The significance of histological disease severity in lean patients with nonalcoholic fatty liver disease[J]. Aliment Pharmacol Ther, 2018, 47(1): 16-25.
[50]MATTEONI CA, YOUNOSSI ZM, GRAMLICH T, et al. Nonalcoholic fatty liver disease: A spectrum of clinical and pathological severity[J]. Gastroenterology, 1999, 116(6): 1413-1419.
[51]YOUNES R, BUGIANESI E. NASH in lean individuals[J]. Semin Liver Dis, 2019, 39(1): 86-95.
[52]ALAM S, JAHID HASAN M, KHAN MAS, et al. Effect of weight reduction on histological activity and fibrosis of lean nonalcoholic steatohepatitis patient[J]. J Transl Int Med, 2019, 7(3): 106-114.
[53]IPSEN DH, ROLIN B, RAKIPOVSKI G, et al. Liraglutide decreases hepatic inflammation and injury in advanced lean non-alcoholic steatohepatitis[J]. Basic Clin Pharmacol Toxicol, 2018, 123(6): 704-713.
引证本文:阿儒汗, 贾海燕, 丁艳华, 等. 瘦型非酒精性脂肪性肝病的研究进展[J]. 临床肝胆病杂志, 2020, 36(5): 1154-1159.
本文编辑:王莹
"大众号编辑:邢翔宇