[1] Chen AY, Myers JN. Cancer of the oral cavity [J]. Disease-a-month, 2001, 47(7):275-361
[2] 何保昌,高小叶,陈法,等.口腔癌发病影响因素病例对照研究[J].中国公共卫生,2014,30(2):248-50
[3] Allavena P, Garlanda C, Borrello MG, et al. Pathways connecting inflammation and cancer [J]. Current opinion in genetics & development,2008,18(1):3-10
[4] 葛阳,程磊, 周学东.口腔微生物与肿瘤关系的研究进展[J].华西口腔医学杂志,2014,32(5):527-31
[5] Aas JA, Paster BJ, Stokes LN, et al. Defining the normal bacterial flora of the oral cavity [J]. Journal of clinical microbiology,2005,43(11):5721-32
[6] Krogh P, Hald B, Holmstrup P. Possible mycological etiology of oral mucosal cancer: catalytic potential of infecting Candida albicans and other yeasts in production of N-nitrosobenzylmethylamine [J]. Carcinogenesis,1987,8(10):1543-8
[7] Nagy KN, Sonkodi I, Szoke I, et al. The microflora associated with human oral carcinomas [J]. Oral oncology,1998,34(4):304-8
[8] Schmidt BL, Kuczynski J, Bhattacharya A, et al. Changes in Abundance of Oral Microbiota Associated with Oral Cancer [J]. PloS one,2014,9(6)
[9] Bebek G, Bennett KL, Funchain P, et al. Microbiomic subprofiles and MDR1 promoter methylation in head and neck squamous cell carcinoma [J]. Human molecular genetics,2012,21(7):1557-65
[10] Nobbs AH, Jenkinson HF, Jakubovics NS. Stick to your gums: mechanisms of oral microbial adherence [J]. Journal of dental research,2011,90(11):1271-8
[11] Zhang G, Rudney JD. Streptococcus cristatus attenuates Fusobacterium nucleatum-induced cytokine expression by influencing pathways converging on nuclear factor-kappaB [J]. Molecular oral microbiology,2011,26(2):150-63
[12] Hooper SJ, Crean SJ, Fardy MJ, et al. A molecular analysis of the bacteria present within oral squamous cell carcinoma [J]. Journal of medical microbiology,2007,56(Pt 12):1651-9
[13] Pushalkar S, Ji X, Li Y, et al. Comparison of oral microbiota in tumor and non-tumor tissues of patients with oral squamous cell carcinoma [J]. BMC microbiology,2012,12:144
[14] Curtis P, Nakatsu CH, Konopka A. Aciduric Proteobacteria isolated from pH 2.9 soil [J]. Archives of microbiology,2002,178(1):65-70
[15] Marchant S, Brailsford SR, Twomey AC, et al. The predominant microflora of nursing caries lesions [J]. Caries research,2001,35(6):397-406
[16] Ellmerich S, Scholler M, Duranton B, et al. Promotion of intestinal carcinogenesis by Streptococcus bovis [J]. Carcinogenesis, 2000, 21(4):753-6
[17] Sasaki H, Igaki H, Ishizuka T, et al. Presence of Streptococcus DNA sequence in surgical specimens of gastric cancer [J]. Japanese journal of cancer research,1995,86(9):791-4
[18] Morita E, Narikiyo M, Yano A, et al. Different frequencies of Streptococcus anginosus infection in oral cancer and esophageal cancer [J]. Cancer science,2003,94(6):492-6
[19] Sasaki M, Yamaura C, Ohara-Nemoto Y, et al. Streptococcus anginosus infection in oral cancer and its infection route [J]. Oral diseases,2005,11(3):151-6
[20] Yang L, Ganly I, Morris L, et al. Relevance of microbiome to cigarette smoking and oral cancer [J]. Journal of dental research,2011,90:120
[21] Pushalkar S, Mane SP, Ji X, et al. Microbial diversity in saliva of oral squamous cell carcinoma [J]. FEMS immunology and medical microbiology,2011,61(3):269-77
[22] Mager DL, Haffajee AD, Devlin PM, et al. The salivary microbiota as a diagnostic indicator of oral cancer: a descriptive, non-randomized study of cancer-free and oral squamous cell carcinoma subjects [J]. Journal of translational medicine,2005,3:27
[23] Castellarin M, Warren RL, Freeman JD, et al. Fusobacterium nucleatum infection is prevalent in human colorectal carcinoma [J]. Genome research,2012,22(2):299-306
[24] Kostic AD, Gevers D, Pedamallu CS, et al. Genomic analysis identifies association of Fusobacterium with colorectal carcinoma [J]. Genome research,2012,22(2):292-8
[25] Homann N, Tillonen J, Salaspuro M. Microbially produced acetaldehyde from ethanol may increase the risk of colon cancer via folate deficiency [J]. International journal of cancer Journal international du cancer,2000,86(2):169-73
[26] Cawson RA. Leukoplakia and oral cancer [J]. Proceedings of the Royal Society of Medicine,1969,62(6):610-5
[27] Reibel J. Prognosis of oral pre-malignant lesions: significance of clinical, histopathological, and molecular biological characteristics [J]. Critical reviews in oral biology and medicine,2003,14(1):47-62
[28] Talamini R, Vaccarella S, Barbone F, et al. Oral hygiene, dentition, sexual habits and risk of oral cancer [J]. British journal of cancer,2000,83(9):1238-42
[29] Balaram P, Sridhar H, Rajkumar T, et al. Oral cancer in southern India: the influence of smoking, drinking, paan-chewing and oral hygiene [J]. International journal of cancer,2002,98(3):440-5
[30] Rosenquist K, Wennerberg J, Schildt EB, et al. Oral status, oral infections and some lifestyle factors as risk factors for oral and oropharyngeal squamous cell carcinoma. A population-based case-control study in southern Sweden [J]. Acta oto-laryngologica,2005,125(12):1327-36
[31] Guha N, Boffetta P, Wunsch Filho V, et al. Oral health and risk of squamous cell carcinoma of the head and neck and esophagus: results of two multicentric case-control studies [J]. American journal of epidemiology,2007,166(10):1159-73
[32] Velly AM, Franco EL, Schlecht N, et al. Relationship between dental factors and risk of upper aerodigestive tract cancer [J]. Oral oncology,1998,34(4):284-91
[33] Holmes L, Jr., desVignes-Kendrick M, et al. Is dental care utilization associated with oral cavity cancer in a large sample of community-based United States residents [J]? Community dentistry and oral epidemiology,2009,37(2):134-42
[34] Homann N, Tillonen J, Rintamaki H, et al. Poor dental status increases acetaldehyde production from ethanol in saliva: a possible link to increased oral cancer risk among heavy drinkers [J]. Oral oncology,2001,37(2):153-8
[35] Hooper SJ, Wilson MJ, Crean SJ. Exploring the link between microorganisms and oral cancer: a systematic review of the literature [J]. Head & neck,2009,31(9):1228-39
[36] Eisenbrand G, Spiegelhalder B, Preussmann R. Nitrate and nitrite in saliva [J]. Oncology,1980,37(4):227-31
[37] Homann N, Jousimies-Somer H, Jokelainen K, et al. High acetaldehyde levels in saliva after ethanol consumption: methodological aspects and pathogenetic implications [J]. Carcinogenesis,1997,18(9):1739-43
[38] Reidy J, McHugh E, Stassen LF. A review of the relationship between alcohol and oral cancer [J]. The surgeon,2011,9(5):278-83
[39] Poschl G, Seitz HK. Alcohol and cancer [J]. Alcohol and alcoholism,2004,39(3):155-65
[40] Salaspuro MP. Acetaldehyde, microbes, and cancer of the digestive tract [J]. Critical reviews in clinical laboratory sciences,2003,40(2):183-208
[41] Tezal M, Sullivan MA, Reid ME, et al. Chronic periodontitis and the risk of tongue cancer [J]. Archives of otolaryngology--head & neck surgery,2007,133(5):450-4
[42] Tezal M, Sullivan Nasca M, Stoler DL, et al. Chronic periodontitis-human papillomavirus synergy in base of tongue cancers [J]. Archives of otolaryngology--head & neck surgery,2009,135(4):391-6
[43] Hormia M, Willberg J, Ruokonen H, et al. Marginal periodontium as a potential reservoir of human papillomavirus in oral mucosa [J]. Journal of periodontology,2005,76(3):358-63
[44] Moergel M, Kammerer P, Kasaj A, et al. Chronic periodontitis and its possible association with oral squamous cell carcinoma - a retrospective case control study [J]. Head & face medicine,2013,9:39
[45] Tezal M, Sullivan MA, Hyland A, et al. Chronic periodontitis and the incidence of head and neck squamous cell carcinoma [J]. Cancer epidemiology, biomarkers & prevention,2009,18(9):2406-12
[46] Mantovani A, Allavena P, Sica A, et al. Cancer-related inflammation [J]. Nature,2008,454(7203):436-44
[47] Gondivkar SM, Gondivkar RS, Gadbail AR, et al. Chronic periodontitis and the risk of head and neck squamous cell carcinoma: facts and figures [J]. Experimental oncology,2013,35(3):163-7
[48] Fiorentini C, Matarrese P, Straface E, et al. Toxin-induced activation of Rho GTP-binding protein increases Bcl-2 expression and influences mitochondrial homeostasis [J]. Experimental cell research,1998,242(1):341-50
[49] Rippere-Lampe KE, Lang M, Ceri H, et al. Cytotoxic necrotizing factor type 1-positive Escherichia coli causes increased inflammation and tissue damage to the prostate in a rat prostatitis model [J]. Infection and immunity,2001,69(10):6515-9
[50] Mao S, Park Y, Hasegawa Y, et al. Intrinsic apoptotic pathways of gingival epithelial cells modulated by Porphyromonas gingivalis [J]. Cellular microbiology,2007,9(8):1997-2007
[51] Yilmaz O. The chronicles of Porphyromonas gingivalis: the microbium, the human oral epithelium and their interplay [J]. Microbiology. 2008,154(Pt 10):2897-903
[52] Hajishengallis G. Porphyromonas gingivalis-host interactions: open war or intelligent guerilla tactics [J]? Microbes and infection / Institut Pasteur,2009,11(6-7):637-45
[53] Coussens LM, Werb Z. Inflammation and cancer [J]. Nature,2002,420(6917):860-7
[54] Feller L, Altini M, Lemmer J. Inflammation in the context of oral cancer [J]. Oral oncology,2013,49(9):887-92
[55] Karin M, Lawrence T, Nizet V. Innate immunity gone awry: linking microbial infections to chronic inflammation and cancer [J]. Cell,2006,124(4):823-35
[56] Lin WW, Karin M. A cytokine-mediated link between innate immunity, inflammation, and cancer [J]. The Journal of clinical investigation,2007,117(5):1175-83
[57] Mignogna MD, Fedele S, Lo Russo L, et al. Immune activation and chronic inflammation as the cause of malignancy in oral lichen planus: is there any evidence [J]? Oral oncology,2004,40(2):120-30
[58] Betten A, Bylund J, Christophe T, et al. A proinflammatory peptide from Helicobacter pylori activates monocytes to induce lymphocyte dysfunction and apoptosis [J]. The Journal of clinical investigation,2001,108(8):1221-8
[59] Peek RM, Jr., Blaser MJ. Helicobacter pylori and gastrointestinal tract adenocarcinomas [J]. Nature reviews Cancer. 2002,2(1):28-37
[60] Bjorkholm B, Falk P, Engstrand L, et al. Helicobacter pylori: resurrection of the cancer link [J]. Journal of internal medicine,2003,253(2):102-19
[61] Sun WH, Yu Q, Shen H, et al. Roles of Helicobacter pylori infection and cyclooxygenase-2 expression in gastric carcinogenesis [J]. World journal of gastroenterolog, 2004,10(19):2809-13
[62] Kuramitsu HK, Miyakawa H, Qi M, et al. Cellular responses to oral pathogens [J]. Annals of periodontology / the American Academy of Periodontology,2002,7(1):90-4
[63] Andrian E, Grenier D, Rouabhia M. In vitro models of tissue penetration and destruction by Porphyromonas gingivalis [J]. Infection and immunity,2004,72(8):4689-98
[64] Friedlander AH, Marder SR, Pisegna JR, et al. Alcohol abuse and dependence: psychopathology, medical management and dental implications [J]. Journal of the American Dental Association,2003,134(6):731-40
[65] Kurkivuori J, Salaspuro V, Kaihovaara P, et al. Acetaldehyde production from ethanol by oral streptococci [J]. Oral oncology,2007,43(2):181-6
[66] Obe G, Jonas R, Schmidt S. Metabolism of ethanol in vitro produces a compound which induces sister-chromatid exchanges in human peripheral lymphocytes in vitro: acetaldehyde not ethanol is mutagenic [J]. Mutation research,1986,174(1):47-51
[67] Dellarco VL. A mutagenicity assessment of acetaldehyde [J]. Mutation research,1988,195(1):1-20
[68] Helander A, Lindahl-Kiessling K. Increased frequency of acetaldehyde-induced sister-chromatid exchanges in human lymphocytes treated with an aldehyde dehydrogenase inhibitor [J]. Mutation research,1991,264(3):103-7
[69] Muto M, Hitomi Y, Ohtsu A, et al. Acetaldehyde production by non-pathogenic Neisseria in human oral microflora: implications for carcinogenesis in upper aerodigestive tract [J]. International journal of cancer Journal international du cancer,2000,88(3):342-50
[70] Kauppila JH, Mattila AE, Karttunen TJ, et al. Toll-like receptor 5 and the emerging role of bacteria in carcinogenesis [J]. Oncoimmunology,2013,2(4):e23620
[71] Kauppila JH, Mattila AE, Karttunen TJ, et al. Toll-like receptor 5 (TLR5) expression is a novel predictive marker for recurrence and survival in squamous cell carcinoma of the tongue [J]. British journal of cancer,2013,108(3):638-43
[72] Grimm M, Munz A, Exarchou A, et al. Immunohistochemical detection of Helicobacter pylori without association of TLR5 expression in oral squamous cell carcinoma [J]. Journal of oral pathology & medicine,2014,43(1):35-44
[73] Kauppila JH, Korvala J, Siirila K, et al. Toll-like receptor 9 mediates invasion and predicts prognosis in squamous cell carcinoma of the mobile tongue [J]. Journal of oral pathology & medicine,2014 Oct 23, doi:10.1111/jop.12272
[74] Park JH, Yoon HE, Jeon DI, et al. Activation of TLR2 and TLR5 did not affect tumor progression of an oral squamous cell carcinoma, YD-10B cells [J]. Journal of oral pathology & medicine. 2010,39(10):781-5
[75] Engle SJ, Ormsby I, Pawlowski S, et al. Elimination of colon cancer in germ-free transforming growth factor beta 1-deficient mice [J]. Cancer research,2002,62(22):6362-6
[76] Tlaskalova-Hogenova H, Stepankova R, Kozakova H, et al. The role of gut microbiota (commensal bacteria) and the mucosal barrier in the pathogenesis of inflammatory and autoimmune diseases and cancer: contribution of germ-free and gnotobiotic animal models of human diseases [J]. Cellular & molecular immunology,2011,8(2):110-20
[77] Zackular JP, Baxter NT, Iverson KD, et al. The gut microbiome modulates colon tumorigenesis [J]. mBio,2013,4(6):e00692-13
[78] Viaud S, Daillere R, Boneca IG, et al. Gut microbiome and anticancer immune response: really hot Sh*t [J]! Cell death and differentiation,2015,22(2):199-214

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