[1] |
Marh PD, Zaura E.Dental biofilm: ecological interactions in health and disease[J].J Clin Periodontol, 2017, 44(18):S12-S22
|
[2] |
Fechney JM, Browne GV, Prabhu N, et al.Preliminary study of the oral mycobiome of children with and without dental caries[J].J Oral Microbiol, 2019, 11(1):1536182-1536182
|
[3] |
Ghannoum MA, Jurevic RJ, Mukherjee PK, et al.Characterization of the oral fungal microbiome (mycobiome) in healthy individuals[J].PLoS Pathog, 2010, 6(1):e1000713-e1000713
|
[4] |
Tanner A, Kressirer CA, Rothmiller S, et al.The caries microbiome: implications for reversing dysbiosis[J].Adv Dent Res, 2018, 29(1):78-85
|
[5] |
沈鑫,姚羽菲,李继遥,等.人体真菌组与疾病[J].华西口腔医学杂志, 2019, 37(3):314-319.
|
[6] |
Xu H, Dongari-Bagtzoglou A.Shaping the oral mycobiota: interactions of opportunistic fungi with oral bacteria and the host[J].Curr Opin Microbiol, 2015, 26(无):65-70
|
[7] |
Dupuy AK, David MS, Li L, et al.Redefining the human oral mycobiome with improved practices in amplicon-based taxonomy: discovery of Malassezia as a prominent commensal[J].PLoS One, 2014, 9(3):e90899-e90899
|
[8] |
Hajishengallis E, Parsaei Y, Klein MI, et al.Advances in the microbial etiology and pathogenesis of early childhood caries[J].Mol Oral Microbiol, 2017, 32(1):24-34
|
[9] |
Bowen WH, Burne RA, Wu H, et al.Oral biofilms: pathogens,matrix,and polymicrobial interactions in microenvironments[J].Trends Microbiol, 2018, 26(3):229-242
|
[10] |
Bottner A, He R Y, Sarbu A, et al.Streptococcus mutans isolated from children with severe-early childhood caries form higher levels of persisters[J].Arch Oral Biol, 2020, 110(无):104601-104601
|
[11] |
Tafere Y, Chanie S, Dessie T, et al.Assessment of prevalence of dental caries and the associated factors among patients attending dental clinic in Debre Tabor general hospital: a hospital-based cross-sectional study[J].BMC Oral Health, 2018, 18(1):119-119
|
[12] |
Chen L, Jia L, Zhang Q, et al.[J]. ,, : -.[J].Anaerobe, 2017, 47(无):165-172
|
[13] |
Moreira MR, Souza AB, Soares S, et al.ent-Kaurenoic acid-rich extract from Mikania glomerata: in vitro activity against bacteria responsible for dental caries[J].Fitoterapia, 2016, 112(无):211-216
|
[14] |
Hata H, Hata S, Mayanagi H.Acid tolerance of dental plaque bacteria associated with caries increment[J].International Congress Series, 2005, 1284(无):183-184
|
[15] |
Prabhu M S, Yavagal C, Kugaji M, et al.Quantitative assessment of Scardovia wiggsiae from dental plaque samples of children suffering from severe early childhood caries and caries free children[J].Anaerobe, 2019, 16(无):102110-102110
|
[16] |
Tanner AC, Mathney JM, Kent RL, et al.Cultivable anaerobic microbiota of severe early childhood caries[J].J Clin Microbiol, 2011, 49(4):1464-1474
|
[17] |
Okada M, Soda Y, Hayashi F, et al.Longitudinal study of dental caries incidence associated with Streptococcus mutans and Streptococcus sobrinus in pre-school children[J].J Med Microbiol, 2005, 54(Pt 7):661-665
|
[18] |
Signoretto C, Burlacchini G, Faccioni F, et al.Support for the role of Candida sppin extensive caries lesions of children[J].New Microbiol, 2009, 32(1):101-107
|
[19] |
De-La-Torre J, Ortiz-Samperio ME, Marcos-Arias C, et al.In vitro antifungal susceptibility of oral Candida isolates from patients suffering from caries and chronic periodontitis[J].Mycopathologia, 2017, 182(5-6):471-485
|
[20] |
Caufield PW, Sch?n CN, Saraithong P, et al.Oral Lactobacilli and dental Caries[J].J Dent Res, 2015, 94(9suppl):110-S
|
[21] |
Teanpaisan R, Piwat S.Lactobacillus paracasei SD,a novel probiotic,reduces mutans streptococci in human volunteers: a randomized placebo-controlled trial[J].Clin Oral Investig, 2014, 18(3):857-862
|
[22] |
Tan Y, Leonhard M, Moser D, et al.[J]., , : [J]. Arch Oral Biol, 2018, 85(无):40-45
|
[23] |
de Barros PP, Scorzoni L, Ribeiro FC, et al.[J]., , :.[J]. Microb Pathog, 2018, 117(无):80-87
|
[24] |
Valm AM.The structure of dental plaque microbial communities in the transition from health to dental caries and periodontal disease[J].J Mol Biol, 2019, 431(16):2957-2969
|
[25] |
Koo H, Andes D R, Krysan D J.Candida-streptococcal interactions in biofilm-associated oral diseases[J].PLoS Pathog, 2018, 14(12):e1007342-e1007342
|
[26] |
Qiu R, Li W, Lin Y, et al.Genotypic diversity and cariogenicity of Candida albicans from children with early childhood caries and caries-free children[J].BMC Oral Health, 2015, 15(1):144-144
|
[27] |
Caroline de Abreu Brandi T, Portela MB, Lima PM, et al.Demineralizing potential of dental biofilm added with Candida albicans and Candida parapsilosis isolated from preschool children with and without caries[J].Microb Pathog, 2016, 100(无):51-55
|
[28] |
Dige I, Nyvad B.Candida species in intact in vivo biofilm from carious lesions[J].Arch Oral Biol, 2019, 101(无):142-146
|
[29] |
Yang C, Scoffield J, Wu R, et al.Antigen III mediates interactions between Streptococcus mutans and Candida albicans[J].Mol Oral Microbiol, 2018, 33(4):283-291
|
[30] |
Bamford CV, Nobbs AH, Barbour ME, et al.Functional regions of Candida albicans hyphal cell wall protein Als3 that determine interaction with the oral bacterium Streptococcus gordonii[J].Microbiology, 2015, 161(Pt 1):18-29
|
[31] |
Krom BP, Kidwai S, Ten CJ.Candida and other fungal species: forgotten players of healthy oral microbiota[J].J Dent Res, 2014, 93(5):445-451
|
[32] |
Zijnge V, van Leeuwen MB, Degener JE, et al.Oral biofilm architecture on natural teeth[J].PLoS One, 2010, 5(2):e9321-e9321
|
[33] |
Deng L, Li W, He Y, et al.Cross-kingdom interaction of Candida albicans and Actinomyces viscosus elevated cariogenic virulence[J]. Arch Oral Biol, 2019, 100(无):106-112
|
[34] |
Hertel S, Wolf A, Basche S, et al.Initial microbial colonization of enamel in children with different levels of caries activity: an in situ study[J].Am J Dent, 2017, 30(3):171-176
|
[35] |
Leathers TD, Rich JO, Bischoff KM, et al.[J]. , ,: .[J].Biotechnol Rep (Amst), 2019, 21(无):e300-e300
|
[36] |
Marsh PD.Microbiology of dental plaque biofilms and their role in oral health and caries[J].Dent Clin North Am, 2010, 54(3):441-454
|