Page 149 - 南京医科大学学报自然科学版
P. 149

第44卷第1期                 宁   涛,陈筱青. 肠道及肺部菌群与支气管肺发育不良的研究进展[J].
                  2024年1月                     南京医科大学学报(自然科学版),2024,44(01):138-144                       ·143 ·


                    fits for infant health[J]. Nutrients,2020,12(4):1039  larity of the gut⁃lung axis and dysbiosis of the lower air⁃
               [19]QUIGLEY M,EMBLETON N D,MCGUIRE W. Formula           ways in ventilated preterm infants[J]. Eur Respir J,
                    versus donor breast milk for feeding preterm or low birth  2020,55(5):1901909
                    weight infants[J]. Cochrane Database Syst Rev,2018,6  [32] STRICKER S,HAIN T,CHAO C M,et al. Respiratory
                    (6):CD002971                                       and intestinal microbiota in pediatric lung diseases⁃cur⁃
               [20] AGUILAR⁃LOPEZ M,DINSMOOR A M,HO T T B,et al.       rent evidence of the gut ⁃ lung axis[J]. Int J Mol Sci,
                    A systematic review of the factors influencing microbial  2022,23(12):6791
                    colonization of the preterm infant gut[J]. Gut Microbes,  [33] BERBERS R M,MOHAMED HOESEIN F A A,ELLER⁃
                    2021,13(1):1-33                                    BROEK P M,et al. Low IgA associated with oropharyn⁃
               [21] RAMIREZ J,GUARNER F,BUSTOS FERNANDEZ L,et          geal microbiota changes and lung disease in primary anti⁃
                    al. Antibiotics as major disruptors of gut microbiota[J].  body deficiency[J]. Front Immunol,2020,11:1245
                    Front Cell Infect Microbiol,2020,10:572912   [34] DANG A T,MARSLAND B J. Microbes,metabolites,and
               [22] KALBERMATTER C,FERNANDEZ TRIGO N,CHRIS⁃            the gut⁃lung axis[J]. Mucosal Immunol,2019,12(4):
                    TENSEN S,et al. Maternal microbiota,early life coloniza⁃  843-850
                    tion and breast milk drive immune development in the  [35] ENAUD R,PREVEL R,CIARLO E,et al. The gut⁃lung
                    newborn[J]. Front Immunol,2021,12:683022           axis in health and respiratory diseases:a place for inter⁃
               [23] YANG D,XING Y,SONG X,et al. The impact of lung mi⁃  organ and inter⁃kingdom crosstalks[J]. Front Cell Infect
                    crobiota dysbiosis on inflammation[J]. Immunology,  Microbiol,2020,10:9
                    2020,159(2):156-166                          [36] LAUER T,BEHNKE J,OEHMKE F,et al. Bacterial colo⁃
               [24] BOSI A,BANFI D,BISTOLETTI M,et al. Tryptophan      nization within the first six weeks of life and pulmonary
                     Metabolites along the microbiota⁃gut⁃brain axis:an inter⁃  outcome in preterm infants <1000 g[J]. J Clin Med,
                     kingdom communication system influencing the gut in  2020,9(7):2240
                     health and disease[J]. Int J Tryptophan Res,2020,13:  [37] ASHLEY S L,SJODING M W,POPOVA A P,et al. Lung
                     1178646920928984                                  and gut microbiota are altered by hyperoxia and contribute
               [25] LOHMANN P,LUNA R A,HOLLISTER E B,et al. The        to oxygen ⁃ induced lung injury in mice[J]. Sci Transl
                    airway microbiome of intubated premature infants:charac⁃  Med,2020,12(556):eaau9959
                    teristics and changes that predict the development of  [38] CHEN C M,CHOU H C,YANG Y S H,et al. Predicting
                    bronchopulmonary dysplasia[J]. Pediatr Res,2014,76  hyperoxia⁃induced lung injury from associated intestinal
                    (3):294-301                                        and lung dysbiosis in neonatal mice[J]. Neonatology,
               [26] MOURANI P M,HARRIS J K,SONTAG M K,et al. Mo⁃       2021,118(2):163-173
                    lecular identification of bacteria in tracheal aspirate fluid  [39] WEDGWOOD S,GERARD K,HALLORAN K,et al. In⁃
                    from mechanically ventilated preterm infants[J]. PLoS  testinal dysbiosis and the developing lung:the role of toll⁃
                    One,2011,6(10):e25959                              like receptor 4 in the gut⁃lung axis[J]. Front Immunol,
               [27] PAMMI M,LAL C V,WAGNER B D,et al. Airway micro⁃    2020,11:357
                    biome and development of bronchopulmonary dysplasia in  [40] HUMBERG A,FORTMANN I,SILLER B,et al. Preterm
                    preterm infants:a systematic review[J]. J Pediatr,2019,  birth and sustained inflammation:consequences for the
                    204:126-133                                        neonate[J]. Semin Immunopathol,2020,42(4):451-468
               [28] LAL C V,TRAVERS C,AGHAI Z H,et al. The airway  [41] SUN T,YU H Y,FU J H. Respiratory tract microecology
                    microbiome at birth[J]. Sci Rep,2016,6:31023       and bronchopulmonary dysplasia in preterm infants[J].
               [29] LI Z,LI Y,SUN Q,et al. Targeting the pulmonary micro⁃  Front Pediatr,2021,9:762545
                    biota to fight against respiratory diseases[J]. Cells,2022,  [42] CHEN X,HUANG X,LIN Y,et al. Association of Urea⁃
                    11(5):916                                          plasma infection pattern and azithromycin treatment effect
               [30] MIRALLES R,HODGE R,MCPARLAND P C,et al. Re⁃        with bronchopulmonary dysplasia in Ureaplasma positive
                    lationship between antenatal inflammation and antenatal  infants:a cohort study[J]. BMC Pulm Med,2023,23(1):
                    infection identified by detection of microbial genes by  229
                    polymerase chain reaction[J]. Pediatr Res,2005,57(4):  [43] IMAMURA T,SATO M,GO H,et al. The microbiome of
                    570-577                                            the lower respiratory tract in premature infants with and
               [31] GALLACHER D,MITCHELL E,ALBER D,et al. Dissimi⁃     without severe bronchopulmonary dysplasia[J]. Am J Per⁃
   144   145   146   147   148   149   150   151   152