Secondary Bacterial Infections Associated with Influenza Pandemics
暂无分享,去创建一个
[1] J. Taubenberger,et al. The role of viral, host, and secondary bacterial factors in influenza pathogenesis. , 2015, The American journal of pathology.
[2] Jindrich Cinatl,et al. Novel swine-origin influenza A virus in humans: another pandemic knocking at the door , 2009, Medical Microbiology and Immunology.
[3] A. Shahangian,et al. Type I IFNs mediate development of postinfluenza bacterial pneumonia in mice. , 2009, The Journal of clinical investigation.
[4] Julian Parkhill,et al. Genetic Analysis of the Capsular Biosynthetic Locus from All 90 Pneumococcal Serotypes , 2006, PLoS genetics.
[5] David E. Swayne,et al. Genomic analysis of increased host immune and cell death responses induced by 1918 influenza virus , 2006, Nature.
[6] Alex van Belkum,et al. The role of nasal carriage in Staphylococcus aureus infections. , 2005, The Lancet. Infectious diseases.
[7] Russell R. Miller,et al. Critical illness from 2009 pandemic influenza A virus and bacterial coinfection in the United States* , 2012, Critical care medicine.
[8] R. Krug,et al. The Influenza Viruses , 2011, The Viruses.
[9] K Shiota,et al. Bacterial Pneumonia , 2019, Adult-Gerontology Practice Guidelines.
[10] J. Alcorn,et al. Influenza A Inhibits Th17-Mediated Host Defense against Bacterial Pneumonia in Mice , 2011, The Journal of Immunology.
[11] Daniel S. Chertow,et al. Treatment with the reactive oxygen species scavenger EUK-207 reduces lung damage and increases survival during 1918 influenza virus infection in mice. , 2014, Free radical biology & medicine.
[12] James O Lloyd-Smith,et al. Ecology of zoonoses: natural and unnatural histories , 2012, The Lancet.
[13] S. Siegel,et al. Influenza promotes pneumococcal growth during coinfection by providing host sialylated substrates as a nutrient source. , 2014, Cell host & microbe.
[14] F. Dunn. Pandemic influenza in 1957; review of international spread of new Asian strain. , 1958, Journal of the American Medical Association.
[15] A. Macpherson,et al. Interactions Between the Microbiota and the Immune System , 2012, Science.
[16] Y. Muraki,et al. Antigenic and Genetic Characterization of Influenza C Viruses Which Caused Two Outbreaks in Yamagata City, Japan, in 1996 and 1998 , 2002, Journal of Clinical Microbiology.
[17] E. Tuomanen,et al. Streptococcus pneumoniae anchor to activated human cells by the receptor for platelet-activating factor , 1995, Nature.
[18] C. Whitney,et al. Clonal Association between Streptococcus pneumoniae Serotype 23A, Circulating within the United States, and an Internationally Dispersed Clone of Serotype 23F , 2005, Journal of Clinical Microbiology.
[19] D. Raoult,et al. From Q Fever to Coxiella burnetii Infection: a Paradigm Change , 2016, Clinical Microbiology Reviews.
[20] D. Metzger,et al. Inhibition of pulmonary antibacterial defense by interferon-γ during recovery from influenza infection , 2008, Nature Medicine.
[21] M. Waller,et al. Relationship between “purulent bronchitis” in military populations in Europe prior to 1918 and the 1918–1919 influenza pandemic , 2011, Influenza and other respiratory viruses.
[22] Daniel S. Chertow,et al. Lethal Synergism of 2009 Pandemic H1N1 Influenza Virus and Streptococcus pneumoniae Coinfection Is Associated with Loss of Murine Lung Repair Responses , 2011, mBio.
[23] N. Masurel,et al. Bacteriology and histopathology of the respiratory tract and lungs in fatal Asian influenza. , 1958, Lancet.
[24] K. Subbarao,et al. Influenza vaccines: challenges and solutions. , 2015, Cell host & microbe.
[25] Katherine Spindler,et al. Rapid evolution of RNA genomes. , 1982, Science.
[26] F. Murphy,et al. Emerging zoonoses. , 1998, Emerging infectious diseases.
[27] H. Nitanai,et al. Facilitated Expansion of Pneumococcal Colonization from the Nose to the Lower Respiratory Tract in Mice Preinfected with Influenza Virus , 1999, Microbiology and immunology.
[28] P. Quie,et al. Polymorphonuclear leukocyte dysfunction during influenza virus infection in chinchillas. , 1981, The Journal of infectious diseases.
[29] H. Klenk,et al. Synergistic role of staphylococcal proteases in the induction of influenza virus pathogenicity. , 1987, Virology.
[30] Daniel S. Chertow,et al. Bacterial coinfection in influenza: a grand rounds review. , 2013, JAMA.
[31] E. Klein,et al. The frequency of influenza and bacterial coinfection: a systematic review and meta‐analysis , 2016, Influenza and other respiratory viruses.
[32] J. Taubenberger,et al. Integrating historical, clinical and molecular genetic data in order to explain the origin and virulence of the 1918 Spanish influenza virus. , 2001, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[33] W. Marine,et al. Bacterial pneumonia during the Hong Kong influenza epidemic of 1968-1969. , 1971, Archives of internal medicine.
[34] D. Musher,et al. Bacterial adherence to pharyngeal cells during viral infection. , 1980, The Journal of infectious diseases.
[35] A. Correspondent. Bacterial adherence , 1977, Nature.
[36] A. Randolph,et al. Critically Ill Children During the 2009–2010 Influenza Pandemic in the United States , 2011, Pediatrics.
[37] A. Seaton,et al. Bronchopulmonary infection due to Branhamella catarrhalis. , 1983, British medical journal.
[38] R. Garibaldi,et al. The significance of nongonococcal, nonmeningococcal Neisseria isolates from blood cultures. , 1984, Reviews of infectious diseases.
[39] R. Couch,et al. Induction of partial immunity to influenza by a neuraminidase-specific vaccine. , 1974, The Journal of infectious diseases.
[40] Kate E. Jones,et al. Global trends in emerging infectious diseases , 2008, Nature.
[41] P. Palese,et al. Influenza A virus PB1-F2: a small protein with a big punch. , 2007, Cell host & microbe.
[42] R. Petersdorf,et al. Pulmonary infections complicating Asian influenza. , 1959, A M A Archives of Internal Medicine.
[43] P. Daszak. Anatomy of a pandemic , 2012, The Lancet.
[44] G. Toews,et al. Pulmonary clearance and phagocytic cell response to normal pharyngeal flora. , 1981, The American review of respiratory disease.
[45] M. Seller. SCREENING FOR NEURAL-TUBE DEFECTS , 1975, The Lancet.
[46] R. Rappuoli,et al. Influenza vaccine immunology , 2011, Immunological reviews.
[47] Y. Lau,et al. Successive influenza virus infection and Streptococcus pneumoniae stimulation alter human dendritic cell function , 2011, BMC infectious diseases.
[48] T. File,et al. Epidemiology, microbiology, and treatment considerations for bacterial pneumonia complicating influenza. , 2012, International journal of infectious diseases : IJID : official publication of the International Society for Infectious Diseases.
[49] L. Mundy. Pandemic Influenza and Pneumonia Due to Legionella pneumophila : A Frequently Underestimated Coinfection , 2010 .
[50] Fabrice Carrat,et al. Transmissibility and geographic spread of the 1889 influenza pandemic , 2010, Proceedings of the National Academy of Sciences.
[51] D. Mollura,et al. Pulmonary pathologic findings of fatal 2009 pandemic influenza A/H1N1 viral infections. , 2010, Archives of pathology & laboratory medicine.
[52] J. Wenger. Epidemiology of Haemophilus influenzae type b disease and impact of Haemophilus influenzae type b conjugate vaccines in the United States and Canada. , 1998, The Pediatric infectious disease journal.
[53] Stephen S Morse,et al. Epidemiological evidence of an early wave of the 1918 influenza pandemic in New York City. , 2005, Proceedings of the National Academy of Sciences of the United States of America.
[54] A. Trilla,et al. The 1918 "Spanish flu" in Spain. , 2008, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.
[55] D. Bartley,et al. Pneumonia associated with Branhamella catarrhalis in infants , 1987, The Pediatric infectious disease journal.
[56] Marin H Kollef,et al. Epidemiology and outcomes of health-care-associated pneumonia: results from a large US database of culture-positive pneumonia. , 2005, Chest.
[57] In Ho Park,et al. Discovery of a New Capsular Serotype (6C) within Serogroup 6 of Streptococcus pneumoniae , 2007, Journal of Clinical Microbiology.
[58] L. Cauley,et al. Why is coinfection with influenza virus and bacteria so difficult to control? , 2015, Discovery medicine.
[59] A. van Belkum,et al. Moraxella catarrhalis: from Emerging to Established Pathogen , 2002, Clinical Microbiology Reviews.
[60] J. Taubenberger,et al. The pathology of influenza virus infections. , 2008, Annual review of pathology.
[61] W. Doyle,et al. Effect of experimental influenza A virus infection on isolation of Streptococcus pneumoniae and other aerobic bacteria from the oropharynges of allergic and nonallergic adult subjects , 1995, Infection and immunity.
[62] J. Dorca,et al. Branhamella catarrhalis respiratory infections. , 1992, The European respiratory journal.
[63] Y. Hirakata,et al. Immunokinetics in severe pneumonia due to influenza virus and bacteria coinfection in mice , 2004, European Respiratory Journal.
[64] E. Boldon. Influenza immunization. , 1967, The Medical letter on drugs and therapeutics.
[65] B. Sanford,et al. Bacterial Adherence to the Upper Respiratory Tract of Ferrets Infected with Influenza A Virus , 1987, Proceedings of the Society for Experimental Biology and Medicine. Society for Experimental Biology and Medicine.
[66] T. Giles-Vernick,et al. Beyond the Cut Hunter: A Historical Epidemiology of HIV Beginnings in Central Africa , 2016, EcoHealth.
[67] K. Rock,et al. The inflammatory response to cell death. , 2008, Annual review of pathology.
[68] F. Kong,et al. First report of putative Streptococcus pneumoniae serotype 6D among nasopharyngeal isolates from Fijian children. , 2009, The Journal of infectious diseases.
[69] Yi Guan,et al. Fatal outcome of human influenza A (H5N1) is associated with high viral load and hypercytokinemia , 2006, Nature Medicine.
[70] R. Christie,et al. MENINGITIS: ISOLATION OF AN ORGANISM RESEMBLING NEISSERIA CATARRHALIS FROM CEREBRO‐SPINAL FLUID; REPORT OF A CASE , 1947, The Medical journal of Australia.
[71] G. Dennis Shanks,et al. Deaths from Bacterial Pneumonia during 1918–19 Influenza Pandemic , 2008, Emerging infectious diseases.
[72] Mark A. Miller,et al. Impact of the 2009 influenza pandemic on pneumococcal pneumonia hospitalizations in the United States. , 2012, Journal of Infectious Diseases.
[73] J. Kimpen,et al. Respiratory viral infection predisposing for bacterial disease: a concise review. , 1999, FEMS immunology and medical microbiology.
[74] S. Madhi,et al. Long-term effect of pneumococcal conjugate vaccine on nasopharyngeal colonization by Streptococcus pneumoniae--and associated interactions with Staphylococcus aureus and Haemophilus influenzae colonization--in HIV-Infected and HIV-uninfected children. , 2007, The Journal of infectious diseases.
[75] John W. Wilson. Bacterial pathogens. , 2014, Cancer treatment and research.
[76] J. Scott,et al. The Descriptive Epidemiology of Streptococcus pneumoniae and Haemophilus influenzae Nasopharyngeal Carriage in Children and Adults in Kilifi District, Kenya , 2008, The Pediatric infectious disease journal.
[77] J. Musser,et al. Axis of coinfection evil. , 2010, The Journal of infectious diseases.
[78] B. Grant,et al. Moraxella catarrhalis in chronic obstructive pulmonary disease: burden of disease and immune response. , 2005, American journal of respiratory and critical care medicine.
[79] Edward C Holmes,et al. Avian influenza virus exhibits rapid evolutionary dynamics. , 2006, Molecular biology and evolution.
[80] D. Morens,et al. Bacterial pathogens and death during the 1918 influenza pandemic. , 2009, The New England journal of medicine.
[81] Punam Mangtani,et al. The Effects of School Closures on Influenza Outbreaks and Pandemics: Systematic Review of Simulation Studies , 2014, PloS one.
[82] E. C. Herrmann,et al. Hong Kong influenza: clinical, microbiologic, and pathologic features in 127 cases. , 1970, JAMA.
[83] Kevin J. McHugh,et al. Influenza A virus exacerbates Staphylococcus aureus pneumonia in mice by attenuating antimicrobial peptide production. , 2014, The Journal of infectious diseases.
[84] C. Bluestone. Otitis Media and Sinusitis in Children , 2012, Drugs.
[85] L. Simonsen,et al. Surveillance and impact of influenza in the United States. , 1999, Vaccine.
[86] J. McCullers,et al. Influenza virus neuraminidase contributes to secondary bacterial pneumonia. , 2005, The Journal of infectious diseases.
[87] V. Dixit,et al. Manipulation of host cell death pathways during microbial infections. , 2010, Cell host & microbe.
[88] R. Snyderman,et al. Effect of virus infection on the inflammatory response. Depression of macrophage accumulation in influenza-infected mice. , 1976, The American journal of pathology.
[89] D. Steinhauer,et al. Role of hemagglutinin cleavage for the pathogenicity of influenza virus. , 1999, Virology.
[90] Thomas R Larson,et al. Biochemical, Genetic, and Serological Characterization of Two Capsule Subtypes among Streptococcus pneumoniae Serotype 20 Strains , 2012, The Journal of Biological Chemistry.
[91] D. Kaiser,et al. Clinical effectiveness of influenza vaccination in Manitoba. , 1993, JAMA.
[92] H FUKUMI,et al. Summary report on the Asian influenza epidemic in Japan, 1957. , 1959, Bulletin of the World Health Organization.
[93] C. Steiner,et al. Identifying the Interaction Between Influenza and Pneumococcal Pneumonia Using Incidence Data , 2013, Science Translational Medicine.
[94] J. McCullers,et al. Secondary Bacterial Infections in Influenza Virus Infection Pathogenesis , 2014, Current topics in microbiology and immunology.
[95] Z. Memish,et al. Emerging respiratory tract infections , 2014, The Lancet Infectious Diseases.
[96] Mei-ho Lee,et al. A postinfluenza model of Staphylococcus aureus pneumonia. , 2010, The Journal of infectious diseases.
[97] J. Oxford,et al. World War I may have allowed the emergence of "Spanish" influenza. , 2002, The Lancet. Infectious diseases.
[98] N. Shindo,et al. Bacterial and viral infections associated with influenza , 2013, Influenza and other respiratory viruses.
[99] Katsuhisa Nakajima,et al. Recent human influenza A (H1N1) viruses are closely related genetically to strains isolated in 1950 , 1978, Nature.
[100] H. Endtz,et al. Viral and bacterial co-infection in severe pneumonia triggers innate immune responses and specifically enhances IP-10: a translational study , 2016, Scientific Reports.
[101] V. Nizet,et al. Bacterial and Viral Infections , 2009 .
[102] Anthony S Fauci,et al. Predominant role of bacterial pneumonia as a cause of death in pandemic influenza: implications for pandemic influenza preparedness. , 2008, The Journal of infectious diseases.
[103] E. H. Heath,et al. A BACTERIOLOGIC STUDY OF THE INFLUENZA EPIDEMIC AT CAMP DEVENS, MASS. , 1919 .
[104] E. Hewitt,et al. Natural killer cell cytotoxicity: how do they pull the trigger? , 2009, Immunology.
[105] S. Lucas. Predictive clinicopathological features derived from systematic autopsy examination of patients who died with A/H1N1 influenza infection in the UK 2009-10 pandemic. , 2010, Health technology assessment.
[106] M. Scott,et al. CD40–CD154 interactions between macrophages and natural killer cells during sepsis are critical for macrophage activation and are not interferon gamma dependent , 2004, Clinical and experimental immunology.
[107] J. Stockman. Influenza-Associated Pediatric Mortality in the United States: Increase of Staphylococcus aureus Coinfection , 2010 .
[108] J. Brundage. Interactions between influenza and bacterial respiratory pathogens: implications for pandemic preparedness , 2006, The Lancet Infectious Diseases.
[109] C W Potter,et al. A history of influenza , 2001, Journal of applied microbiology.
[110] R. Snyderman,et al. Effect of vuris infection on the inflammatory response. , 1976 .
[111] C. Marchant. Spectrum of diseases due to Branhamella Catarrhalis in children with particular reference to acute otitis media , 1990 .
[112] W. Blanton,et al. A RECENT EPIDEMIC OF ACUTE RESPIRATORY INFECTION AT CAMP CUSTER, MICH.: PRELIMINARY LABORATORY REPORT , 1918 .
[113] B. Catlin. Branhamella catarrhalis: an organism gaining respect as a pathogen , 1990, Clinical Microbiology Reviews.
[114] T. van der Poll,et al. Bench-to-bedside review: Bacterial pneumonia with influenza - pathogenesis and clinical implications , 2010, Critical care.
[115] J. Ioannidis,et al. Spectrum and significance of bacteremia due to Moraxella catarrhalis. , 1995, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.
[116] M. Tcharmtchi,et al. Coinfection with Staphylococcus aureus increases risk of severe coagulopathy in critically ill children with influenza A (H1N1) virus infection , 2012, Critical care medicine.
[117] D. Lee,et al. The mechanism of antibacterial activity of phlorofucofuroeckol-A against methicillin-resistant Staphylococcus aureus , 2014, Applied Microbiology and Biotechnology.
[118] P. Wyde,et al. Influenza virus infection and bacterial clearance in young adult and aged mice. , 1989, Journal of gerontology.
[119] Ruifu Yang,et al. Perspectives on Yersinia pestis: A Model for Studying Zoonotic Pathogens. , 2016, Advances in experimental medicine and biology.
[120] K. Lindblade,et al. A distinct lineage of influenza A virus from bats , 2012, Proceedings of the National Academy of Sciences.
[121] E. Watari. [Influenza virus infection]. , 2002, Journal of Nippon Medical School = Nippon Ika Daigaku zasshi.
[122] M. Zambon,et al. The pathogenesis of influenza in humans , 2001, Reviews in medical virology.
[123] M. Roberts,et al. Branhamella (Neisseria) catarrhalis--a lower respiratory tract pathogen? , 1981, Journal of clinical microbiology.
[124] F. B. Smith. The Russian influenza in the United Kingdom, 1889-1894. , 1995, Social history of medicine : the journal of the Society for the Social History of Medicine.
[125] R. Peckham. Epidemics in Modern Asia , 2016 .
[126] Mouse Model , 2019, Definitions.
[127] S. Hamada,et al. Influenza A Virus-Infected Hosts Boost an Invasive Type of Streptococcus pyogenes Infection in Mice , 2003, Journal of Virology.
[128] K. M. Robinson,et al. The immunology of influenza virus-associated bacterial pneumonia. , 2015, Current opinion in immunology.
[129] M. Michael. STAPHYLOCOCCUS AUREUS PNEUMONIA: WITH SPECIAL REFERENCE TO ITS OCCURRENCE AS A COMPLICATION OF INFLUENZA , 1942 .
[130] A. Takala,et al. Bacteriology of acute otitis media in a cohort of Finnish children followed for the first two years of life , 2001, The Pediatric infectious disease journal.
[131] S. Marsch,et al. Co-infection of Influenza B and Streptococci causing severe pneumonia and septic shock in healthy women , 2010, BMC infectious diseases.
[132] R. Webster,et al. Evolution and ecology of influenza A viruses. , 1992, Current topics in microbiology and immunology.
[133] Kevin J. McHugh,et al. Influenza A Exacerbates Staphylococcus aureus Pneumonia by Attenuating IL-1β Production in Mice , 2013, The Journal of Immunology.
[134] P. Palese,et al. Unraveling the Mystery of Swine Influenza Virus , 2009, Cell.
[135] D. Lehmann,et al. Modelling the co-occurrence of Streptococcus pneumoniae with other bacterial and viral pathogens in the upper respiratory tract , 2006, Vaccine.
[136] Christopher B Wilson,et al. Regulation of interferon-gamma during innate and adaptive immune responses. , 2007, Advances in immunology.
[137] J. Walker,et al. Influenza alone and in sequence with pneumonia due to Streptococcus pneumoniae in the squirrel monkey. , 1975, The Journal of infectious diseases.
[138] M. Hilleman,et al. Realities and enigmas of human viral influenza: pathogenesis, epidemiology and control. , 2002, Vaccine.
[139] C. Bluestone. Otitis media and sinusitis in children. Role of Branhamella catarrhalis. , 1986, Drugs.
[140] David Parham,et al. A mouse model of lethal synergism between influenza virus and Haemophilus influenzae. , 2010, The American journal of pathology.
[141] J. Moore,et al. Importance of Staphylococcus aureus in pneumonia in the 1957 epidemic of influenza A. , 1958, Lancet.
[142] H. A. Cook,et al. Fatalities associated with the 2009 H1N1 influenza A virus in New York city. , 2010, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.
[143] A. Gottschalk. The Influenza Virus Neuraminidase , 1958, Nature.
[144] M. Dziejman,et al. IFN-γ-Inducible Protein 10 (IP-10; CXCL10)-Deficient Mice Reveal a Role for IP-10 in Effector T Cell Generation and Trafficking1 , 2002, The Journal of Immunology.
[145] G. Gao,et al. Bat-derived influenza-like viruses H17N10 and H18N11 , 2014, Trends in Microbiology.
[146] M. Plotkowski,et al. Adherence of type I Streptococcus pneumoniae to tracheal epithelium of mice infected with influenza A/PR8 virus. , 1986, The American review of respiratory disease.
[147] D. Isaacman,et al. Streptococcus pneumoniae: Description of the Pathogen, Disease Epidemiology, Treatment, and Prevention , 2005, Pharmacotherapy.
[148] Bernadette A. Thomas,et al. Global and regional mortality from 235 causes of death for 20 age groups in 1990 and 2010: a systematic analysis for the Global Burden of Disease Study 2010 , 2012, The Lancet.
[149] Robert George,et al. Bacterial Pneumonia and Pandemic Influenza Planning , 2008, Emerging infectious diseases.
[150] Janette M. Harro,et al. Clearance of Staphylococcus aureus Nasal Carriage Is T Cell Dependent and Mediated through Interleukin-17A Expression and Neutrophil Influx , 2013, Infection and Immunity.
[151] M. D. de Jonge,et al. Invasive Disease Caused by Nontypeable Haemophilus influenzae , 2015, Emerging infectious diseases.
[152] Z. Zhou,et al. Influenza virus morphogenesis and budding , 2009, Virus Research.
[153] J. Taubenberger,et al. The 1918 Spanish influenza: integrating history and biology. , 2001, Microbes and infection.
[154] Kelli L Boyd,et al. Influenza enhances susceptibility to natural acquisition of and disease due to Streptococcus pneumoniae in ferrets. , 2010, The Journal of infectious diseases.
[155] A. Abrahams,et al. A further Investigation INTO INFLUENZO-PNEUMOCOCCAL AND INFLUENZO-STREPTOCOCCAL SEPTICÆMIA: EPIDEMIC INFLUENZAL "PNEUMONIA" OF HIGHLY FATAL TYPE AND ITS RELATION TO "PURULENT BRONCHITIS." , 1919 .
[156] Kathy Hancock. Influenza A Virus , 2020, Definitions.
[157] Yan Li,et al. Aberrant innate immune response in lethal infection of macaques with the 1918 influenza virus , 2007, Nature.
[158] J. McCullers,et al. The platelet activating factor receptor is not required for exacerbation of bacterial pneumonia following influenza , 2008, Scandinavian journal of infectious diseases.
[159] R. Freeman,et al. BRANHAMELLA CATARRHALIS , 1982, The Lancet.
[160] Tasleem Samji. Influenza A: Understanding the Viral Life Cycle , 2009, The Yale journal of biology and medicine.
[161] K. Edwards,et al. The Role of Influenza and Parainfluenza Infections in Nasopharyngeal Pneumococcal Acquisition Among Young Children , 2014, Clinical infectious diseases : an official publication of the Infectious Diseases Society of America.
[162] S. Cauchemez,et al. Estimates of the reproduction number for seasonal, pandemic, and zoonotic influenza: a systematic review of the literature , 2014, BMC Infectious Diseases.
[163] J. Rehg,et al. Lethal synergism between influenza virus and Streptococcus pneumoniae: characterization of a mouse model and the role of platelet-activating factor receptor. , 2002, The Journal of infectious diseases.
[164] E. Bingen,et al. Evolving microbiology of complicated acute otitis media before and after introduction of the pneumococcal conjugate vaccine in France. , 2010, Diagnostic microbiology and infectious disease.
[165] R. McLoughlin,et al. Staphylococcus aureus and Influenza A Virus: Partners in Coinfection , 2016, mBio.
[166] I. Longini,et al. Estimates of the US health impact of influenza. , 1993, American journal of public health.
[167] Y. Harabuchi,et al. Epidemiology of Moraxella catarrhalis in children during the first 2 years of life: relationship to otitis media. , 1994, The Journal of infectious diseases.
[168] V. Davison,et al. Adherence of staphylococcus aureus to influenza A virus-infected Madin-Darby canine kidney cell cultures , 1981, Infection and immunity.
[169] R. Myerowitz,et al. Potentiation of experimental meningitis due to Haemophilus influenzae by influenza A virus. , 1977, The Journal of infectious diseases.
[170] S. Hassan,et al. Epidemiology and clinical characteristics of hospitalized patients with pandemic influenza A (H1N1) 2009 infections: the effects of bacterial coinfection , 2011, Virology Journal.
[171] W Ferreira,et al. Origin and progress of the 1968-69 Hong Kong influenza epidemic. , 1969, Bulletin of the World Health Organization.
[172] R. Shope. SWINE INFLUENZA III. FILTRATION EXPERIMENTS AND ETIOLOGY , 1931 .
[173] A. Osterhaus,et al. Influenza B virus in seals. , 2000, Science.
[174] E. Holmes,et al. Influenza Virus Reservoirs and Intermediate Hosts: Dogs, Horses, and New Possibilities for Influenza Virus Exposure of Humans , 2014, Journal of Virology.
[175] K. Nichol,et al. Benefits of influenza vaccination for low-, intermediate-, and high-risk senior citizens. , 1998, Archives of internal medicine.
[176] C. Whitney,et al. Postvaccine genetic structure of Streptococcus pneumoniae serotype 19A from children in the United States. , 2005, The Journal of infectious diseases.
[177] P. Daszak,et al. Prediction and prevention of the next pandemic zoonosis , 2012, The Lancet.
[178] A. Shelokov,et al. Bacterial adherence to virus-infected cells: a cell culture model of bacterial superinfection. , 1978, The Journal of infectious diseases.
[179] R. Murray,et al. Community-Acquired Pneumonia Due to Pandemic A(H1N1)2009 Influenzavirus and Methicillin Resistant Staphylococcus aureus Co-Infection , 2010, PloS one.
[180] J. Engel,et al. Pseudomonas aeruginosa Pili and Flagella Mediate Distinct Binding and Signaling Events at the Apical and Basolateral Surface of Airway Epithelium , 2012, PLoS pathogens.
[181] K. Posfay-Barbe,et al. Pneumococcal vaccines for children: a global public health priority. , 2012, Clinical microbiology and infection : the official publication of the European Society of Clinical Microbiology and Infectious Diseases.
[182] J. Collazos,et al. Moraxella catarrhalis bacteremic pneumonia in adults: Two cases and review of the literature , 1992, European Journal of Clinical Microbiology and Infectious Diseases.
[183] W. Brem,et al. PANDEMIC INFLUENZA AND SECONDARY PNEUMONIA AT CAMP FREMONT, CALIF. , 1918 .
[184] G. Gao,et al. Structural and functional characterization of neuraminidase-like molecule N10 derived from bat influenza A virus , 2012, Proceedings of the National Academy of Sciences.
[185] W. P. Reed,et al. Model for Studying Bacterial Adherence to Epithelial Cells Infected with Viruses , 1981, Infection and immunity.
[186] A. Gruber,et al. Influenza A Virus Infection Predisposes Hosts to Secondary Infection with Different Streptococcus pneumoniae Serotypes with Similar Outcome but Serotype-Specific Manifestation , 2016, Infection and Immunity.
[187] J. Brundage,et al. Influenza immunization and subsequent diagnoses of group A streptococcus-illnesses among U.S. Army trainees, 2002-2006. , 2008, Vaccine.
[188] Glezen Wp,et al. Emerging infections: pandemic influenza. , 1996, Epidemiologic reviews.
[189] C. Marchant. Spectrum of disease due to Branhamella catarrhalis in children with particular reference to acute otitis media. , 1990, The American journal of medicine.
[190] Lanjuan Li,et al. Bacterial coinfection is associated with severity of avian influenza A (H7N9), and procalcitonin is a useful marker for early diagnosis. , 2016, Diagnostic microbiology and infectious disease.
[191] J. McCullers,et al. Role of neuraminidase in lethal synergism between influenza virus and Streptococcus pneumoniae. , 2003, The Journal of infectious diseases.
[192] A. Kumar,et al. Emergence of a Novel Swine-Origin Influenza A (H1N1) Virus in Humans , 2010 .
[193] R. Kluge,et al. Fatal Neisseria (Branhamella) catarrhalis pneumonia in an immunodeficient host. , 1976, The American review of respiratory disease.
[194] Diederik van de Beek,et al. Epidemiology, Diagnosis, and Antimicrobial Treatment of Acute Bacterial Meningitis , 2010, Clinical Microbiology Reviews.
[195] Vance G. Fowler,et al. Staphylococcus aureus Infections: Epidemiology, Pathophysiology, Clinical Manifestations, and Management , 2015, Clinical Microbiology Reviews.
[196] Alan D. Lopez,et al. The Global Burden of Disease Study , 2003 .
[197] F. Burnet,et al. Influenza. A Survey of the Last 50 Years in the Light of Modern Work on the Virus of Epidemic Influenza. , 1942 .
[198] C. Sweet,et al. Efficacy of 2'-deoxy-2'-fluororibosides against influenza A and B viruses in ferrets , 1994, Antimicrobial Agents and Chemotherapy.
[199] Yoshihiro Kawaoka,et al. Avian flu: Influenza virus receptors in the human airway , 2006, Nature.
[200] W. Fitch,et al. Influenza B virus evolution: co-circulating lineages and comparison of evolutionary pattern with those of influenza A and C viruses. , 1988, Virology.
[201] T. Murphy. Respiratory infections caused by non-typeable Haemophilus influenzae , 2003, Current opinion in infectious diseases.
[202] A. Payne. Some aspects of the epidemiology of the 1957 influenza pandemic. , 1958, Proceedings of the Royal Society of Medicine.
[203] Glezen Wp. Emerging Infections: Pandemic Influenza , 1996 .
[204] Derek Gatherer,et al. The 2009 H1N1 influenza outbreak in its historical context. , 2009, Journal of clinical virology : the official publication of the Pan American Society for Clinical Virology.
[205] N. Cox,et al. Global epidemiology of influenza: past and present. , 2000, Annual review of medicine.
[206] M. Nahm,et al. A new pneumococcal serotype, 11E, has a variably inactivated wcjE gene. , 2010, The Journal of infectious diseases.
[207] G. Palacios,et al. Streptococcus pneumoniae Coinfection Is Correlated with the Severity of H1N1 Pandemic Influenza , 2009, PloS one.
[208] K. Kedzierska,et al. Induction of memory cytotoxic T cells to influenza A virus and subsequent viral clearance is not modulated by PB1-F2-dependent inflammasome activation , 2015, Immunology and cell biology.
[209] A. Tomasz,et al. Expression of high-level methicillin resistance in Staphylococcus aureus from the Staphylococcus sciuri mec A homologue: role of mutation(s) in the genetic background and in the coding region of mec A. , 2005, Microbial drug resistance.
[210] J. Hermoso,et al. Disruption of Allosteric Response as an Unprecedented Mechanism of Resistance to Antibiotics , 2014, Journal of the American Chemical Society.
[211] K. G. Isaacson,et al. Incidental findings , 2007, BDJ.
[212] J. McCullers,et al. Respiratory viruses predisposing to bacterial infections: role of neuraminidase , 2004, The Pediatric infectious disease journal.
[213] J. W. Smith,et al. Excess deaths attributable to influenza in England and Wales: age at death and certified cause. , 1983, International journal of epidemiology.
[214] Kelli L Boyd,et al. Influenza virus primes mice for pneumonia from Staphylococcus aureus. , 2011, The Journal of infectious diseases.
[215] A. Hakansson,et al. Adenovirus infection enhances in vitro adherence of Streptococcus pneumoniae , 1994, Infection and immunity.
[216] T. Lieu,et al. Healthcare utilization and cost of pneumococcal disease in the United States. , 2011, Vaccine.
[217] D. Look,et al. Haemophilus influenzae from patients with chronic obstructive pulmonary disease exacerbation induce more inflammation than colonizers. , 2005, American journal of respiratory and critical care medicine.
[218] W. Manosuthi. Diagnostic Importance of Relative Lymphopenia as a Marker of Swine Influenza (H1N1) in Adults , 2009 .
[219] J. Paulson,et al. The N2 neuraminidase of human influenza virus has acquired a substrate specificity complementary to the hemagglutinin receptor specificity. , 1991, Virology.
[220] Yi Guan,et al. Emergence of a novel swine-origin influenza A virus (S-OIV) H1N1 virus in humans. , 2009, Journal of clinical virology : the official publication of the Pan American Society for Clinical Virology.
[221] B. Perkins,et al. Update on Haemophilus influenzae serotype b and meningococcal vaccines. , 2000, Pediatric clinics of North America.