ライフサイエンスコーパス: pneumococcal infection

1 and thereby causes extreme susceptibility to pneumococcal infection.

2 tion is associated with an increased risk of pneumococcal infection.

3 at T cell immunity may be protective against pneumococcal infection.

4 he efficacy of beta-lactams for treatment of pneumococcal infection.

5 ell wall and provides innate defense against pneumococcal infection.

6 en implicated in increased susceptibility to pneumococcal infection.

7 play important roles in host defense against pneumococcal infection.

8 they may be involved at different stages of pneumococcal infection.

9 s neuraminidase (NA) has in priming mice for pneumococcal infection.

10 n-deficient mice were extremely sensitive to pneumococcal infection.

11 trepto-coccus pneumoniae and its role during pneumococcal infection.

12 fort to explore mucosal immunization against pneumococcal infection.

13 y to pneumolysin provides protection against pneumococcal infection.

14 e in adult mice and protect mice from lethal pneumococcal infection.

15 man antibody to PspA could protect mice from pneumococcal infection.

16 to provide optimal protection from virulent pneumococcal infection.

17 ed the role of CD40L in host defense against pneumococcal infection.

18 sodes of otitis media, and 116 deaths due to pneumococcal infection.

19 d do not protect against death from virulent pneumococcal infection.

20 BEAS-2B cell line for studying mechanisms of pneumococcal infection.

21 d elicit protective immune responses against pneumococcal infection.

22 can elicit protective immunity against fatal pneumococcal infection.

23 mplement and macrophages in a mouse model of pneumococcal infection.

24 sufficiency with increased susceptibility to pneumococcal infection.

25 tx3(-/-) mice presented more severe invasive pneumococcal infection.

26 igned to assess the role of PTX3 in invasive pneumococcal infection.

27 inflammation and resistance against invasive pneumococcal infection.

28 s of ZIP8 in macrophage and DC function upon pneumococcal infection.

29 s of natural IgM-mediated protection against pneumococcal infection.

30 peutic tool to protect against ALI caused by pneumococcal infection.

31 and the resulting protection of mice against pneumococcal infection.

32 CD) patients are at high risk of contracting pneumococcal infection.

33 astin (LPL) succumb rapidly to intratracheal pneumococcal infection.

34 this cell type in the immediate response to pneumococcal infection.

35 mutant CRP did not protect mice from lethal pneumococcal infection.

36 lly promotes a high risk of lethal, invasive pneumococcal infection.

37 ed initial protection of mice against lethal pneumococcal infection.

38 ar recruitment and bacterial loads following pneumococcal infection.

39 rways via this integrin at an early stage of pneumococcal infection.

40 genetic risk factors with predisposition to pneumococcal infection.

41 on within lung tissue, but for combating the pneumococcal infection.

42 ciated with differences in susceptibility to pneumococcal infection.

43 eliciting cross-protection immunity against pneumococcal infection.

44 of choice for patients with possible severe pneumococcal infection.

45 n vivo to reduced mouse morbidity from fatal pneumococcal infection.

46 e would become more susceptible to secondary pneumococcal infection.

47 tosis and rescues mice from life-threatening pneumococcal infection.

48 induce a protective immune response against pneumococcal infection.

49 and systemic immunity for protection against pneumococcal infection.

50 accination might be the key to prevention of pneumococcal infection.

51 nd may provide a novel target for preventing pneumococcal infection.

52 riants, each playing a different role during pneumococcal infection.

53 low CD4(+) cell counts have a higher rate of pneumococcal infection.

54 s a key molecule in the host defense against pneumococcal infection.

55 ty, improving clinical outcomes after severe pneumococcal infection.

56 te the role of ATP in neutrophil response to pneumococcal infections.

57 es now represent the best strategy to combat pneumococcal infections.

58 ne candidate for protection against invasive pneumococcal infections.

59 have notable implications for the control of pneumococcal infections.

60 the effectiveness of existing therapies for pneumococcal infections.

61 s part of the protein are protective against pneumococcal infections.

62 nd in populations with a higher incidence of pneumococcal infections.

63 moking and other factors as risk factors for pneumococcal infections.

64 y of a MAb to passively protect mice against pneumococcal infections.

65 ould be an effective strategy for preventing pneumococcal infections.

66 polymorphisms were associated with invasive pneumococcal infections.

67 ease (IBD) are at increased risk of invasive pneumococcal infections.

68 ed, which determined the clinical outcome of pneumococcal infections.

69 ers to intravenous (i.v.) penicillin use for pneumococcal infections.

70 ine antigen test in patients with bacteremic pneumococcal infections.

71 ermine what proportion could be confirmed as pneumococcal infections.

72 -infected patients have an increased rate of pneumococcal infections.

73 e inflammatory profiles are generated during pneumococcal infection, a common pattern emerged, which

74 Pneumococcal infections account for a significant propor

75 ent of, and outcomes in, septic shock during pneumococcal infection, acute respiratory distress syndr

76 ction of the protective humoral responses to pneumococcal infection, administration of MR-1 had no ef

77 Stimulation of CCL2 by macrophages upon pneumococcal infection alone required the pattern recogn

78 To identify risk factors for pneumococcal infection among human immunodeficiency viru

79 59 months were 56 (UR 37-71) per 100 000 for pneumococcal infection and 13 (UR 8-18) per 100 000 for

80 nd reduces bacterial loads during concurrent pneumococcal infection and allergic airway inflammation

81 intravenous, and intranasal routes prior to pneumococcal infection and by aerosol 24 h following inf

82 o role of AM MARCO in innate defense against pneumococcal infection and environmental particles.

83 lay an important role in the pathogenesis of pneumococcal infection and has been identified as a puta

84 S61F is an effective mucosal vaccine against pneumococcal infection and induces CD4+ Th2-type cells,

85 e in eliciting pulmonary inflammation during pneumococcal infection and is required for lethal system

86 that cigarette smoke predisposes to invasive pneumococcal infection and mortality in an animal model.

87 2 receptor subunit alpha-1 (IL-22Ra1) during pneumococcal infection and that Il22ra2(-/-) macrophages

88 is indispensable for innate immunity against pneumococcal infection and that PspA interferes with the

89 f macrophage deactivation for the outcome of pneumococcal infections and highlight the role of LCN2 a

90 t has been shown that CRP protects mice from pneumococcal infection, and an active complement system

91 Cirrhosis is a major risk factor for severe pneumococcal infection, and patients evaluated for liver

92 2) and SO(2)) can increase susceptibility to pneumococcal infection are less well understood.

93 Pneumococcal infections are common and serious complicat

94 apoptosis of a variety of brain cells after pneumococcal infection arises from inhibition of PtdCho

95 ndeed, DNA was present in the cytosol during pneumococcal infection as indicated by the activation of

96 Increasing PCV10 coverage reduced pneumococcal infection at all ages, implying at least a

97 ects, this establishes a niche for secondary pneumococcal infection by altering early cellular innate

98 a major contribution in the host response to pneumococcal infection by increasing circulating neutrop

99 /c nor CBA/N mice were protected from lethal pneumococcal infections by immunization with peptide 1-B

100 one macrophages to protect against a primary pneumococcal infection can, under conditions of splenome

101 Pneumococcal infections can lead to uncontrolled hyperin

102 Pneumococcal infections cause serious illness and death

103 protected HIV-infected adults from recurrent pneumococcal infection caused by vaccine serotypes or se

104 e primary end point was a further episode of pneumococcal infection caused by vaccine serotypes or se

105 Serum from a patient recovering from acute pneumococcal infection contained IgG antibodies specific

106 The rate of antibiotic-resistant invasive pneumococcal infections decreased in young children and

107 Lungs of mice that had recovered from pneumococcal infections did not contain organized tertia

108 her the frequency and character of secondary pneumococcal infections differed depending on the strain

109 Nkrp1b(-/-) mice are vulnerable to pneumococcal infection due to an age-dependent collapse

110 the innate immune defense mechanisms against pneumococcal infection during the early stage of acute O

111 T) are immunocompromised and at high risk of pneumococcal infections, especially in the months follow

112 of antimicrobial agents for the treatment of pneumococcal infections for specific types of infection

113 varicella, and risk of invasive disease from pneumococcal infections have declined.

114 ke daily prophylactic antibiotics to prevent pneumococcal infections; however, how much prophylactic

115 We used a database of all pneumococcal infections identified at our medical center

116 Repeated observations of pneumococcal infection in 121 United Kingdom families (O

117 atural viral infection with controlled human pneumococcal infection in 581 healthy adults screened fo

118 well as THP-1 macrophages produced MIF upon pneumococcal infection in a pneumolysin-dependent manner

119 in epidemiological investigation of invasive pneumococcal infection in adults, particularly if combin

120 generally considered a rare complication of pneumococcal infection in adults.

121 PN affects inflammation and vulnerability to pneumococcal infection in atopic asthma.

122 t OPN significantly affects vulnerability to pneumococcal infection in atopic asthma.

123 ding protein were increased (P < 0.05) after pneumococcal infection in both acutely ill and convalesc

124 e present study, we compared the severity of pneumococcal infection in C57BL/6 (B6) and 129Sv mice.

125 nia, which is a more common manifestation of pneumococcal infection in elderly persons.

126 uation and for determining the prevalence of pneumococcal infection in epidemiological studies of com

127 ctor capable of eliciting protection against pneumococcal infection in mice.

128 ining the increased vulnerability to acquire pneumococcal infection in parallel with sustained allerg

129 at there is a significant long-term risk for pneumococcal infection in patients who have undergone al

130 statin therapy might improve the outcome of pneumococcal infection in SCD.

131 an important role in hypersusceptibility to pneumococcal infection in sickle cell disease.

132 rface proteins can protect against secondary pneumococcal infection in the mouse model.

133 IL-22 was rapidly induced in the lung during pneumococcal infection in wild-type mice, and Il22(-/-)

134 d test for the early diagnosis of bacteremic pneumococcal infections in adult patients, even after an

135 aphic assay, for the diagnosis of bacteremic pneumococcal infections in hospitalized adult patients.

136 es to PspA may have some utility in treating pneumococcal infections in humans.

137 D: RSV contributed 1.87% (CI 0.89%-3.08%) to pneumococcal infections in the 65+ group, whereas 2.14%

138 sible for almost 40% of penicillin-resistant pneumococcal infections in the United States in the late

139 ule is effective for preventing vaccine-type pneumococcal infections in young children not infected w

140 at treatment with exogenous sialic acid post-pneumococcal infection increased the numbers of CFU reco

141 umoniae The incidence and mortality rate for pneumococcal infection increases dramatically after age

142 tablished lung fibrosis completely inhibited pneumococcal infection-induced fibrosis exacerbation as

143 fibrosis and further increased in mice with pneumococcal infection-induced lung fibrosis exacerbatio

144 Invasive pneumococcal infection (IPI) is the most common serious

145 Although pneumococcal infection is a serious problem worldwide an

146 at the extent of protection against systemic pneumococcal infection is influenced by target antigen a

147 the protective capacity of serum IgM against pneumococcal infection is maintained in IgM obtained fro

148 Inflammation triggered by pneumococcal infection is necessary for bacterial cleara

149 The diagnosis of severe pneumococcal infections is inadequate, relying heavily o

150 uction during concurrent influenza virus and pneumococcal infection leads to increased bacterial colo

151 mechanisms whereby pIgA may serve to control pneumococcal infections locally and upon the pathogen's

152 ity that cardiac scar formation after severe pneumococcal infection may explain why individuals who a

153 vaccination for protection against secondary pneumococcal infection, mice were immunized with pneumoc

154 ogens, whereas seasonality of other invasive pneumococcal infections might be primarily driven by inc

155 In order to monitor long-term pneumococcal infections noninvasively in living mice, a

156 role of microRNAs (miRNAs) as regulators in pneumococcal infection of human macrophages.

157 pe were found to have significant effects on pneumococcal infection of the nasopharynx, trachea, and

158 Pneumococcal infection of the respiratory tract is often

159 Pneumococcal infection often follows a primary viral inf

160 f asthma on the subsequent susceptibility to pneumococcal infection, ovalbumin (OVA)-induced allergic

161 of vaccine efficacy after dose 3 leading to pneumococcal infection), PCV13 and PPSV23 (Guillain-Barr

162 ear to have been selected for in vivo during pneumococcal infection, perhaps as a consequence of immu

163 ve inadequate antibiotic prophylaxis against pneumococcal infections, placing them at increased risk

164 Finally, in a mouse model of pneumococcal infection, pneumolysin-producing pneumococc

165 itive rechallenges, and 34 cases of invasive pneumococcal infections possibly representing vaccine fa

166 In a mouse model of secondary pneumococcal infection, protection mediated by mAb PhtD3

167 In a murine model of invasive pneumococcal infection, PTX3 was strongly induced in non

168 Pneumococcal infections remain a leading cause of death

169 Pneumococcal infections remain a leading cause of death

170 Pneumococcal infections remain the most important cause

171 other than the V1 H chain to protect against pneumococcal infection remains controversial.

172 to a 400-fold greater incidence of invasive pneumococcal infection resulting in fulminant, lethal pn

173 Pneumococcal infection risk and contact behaviour were h

174 es and failed to effectively clear pulmonary pneumococcal infection, showing that immunodeficiency re

175 HbSS mice developed severe pneumococcal infection significantly faster than C57BL/6

176 fer non-serotype-specific protection against pneumococcal infections such as pneumonia, meningitis, a

177 ith littermate controls after intrapulmonary pneumococcal infection, suggesting that IL-22 signaling

178 9Sv mice were remarkably more susceptible to pneumococcal infection than B6 mice.

179 Here, we demonstrate in mouse models of pneumococcal infection that Har is critical for coloniza

180 nnate immune recognition pathway that senses pneumococcal infection, triggers type I IFN production,

181 ore, they should be partly protected against pneumococcal infection until month 15.

182 like receptor 4 (TLR4) confers resistance to pneumococcal infection via its interaction with pneumoly

183 , pulmonary innate defense against secondary pneumococcal infection was severely suppressed.

184 though a substantial proportion of recurrent pneumococcal infections was potentially preventable by v

185 er DAS181 would lead to an increased risk of pneumococcal infection, we tested S. pneumoniae coloniza

186 Risk profiles and manifestations of pneumococcal infection were ascertained from diagnosis,

187 er 1998, 14.9% (404/2717) of those who had a pneumococcal infection were HIV infected.

188 d control patients with penicillin-sensitive pneumococcal infections were compared.

189 eads to enhanced susceptibility to secondary pneumococcal infection, which can be prevented by IFN-ga

190 e phagocytosis during innate defense against pneumococcal infection, which may explain the associatio

191 tanding of molecular and cellular biology of pneumococcal infection will allow the development of new

192 usion protein was broadly protective against pneumococcal infection, with the potential for additiona

193 inary antigen testing (UAT) when identifying pneumococcal infection would allow for antibiotic de-esc

194 inary antigen testing (UAT) when identifying pneumococcal infection would allow for antibiotic de-esc