ライフサイエンスコーパス: neonatal infection

1 al age, low birth weight, preterm birth, and neonatal infections).

2 It can present as a maternal-neonatal infection.

3 s consistent with an environmental source of neonatal infection.

4 rain contribute to disease outcome following neonatal infection.

5 is, this pathogen remains a leading cause of neonatal infection.

6 smission, and GBS remains a leading cause of neonatal infection.

7 itis is strongly linked to preterm birth and neonatal infection.

8 le in inhibition of antibody responses after neonatal infection.

9 ) is the leading cause of invasive bacterial neonatal infections.

10 eptococcus (GBS) is the major cause of human neonatal infections.

11 preterm labor, stillbirths, fetal injury, or neonatal infections.

12 complication of group B Streptococcus (GBS) neonatal infections.

13 carbapenem resistance genes of CRKP causing neonatal infections.

14 o preterm births, stillbirths, or late-onset neonatal infections.

15 HSV-2 to generate annual numbers of incident neonatal infections.

16 ositive bacterium that is a leading cause of neonatal infections.

17 ease morbidity and mortality associated with neonatal infections.

18 s to miscarriage, preterm birth, and serious neonatal infections.

19 oup B streptococci (GBS), the major cause of neonatal infections.

20 host defenses may attenuate the virulence of neonatal infections.

21 g the most common causes of life-threatening neonatal infections.

22 ) is the foremost bacterial cause of serious neonatal infections.

23 llowed by congenital infections (126 [20%]), neonatal infections (122 [20%]), and respiratory distres

24 epsis, pneumonia and meningitis (combined as neonatal infections; 331 [30%]), and asphyxia (151 [14%]

25 ses from 372 centres, including 107 maternal-neonatal infections, 427 cases of bacteraemia, and 252 c

26 .4]) vs 4.4% [1.9-8.1]), and antibiotics for neonatal infection (74.7% [55.3-90.1] vs 96.4% [94.0-98.

27 part of DEVANI (Design of a Vaccine against Neonatal Infections), a pan-European program.

28 Neonatal infection, a leading cause of neonatal death in

29 unological and pathological ramifications of neonatal infection acquired via this natural route.

30 income country provides a baseline burden of neonatal infections against which the impact of future c

31 practices that are critical to maternal and neonatal infection along the continuum of care.

32 that reported effect measures on the risk of neonatal infection among newborns exposed to maternal in

33 This large cohort study suggests that neonatal infections among ELBW infants are associated wi

34 s, illness severity, vaccinations, and early neonatal infections among obstetric patients during the

35 sistant HSV-2 mutants can develop rapidly in neonatal infection and cause clinically significant dise

36 implicated as one of the causative agents in neonatal infection and causes a septicemia thought to be

37 CpG was administered in the interval between neonatal infection and challenge.

38 Hospital-acquired neonatal infections and AMR are a major burden in Africa

39 Streptococcus (GBS) is the leading cause of neonatal infections and an important pathogen in pregnan

40 CRKP contributes to a considerable number of neonatal infections and leads to significant neonatal mo

41 term babies, particularly those experiencing neonatal infections and severe pathology.

42 ht represent a therapeutic tool for treating neonatal infections and support the view that breastfeed

43 gnostic methods for identifying maternal and neonatal infection, and regarding optimal prevention and

44 of more severe symptoms such as eye disease, neonatal infection, and, in rare cases, encephalitis.

45 tted, have been implicated in preterm birth, neonatal infections, and chronic lung disease of prematu

46 tal jaundice, neonatal respiratory distress, neonatal infections, and congenital malformations.

47 e severe diseases, such as puerperal sepsis, neonatal infections, and necrotizing myometritis.

48 pathogens responsible for most of the severe neonatal infections, and the time it takes to induce pro

49 Aetiological agents of neonatal infection are difficult to identify because the

50 Neonatal infections are a leading cause of childhood mor

51 Preterm birth and neonatal infections are both associated with mortality a

52 Aetiological data for neonatal infections are essential to inform policies and

53 Neonatal infections are estimated to account for a quart

54 Neonatal infections are frequent complications of extrem

55 h (aRR, 1.25; 95% CI, 1.13-1.30), and having neonatal infections (aRR, 1.42; 95% CI, 1.17-1.73), any

56 regnancy may set back biological evidence of neonatal infection at birth and underline the need for a

57 longed or unregulated treatment with oxygen, neonatal infection, blood transfusion, and mechanical in

58 to term is associated with increased risk of neonatal infection, but immediate delivery is associated

59 hat developed tumors 7 to 8 months following neonatal infection by polyomavirus (PYV) wild-type strai

60 We estimated the number of incident neonatal infections by maternal age, and we generated se

61 Neonatal infections cause a significant proportion of de

62 ossible differences or clinical relevance of neonatal infection caused by different biotypes or newer

63 review of studies reporting population-based neonatal infections caused by CRKP in combination with a

64 Early neonatal infections caused by extended-spectrum-beta-lac

65 We interpret these data to indicate that neonatal infection causes significant neuronal sequestra

66 Maternal vaccination to prevent neonatal infection could reduce the burden of K. pneumon

67 The incidence of early-onset neonatal infections decreased by 65 percent, from 1.7 pe

68 Any neonatal infection did not differ between treatment grou

69 neonatal disease may lead to an increase in neonatal infections due to resistant organisms.

70 We aimed to estimate the risk of neonatal infection (excluding sexually transmitted disea

71 By contrast, neonatal infection failed to protect the airways and res

72 rnal antibody concentrations and the risk of neonatal infection has been investigated in US and Afric

73 Few population-level estimates of invasive neonatal infections have been reported from sub-Saharan

74 gens, leading to pyelonephritis or potential neonatal infection if untreated.

75 n is a viable strategy for the prevention of neonatal infections.IMPORTANCE Herpes simplex virus is a

76 mpregnate the fetus during pregnancy, on GBS neonatal infection in cellular and mouse models of hormo

77 Streptococcus agalactiae, the main cause of neonatal infection in humans.

78 Neonatal infection in the first week of life is associat

79 ished that G10P[11] RVs are a major cause of neonatal infection in Vellore, India, with half of infec

80 ll important approaches to prevent and treat neonatal infections in additional to regular neonatal se

81 ts define an important role for gamma34.5 in neonatal infections in contrast to other studies indicat

82 at emerged as the leading cause of bacterial neonatal infections in Europe and North America during t

83 GBS are a major cause of neonatal infections in humans, and type-specific antibod

84 frequently been associated with asymptomatic neonatal infections in India.

85 line treatment of serious community-acquired neonatal infections in rural Bangladesh, which has a mod

86 Using data from the Aetiology of Neonatal Infections in south Asia (ANISA) cohort, we aim

87 associated with symptomatic and asymptomatic neonatal infections in Vellore, India.

88 g or after birth results in life-threatening neonatal infections, including pneumonia, sepsis, and me

89 e role for aberrant neuronal iron storage in neonatal infection-induced disturbances in myelination a

90 Neonatal infection is a major cause of morbidity and mor

91 e vaccine, and antibody generated by primary neonatal infection is poorly protective against reinfect

92 The epidemiology of neonatal infections is complex; however, they are in lar

93 Because of the fulminant nature of neonatal infection, it would be useful to have a rapid a

94 eumoniae is the most common pathogen causing neonatal infections, leading to high mortality worldwide

95 We have reported that neonatal infection leads to memory impairment after an i

96 d early-life IL-27 on the host response in a neonatal infection model while also defining the cell an

97 is increased susceptibility and severity of neonatal infections necessitating admission to the inten

98 This study found that neonatal infection of BALB/c mice with MCMV resulted in

99 of peripheral and thymic CD4(+) cells during neonatal infection of BALB/c mice.

100 Neonatal infection of CD2-Runx2 mice with Moloney murine

101 Neonatal infection of most mouse strains with lymphocyti

102 The neuronal pathology caused by neonatal infection of rats with the PVC-211 murine leuke

103 Neonatal infection of the mouse T lymphotropic virus (MT

104 owel in adult mammals, but their role during neonatal infection of the small bowel is not well establ

105 Neonatal infection of these mice with Moloney murine leu

106 We and others previously demonstrated that neonatal infection of ZIKV results in heart failure and

107 o assess the impact of suspected early-onset neonatal infection on tactile- and noxious-evoked respon

108 ne-encoded TCR clonotypes, characteristic of neonatal infection, persisted in the brain, albeit somet

109 ncluded histories of perinatal difficulties, neonatal infections, postnatal brain infections, and tra

110 ternal infection, vertical transmission, and neonatal infection published from January 1, 1960 to Mar

111 size that acute brain inflammation caused by neonatal infection reduces the bioavailability of iron r

112 The neonatal infection resulted in severe CNS disease by 3-4

113 The authors examined whether neonatal infection results in memory impairments in adul

114 s suggests that the impact of these cells on neonatal infection risk and progression may be limited.

115 KMC), and antibiotics for clinically defined neonatal infection (sepsis, pneumonia, or meningitis), w

116 expression analysis of rat brains following neonatal infection showed increased expression of kynure

117 Secondary outcomes were neonatal infections (skin, umbilical, eye and ear infect

118 Neonatal infection still carries a high mortality and mo

119 More population-based neonatal infection studies and improved routine surveill

120 ist, aims to improve scientific reporting of neonatal infection studies, increasing data utility and

121 proved scientific reporting of observational neonatal infection studies, to increase comparability an

122 The underlying mechanism of neonatal infection susceptibility has generally been ass

123 Thus, our study challenges the notion that neonatal infection susceptibility is due to immune cell-

124 To devise treatment strategies for neonatal infections, the population-level incidence and

125 y has decreased the incidence of early-onset neonatal infection, these measures do not prevent ascend

126 on and oral antibiotic therapy for suspected neonatal infections to a basic preventive and promotive

127 further evaluated for potential relevance to neonatal infection, transplantation, and acquired immuno

128 Any neonatal infection was also analysed.

129 Presumed neonatal infection was more common in infants in the tri

130 rize the effects of maternal UFP exposure on neonatal infection, we exposed time-mated C57Bl/6n mice

131 Four neonatal infections were reported (fever, bronchiolitis,

132 Although few congenital malformations or neonatal infections were seen among exposed neonates, wo

133 vents that occur in the brain as a result of neonatal infection, which likely contribute to cognitive

134 tudied the induction of adaptive immunity to neonatal infection with a murine retrovirus, under condi

135 ultures, there were 37 631 incident cases of neonatal infection with at least one pathogen isolated.

136 inally enrolled to assess the association of neonatal infection with neurodevelopment.

137 contrast to infection of mature BALB/c mice, neonatal infection with rhinovirus promotes an IL-25-dri

138 Neonatal infection with Streptococcus agalactiae (group

139 taphylococcus (MRS) has been associated with neonatal infections, with colonization of the anovaginal

140 ith ruptured membranes close to term reduces neonatal infection without increasing other morbidity.