ライフサイエンスコーパス: congenital infection

1 we should know soon whether they can prevent congenital infection.

2 on, spontaneous abortion, preterm birth, and congenital infection.

3 CMV and guinea pig CMV-are characterized by congenital infection.

4 fection of the fetus is the leading cause of congenital infection.

5 placental malaria are at increased risk for congenital infection.

6 y as 1 day of age in infants with documented congenital infection.

7 guinea pig cytomegalovirus (GPCMV) model of congenital infection.

8 to intrauterine transmission and symptomatic congenital infection.

9 an cytomegalovirus (HCMV) is the most common congenital infection.

10 to complete protection against abortion and congenital infection.

11 y and identifying CD46 as an entry factor in congenital infection.

12 excluded if they had any evidence of another congenital infection.

13 g the prM-E genes of ZIKV in mouse models of congenital infection.

14 virus has emerged as an important worldwide congenital infection.

15 rs243864 sites would be a good predictor of congenital infection.

16 cription of the major lesions caused by ZIKV congenital infection.

17 MMP2) were associated with susceptibility to congenital infection.

18 cruzi-infected mothers, which might predict congenital infection.

19 ix remodeling and the immune response during congenital infection.

20 e leading viral cause of birth defects after congenital infection.

21 ntally expressed genes and susceptibility to congenital infection.

22 e leading viral cause of birth defects after congenital infection.

23 ema, and hypoxia associated with symptomatic congenital infection.

24 e employed to determine the association with congenital infection.

25 TBPCs of the chorion in cases of symptomatic congenital infection.

26 pathogenesis of birth defects resulting from congenital infection.

27 sts, in chorionic villi-in clinical cases of congenital infection.

28 cellular immunity may be required to prevent congenital infection.

29 e in immunosuppressed patients and following congenital infection.

30 ng pregnancy, particularly in the context of congenital infections.

31 ere disease including microcephaly following congenital infections.

32 ted with neurological disorders accompanying congenital infections.

33 rformed, and the micromethod misses >=40% of congenital infections.

34 antibodies, and sera were screened for other congenital infections.

35 of pregnancy complications and prevention of congenital infections.

36 and apoptosis observed in these cells during congenital infections.

37 Therefore, ZIKV has joined the group of congenital infections.

38 responsible for the majority of symptomatic congenital infections.

39 erine hypoxia (212 [34%] of 615) followed by congenital infections (126 [20%]), neonatal infections (

40 The majority of human herpesvirus 6 (HHV-6) congenital infections (86%) originate from germ line tra

41 One congenital infection among infants of the subjects occur

42 ronic asymptomatic infection, of whom 19 had congenital infection and 11 had toxoplasmic lymphadeniti

43 with a significant reduction in the rate of congenital infection and a better outcome at 3 years of

44 an cytomegalovirus (HCMV) is the most common congenital infection and a leading cause of stillbirth,

45 n cytomegalovirus (HCMV), a leading cause of congenital infection and a major pathogen in immunocompr

46 rnal-fetal transmission of SARSCoV- 2 with a congenital infection and a pathological description of p

47 nfections have been associated with damaging congenital infection and adverse outcomes in transplant

48 i-Goutieres syndrome is a mendelian mimic of congenital infection and also shows overlap with systemi

49 ovirus (HCMV) is the major viral etiology of congenital infection and birth defects.

50 cytomegalovirus (HCMV) is a common agent of congenital infection and causes severe disease in immuno

51 ith 1 dose of cHPMPC improves the outcome of congenital infection and decreases viral replication in

52 athogen that causes severe disease following congenital infection and in immunocompromised individual

53 V-associated morbidity, a major issue during congenital infection and in immunosuppressed populations

54 Cytomegalovirus (CMV) is the most common congenital infection and infectious cause of fetal anoma

55 PCMV epithelial cell/trophoblast tropism and congenital infection and is a potentially important neut

56 ening) require counselling about the risk of congenital infection and its clinical sequelae.

57 esis may have a prognostic value in terms of congenital infection and neonatal symptomatic disease.

58 omegalovirus (CMV) is the commonest cause of congenital infection and particularly so among infants b

59 infection during pregnancy carries a risk of congenital infection and possible severe sequelae.

60 ction is essential to antenatally diagnose a congenital infection and reactivation of a past infectio

61 d recombining for long periods and can cause congenital infection and resulting clinical sequelae; an

62 The highest rate of symptomatic congenital infection and sequelae occurs in about 25% of

63 ring pregnancy exposes the fetus to risks of congenital infection and sequelae that depend heavily on

64 rtically transmitted to the fetus leading to congenital infection and severe disease.

65 explains the phenotypic overlap of AGS with congenital infection and some aspects of SLE, where an e

66 serum and urine CMV NAT at birth to evaluate congenital infection and surveillance CMV NAT at 5 addit

67 newborns were evaluated for the presence of congenital infection and symptomatic disease.

68 e data suggest multiple parasites initiate a congenital infection and that parasite factors influence

69 alovirus (cCMV) infection is the most common congenital infection and the leading acquired cause of d

70 ite reference standard was used to determine congenital infection and was based on the parallel use o

71 phenotypic overlap both with the sequelae of congenital infection and with systemic lupus erythematos

72 ated with neurological disorders in dogs and congenital infections and abortions in cattle.

73 an lead to severe pathology in patients with congenital infections and immunosuppressed patients.

74 the pregnancy complications observed during congenital infections and other IFN-induced pathologies.

75 uitous human pathogen, is a leading cause of congenital infections and represents a serious health ri

76 positive for T. cruzi were compared: 101 had congenital infection, and 116 were uninfected.

77 50%) without microcephaly, without any other congenital infection, and 14 neonates eligible to be con

78 Congenital infections are a leading preventable cause of

79 Fetal immune cell functions during congenital infections are poorly understood.

80 Zika virus and cytomegalovirus, which cause congenital infections, are highly expressed by placental

81 kinetics showed no evidence of asymptomatic congenital infection as neonates were tested negative fo

82 The clinical outcome of congenital infection at birth was similar in the two gro

83 features at birth resembling the sequelae of congenital infection but in the absence of an infectious

84 s associated with a 3-fold greater chance of congenital infection, but it is not correlated with symp

85 Congenital infection can result in permanent neurologica

86 creened positive on rapid culture or PCR had congenital infection confirmed by the reference standard

87 nital malformation, chromosomal abnormality, congenital infection, cystic periventricular leukomalaci

88 sed to syphilis during pregnancy but without congenital infection detected at birth remain unclear.

89 The primary end point was congenital infection diagnosed at birth or by means of a

90 iple gestation pregnancy, known or suspected congenital infection, documented chromosomal abnormaliti

91 Conclusions and Relevance: Congenital infection due to presumed ZIKV exposure is as

92 iple gestation pregnancy, known or suspected congenital infection, dysmorphic features of the fetus,

93 omegalovirus (CMV), the most common cause of congenital infection, exhibits extensive genetic variabi

94 acquired with possible etiologies including congenital infections, genetic causes including syndromi

95 ients, 2 (4.1%) had CMVR; zero neonates with congenital infection had CMVR.

96 ba (IPESQ) in northeastern Brazil, where the congenital infection has been particularly severe.

97 The Zika virus epidemic and associated congenital infections have prompted rapid vaccine develo

98 lacental specimens from women with untreated congenital infection, HCMV-specific hyperimmune globulin

99 irus (CMV) is the cause of the most frequent congenital infection in America; however, pregnant women

100 To search for serological evidence of congenital infection in apparently healthy neonates born

101 ed to Toxoplasma gondii, causes abortion and congenital infection in cattle.

102 glycoprotein B (gB) serum in modification of congenital infection in early pregnancy.

103 Cytomegalovirus (CMV) is the most common congenital infection in humans.

104 These 2 parameters remained associated with congenital infection in multivariate analysis.

105 ig cytomegalovirus immunity reduces rates of congenital infection in subsequent pregnancies.

106 new viral strains could be a major source of congenital infection in such populations.

107 with HCMV-mediated neuropathogenesis during congenital infection in the fetal brain.

108 CMV is the most common congenital infection in the United States.

109 g coccidian parasite that causes abortion or congenital infections in naturally or experimentally inf

110 ding sexually transmitted diseases [STDs] or congenital infections) in the first seven days of life a

111 II-vaccinated animals were protected against congenital infection, in contrast to a nonvaccinated gro

112 This review focuses on those other congenital infections, including rubella, congenital cyt

113 In this review, nonspecific findings of congenital infections initially will be described, then

114 Congenital infection is also associated with intrauterin

115 Although vaccine development to modify this congenital infection is ongoing, the unique epidemiology

116 llowed by fetal and/or neonatal testing when congenital infection is suspected.

117 KV NS1 are protective, their activity during congenital infection is unknown.

118 considered to result from reactivation of a congenital infection, it is now believed that postnatall

119 Human cytomegalovirus (CMV) causes a common congenital infection leading to long-term neurological i

120 omegalovirus is now the most common cause of congenital infections, leading to numerous abnormalities

121 ynamic changes in her fundus, which included congenital infections, Leber's Congenital Amaurosis and

122 ist, awareness of imaging features of common congenital infections may facilitate early diagnosis and

123 ephaly and show how some infants affected by congenital infection might be missed or incorrectly diag

124 s, and negative laboratory results for other congenital infections; moderately probable cases had spe

125 lls across the lifespan, yet how this common congenital infection modulates developing fetal immune c

126 Congenital infection occurred in 20/31 (65%) control pup

127 ne proteinase activity significantly reduced congenital infection of chicken embryos, as determined b

128 Congenital infection of human cytomegalovirus (CMV) is t

129 Congenital infection of human cytomegalovirus (HCMV) is

130 epithelial and mesenchymal cells, imitating congenital infection of the fetal lung.

131 f the latent infection in the mother causing congenital infection or abortion and by ingestion of ooc

132 Toxoplasmosis can be due to congenital infection or acquired infection after birth a

133 t from secondary, disruptive causes, such as congenital infection or other in utero brain injuries.

134 r hypoxia (130 [72%] of 180 stillbirths) and congenital infection or sepsis (27 [15%]).

135 e 5 features that are rarely seen with other congenital infections or are unique to congenital Zika v

136 er, it can also be caused, in rare cases, by congenital infections or maternal allo-immune disease.

137 ssociated with a high risk of fetal loss and congenital infection, particularly during the first trim

138 thogenic consequences of nitric oxide during congenital infection promote developmental defects that

139 In a congenital infection protection study, animals were prot

140 In a congenital infection protection study, GP85 DISC-vaccina

141 Lessons from other congenital infections provide valuable clues about the c

142 nse, maternal viral load, pup mortality, and congenital infection rates in the vaccine and control gr

143 In cases of congenital infection, reduced responsiveness of the plac

144 ularly transplant patients and patients with congenital infections, respectively.

145 o congenital T. cruzi infection (hereafter, "congenital infection"): rs2014683 and rs1048988 in ALPP;

146 y-onset neonatal form, highly reminiscent of congenital infection seen particularly with TREX1 mutati

147 Congenital infection status was ascertained in 554 cases

148 rnal immunization with tetanus toxoid and to congenital infections such as rubella, toxoplasma, cytom

149 The acronym TORCH is used to refer to congenital infections, such as toxoplasmosis, other infe

150 ital CMV infection (cCMV) is the most common congenital infection that can cause long-term impairment

151 iew, we summarise important aspects of major congenital infections that can cause microcephaly, and d

152 e development of HCMV vaccines is to prevent congenital infection, the animal model in question must

153 ystem caused by human cytomegalovirus (HCMV) congenital infection, the mechanism of HCMV neuropathoge

154 ents have been made in understanding various congenital infections, the mechanisms of parasitic infec

155 and motor disabilities, are shared by other congenital infections, there are 5 features that are rar

156 Using the GPCMV model of congenital infection, this study demonstrates that two r

157 its from treating cases of recently acquired congenital infection to destroy any remaining proliferat

158 The rate of congenital infection was 30% (18 fetuses or infants of 6

159 Congenital infection was assessed using CMV DNA quantita

160 The genotype of parasite strains causing congenital infection was determined by direct PCR amplif

161 Probabilities of congenital infection were <10% for maternal infections b

162 ar involvement in infants with presumed ZIKV congenital infection were more often seen in infants wit

163 Strains causing congenital infections were also typed indirectly based o

164 mples of 7 of the 8 infants (88%), and other congenital infections were ruled out.

165 In south Asia, intrauterine hypoxia and congenital infections were the major causes of neonatal

166 ropic viruses that have the ability to cause congenital infection, which can result in microcephaly o

167 Human cytomegalovirus (HCMV) can cause congenital infections, which are a leading cause of chil

168 Congenital infection with cytomegalovirus (CMV) can indu

169 Congenital infection with cytomegalovirus (CMV) is an im

170 Congenital infection with cytomegalovirus is a major cau

171 he first neonate documented to have survived congenital infection with Ebola virus.

172 placentas from symptomatic and asymptomatic congenital infection with HCMV DNA in amniotic fluid and

173 Congenital infection with human cytomegalovirus (CMV) is

174 Congenital infections with pathogens such as Zika virus,

175 on, there is a need to identify maternal and congenital infections with sensitive and specific testin

176 .8-fold increase (30% vs 56%) in the rate of congenital infection without HIG (adjusted odds ratio [A

177 8 fold increase (30% vs. 56%) in the rate of congenital infection without HIG (P<0.0001, adjusted odd

178 an cytomegalovirus (HCMV) is the most common congenital infection worldwide and a frequent cause of h

179 MV) is the most common virus associated with congenital infection worldwide and is a major cause of s

180 ytomegalovirus (CMV) is the leading cause of congenital infection worldwide and the most common cause

181 alovirus (CMV) is the most frequent cause of congenital infection worldwide; congenital CMV may lead

182 CMV) represents one of the leading causes of congenital infections worldwide.