ライフサイエンスコーパス: spontaneous abortion

1 rine growth retardation, perinatal death and spontaneous abortion.

2 mmonly cited as an important risk factor for spontaneous abortion.

3 ng pregnancies than in pregnancies ending in spontaneous abortion.

4 ort study (n = 5,104) of trihalomethanes and spontaneous abortion.

5 clinically recognized pregnancies result in spontaneous abortion.

6 controls for a nested case-control study of spontaneous abortion.

7 t may precede a population-level increase in spontaneous abortion.

8 axanthine concentrations are associated with spontaneous abortion.

9 d were associated with a significant risk of spontaneous abortion.

10 y because of a significantly reduced rate of spontaneous abortion.

11 caffeine is unlikely to increase the risk of spontaneous abortion.

12 intake during pregnancy resulted in risk of spontaneous abortion.

13 to recall antigens, 9/13 (69%) had a repeat spontaneous abortion.

14 e events play a role in chromosomally normal spontaneous abortion.

15 ly to be accompanied by an increased risk of spontaneous abortion.

16 ith an almost three-fold increase in risk of spontaneous abortion.

17 xpected stressor-will precede an increase in spontaneous abortion.

18 d as being potentially involved in recurrent spontaneous abortion.

19 egression to estimate hazard ratios (HRs) of spontaneous abortion.

20 sarean delivery, preeclampsia/eclampsia, and spontaneous abortion.

21 ing the effect of an exposure on the risk of spontaneous abortion.

22 mes or between HCB and chemical pregnancy or spontaneous abortion.

23 tivation (HSXI) is associated with recurrent spontaneous abortion.

24 pregnancies were followed to detect clinical spontaneous abortions.

25 gnancies but are diminished in patients with spontaneous abortions.

26 pregnancies were followed to detect clinical spontaneous abortions.

27 f the adolescents and women who did not have spontaneous abortions.

28 ors in meiosis can lead to birth defects and spontaneous abortions.

29 born, and four pregnancies resulted in early spontaneous abortions.

30 eatening bleeds, impaired wound healing, and spontaneous abortions.

31 g microcephaly as well as arthrogryposis and spontaneous abortions.

32 ts were also asked about any stillbirths and spontaneous abortions.

33 ation of HSXI with chromosomally normal male spontaneous abortions.

34 There were 17 elective abortions, 12 spontaneous abortions, 1 molar pregnancy, and 23 live bi

35 , 21.9% in legal induced abortions, 13.8% in spontaneous abortions, 1.3% in ectopic pregnancies, and

36 ective incidence rates, 2.4% and 2.3%), 1426 spontaneous abortions (12.2% and 12.7%), 552 preterm bir

37 tio, in propensity-score-matched analyses of spontaneous abortion (1849 exposed women vs. 7396 unexpo

38 1 premature) and 27 fetal complications (22 spontaneous abortions, 2 warfarin embryopathies, 1 still

39 95% confidence interval [CI], 0.90 to 1.58), spontaneous abortion (20 cases among 463 exposed pregnan

40 Among those who had spontaneous abortions, 28.9 percent used cocaine on the

41 95% confidence interval [CI], 2.05 to 2.75); spontaneous abortion, 50.3% vs. 38.6% (hazard ratio, 1.6

42 de was not associated with increased risk of spontaneous abortion (757 cases [20.0 {95% CI, 18.5-21.4

43 A total of 487 women who had spontaneous abortions (82 percent) and 2087 controls (82

44 ference in conception failures (defined as a spontaneous abortion), abortion secondary to a birth def

45 HR = 1.91, 95% CI: 1.35, 2.70), and previous spontaneous abortion (adjusted HR = 1.49, 95% CI: 1.09,

46 dies that assessed outcomes of stillbirth or spontaneous abortion after administration of influenza v

47 ate in aPL positive women who have recurrent spontaneous abortions after IVF.

48 ciations between cocaine and tobacco use and spontaneous abortion among pregnant adolescents and wome

49 The literature finds elevated risk of spontaneous abortion among women who report adverse fina

50 However, the adjusted odds ratio for spontaneous abortion among women with serum paraxanthine

51 with spontaneous abortion, but there were no spontaneous abortions among eight pregnancies of five TB

52 ombinations were different between recurrent spontaneous abortion and control women.

53 births, and sons, the history of fetal loss (spontaneous abortion and elective termination), and the

54 occurred in conjunction with a high rate of spontaneous abortion and low reproductive success.

55 The odds ratio for risk of recurrent spontaneous abortion and low xanthine oxidase activity (

56 tional length and timing of first induced or spontaneous abortion and ovarian cancer risk.

57 was no indication of the increased rates of spontaneous abortion and overall infant mortality that h

58 been associated both with increased habitual spontaneous abortion and pregnancy complications (eg, pl

59 between IA in combination with a history of spontaneous abortion and risk of preeclampsia.

60 Hazard ratios (HRs) for spontaneous abortion and stillbirth, estimated using pro

61 o EGE was associated with increased risks of spontaneous abortion and subfertility (i.e., taking more

62 There were 4 spontaneous abortions and 1 termination.

63 There were 32 fetal losses; 18 were spontaneous abortions and 14 were fetal deaths.

64 3%) were terminated, and there were 19 (17%) spontaneous abortions and 2 (2%) intrauterine deaths.

65 paring 24 cases with recurrent (two or more) spontaneous abortions and 21 controls with two or more l

66 5 (45%) live births from 14 mothers, with 13 spontaneous abortions and 5 elective terminations.

67 omosome segregation are the leading cause of spontaneous abortions and birth defects.

68 lformations (overall and organ specific) and spontaneous abortions and during the second/third trimes

69 111 pregnancies with an overall incidence of spontaneous abortions and postpartum hemorrhage of 19.8%

70 Incident spontaneous abortions and stillbirths were reported in 2

71 with MMS group had the highest incidence of spontaneous abortions and the highest infant mortality r

72 e disorders, as affected women have frequent spontaneous abortions and the sex ratio of their live of

73 h a tendency for severe bleeding, a risk for spontaneous abortion, and a high rate of spontaneous int

74 ts, including sexual development impairment, spontaneous abortion, and breast cancer.

75 pelvic inflammatory disease, preterm birth, spontaneous abortion, and infertility in women, yet trea

76 omen causes intrauterine growth restriction, spontaneous abortion, and microcephaly.

77 male patients and one male patient) ended in spontaneous abortion, and one patient had an elective ab

78 s such as neural tube defects, preeclampsia, spontaneous abortion, and premature delivery.

79 ries (selected according to power criteria), spontaneous abortion, and stillbirth.

80 (4 twin pairs), 1 fetal death/stillbirth, 11 spontaneous abortions, and 1 elective termination.

81 lth Department on the number of live births, spontaneous abortions, and induced abortions.

82 .2%) births with low birth weight, 11 (1.7%) spontaneous abortions, and six (0.9%) stillbirths.

83 cessful uterine pregnancies, two (15%) early spontaneous abortions, and two (15%) tubal pregnancies.

84 Most studies of spontaneous abortion are subject to left truncation, bec

85 3.5; 95% confidence interval [CI], 1.5-8.2), spontaneous abortion (aRR = 5.9; 95% CI, 1.8-19.7), intr

86 n the authors' examples, treating history of spontaneous abortion as a confounder introduces bias if

87 raising concerns for worker infertility and spontaneous abortions as well as mental retardation and

88 ted with PCBs and DDE, and increased odds of spontaneous abortion associated with DDE, suggest that t

89 There was a significantly increased risk of spontaneous abortion associated with fluconazole exposur

90 ribe findings from three fatal cases and two spontaneous abortions associated with Zika virus infecti

91 undergoing uterine aspiration for induced or spontaneous abortion at 5 to 12 weeks of gestation who d

92 day (E)15.5 mice and rescues their pups from spontaneous abortion at doses many-fold lower than those

93 ured serum paraxanthine in 591 women who had spontaneous abortions at less than 140 days' gestation a

94 Among ever-pregnant women, a spontaneous abortion before a first birth provided signi

95 rombotic), who had experienced 3 consecutive spontaneous abortions before the 10th week of gestation

96 thrombosis who had experienced 3 consecutive spontaneous abortions before the 10th week of gestation

97 otic women who had experienced 3 consecutive spontaneous abortions before the 10th week of gestation

98 preceded by 1 month a rise in the number of spontaneous abortions (beta = 33.19 losses/month, 95% co

99 ermline from aneuploidies that could lead to spontaneous abortions, birth defects and cancer predispo

100 nducible in villi cells from first-trimester spontaneous abortions but not from first-trimester elect

101 lthy co-twin pregnancies have a high risk of spontaneous abortion, but about 40% result in livebirths

102 king and cocaine use may be risk factors for spontaneous abortion, but data supporting such a link ar

103 ernal vitamin status contributes to clinical spontaneous abortion, but the role of B-vitamin and homo

104 ntaining EGE, there was no increased risk of spontaneous abortion, but there was a nonsignificant inc

105 four of 62 (6.4%) pregnancies terminate with spontaneous abortion, but there were no spontaneous abor

106 ob at least once a day increases the risk of spontaneous abortion by 70% (relative risk (RR) = 1.71,

107 e association of 11 putative risk factors to spontaneous abortion by controlling for 19 potential con

108 statistically significant increased risk of spontaneous abortion compared with risk among unexposed

109 ring their childhood had increased odds of a spontaneous abortion compared with women reporting that

110 rough 22 weeks' gestation, 147 experienced a spontaneous abortion, compared with 563 among 13,246 une

111 posed cohort) and evaluated risk factors for spontaneous abortion, complications of pregnancy, and ad

112 Twenty-four percent of the risk of spontaneous abortion could be related to cocaine or toba

113 mboembolism, and valve failure, and/or fetal spontaneous abortion, death, and congenital defects in p

114 rogenital tract of a woman who experienced a spontaneous abortion during month 6 of pregnancy.

115 methods controlled for temporal patterns in spontaneous abortion (e.g., seasonality, trend) and chan

116 with a number of diseases such as emphysema, spontaneous abortion, eclampsia, and several forms of ca

117 ilbestrol in utero have an increased risk of spontaneous abortion, ectopic pregnancy, and preterm del

118 ous surgical abortion, increases the risk of spontaneous abortion, ectopic pregnancy, preterm birth,

119 A total of 400 adolescents and women had spontaneous abortions either at study entry or during fo

120 The small number of spontaneous abortions following clinical detection of pr

121 The authors examined the risk of spontaneous abortion from environmental tobacco smoke (E

122 following a nonviable trisomy diagnosed in a spontaneous abortion (from Genzyme data only), the SMR f

123 trols and 100 patients affected by recurrent spontaneous abortion, from the same ethnic background.

124 one 2-month-old baby, and two placentas from spontaneous abortions, from Brazil were submitted to the

125 Results of studies on paternal smoking and spontaneous abortions have been inconsistent.

126 In females having spontaneous abortions, hCG provoked not only an augmenta

127 cation, race, residence, gravidity, maternal spontaneous abortion history, perinatal complications, a

128 118 of 2823 exposed to topical azoles had a spontaneous abortion (HR, 1.62 [95% CI, 1.26-2.07]); 20

129 ssociation of a specific locus for recurrent spontaneous abortion in a cytogenetically normal family.

130 increased incidence of oocyte aneuploidy and spontaneous abortion in aging females.

131 e in humans in general and for prevention of spontaneous abortion in at-risk populations in particula

132 A woman with a history of spontaneous abortion in her immediately prior pregnancy

133 ymbionts may be undermined by a high rate of spontaneous abortion in infected females of this vivipar

134 -positive intracellular pathogen that causes spontaneous abortion in pregnant women, as well as septi

135 ticemia in immunocompromised individuals and spontaneous abortion in pregnant women.

136 mplantation failure, chemical pregnancy, and spontaneous abortion in women undergoing in vitro fertil

137 nancy losses in 500 conceptions and 36 (10%) spontaneous abortions in 372 clinical pregnancies.

138 rcentages (range: 50%-100%) among women with spontaneous abortions in four karyotype groups-trisomy (

139 been responsible for a substantial number of spontaneous abortions in Jersey dairy cattle throughout

140 e aneuploidy in derivative mouse embryos and spontaneous abortions in women.

141 Pregnancy complications (spontaneous abortion, intrauterine-fetal-death, and pret

142 berg's finding that adjusting for history of spontaneous abortion introduces bias in her original sce

143 feine during pregnancy increases the risk of spontaneous abortion is controversial.

144 caffeine-metabolizing enzymes with recurrent spontaneous abortion is suggested but may also be due to

145 Spontaneous abortion is the most common adverse reproduc

146 of translocations in couples with recurrent spontaneous abortions is higher than that in the general

147 unemployment with monthly trends in reported spontaneous abortion, lagged by 1 month.

148 en pregnancy loss was classified as either a spontaneous abortion (loss at <20 wk) or a stillbirth (l

149 st pathogens, and that inflammation-mediated spontaneous abortion may benefit mother and pathogen.

150 % confidence interval 1.1-5.7) and timing of spontaneous abortions (miscarriages).

151 t trimester includes normal early pregnancy, spontaneous abortion, molar pregnancy, and ectopic pregn

152 ed of women attending a medical center for a spontaneous abortion (n=229); the comparison group was a

153 ods to monthly counts of clinically detected spontaneous abortions (n = 157,449) and the unemployment

154 egnant women with a history of three or more spontaneous abortions, n = 28; group 3, healthy pregnant

155 Fetal outcomes were defined as spontaneous abortions, neonatal mortality, fetal deaths,

156 Spontaneous abortion occurred in 371 of 4,156 (8.9%) cas

157 Spontaneous abortions occurred in 11 pregnancies at 10.8

158 characterized by "abortion storms" in which spontaneous abortion occurs in almost 100% of pregnant r

159 tween antidepressant medication exposure and spontaneous abortion (odds ratio [OR], 1.47; 95% CI, 0.9

160 ciated with an increase in the occurrence of spontaneous abortion (odds ratio, 1.4; 95 percent confid

161 ndently associated with an increased risk of spontaneous abortion (odds ratio, 1.8; 95 percent confid

162 nt negative life events increase the odds of spontaneous abortion of a chromosomally normal conceptus

163 le) by, among other mechanisms, inducing the spontaneous abortion of males who would have been born l

164 Women who had had three or more spontaneous abortions of unknown cause were enrolled in

165 h (OR = 2.0; 95% CI: 1.0, 3.8) rather than a spontaneous abortion or elective termination (OR = 0.96;

166 investigated NTD risk resulting from a prior spontaneous abortion or elective termination and a short

167 e immediately prior pregnancy had ended in a spontaneous abortion or elective termination in comparis

168 ter pregnancy could begin with an induced or spontaneous abortion or with the delivery of a live or s

169 There were 5 spontaneous abortions or stillbirths in the treatment gr

170 ation was found between arsenic exposure and spontaneous abortion (OR = 1.01, 95% CI: 0.38, 2.70) or

171 iparity (OR, 2.98; 95% CI, 1.18-7.50), prior spontaneous abortion (OR, 0.11; 95% CI, 0.02-0.53), diff

172 ot significantly associated with the risk of spontaneous abortion (OR, 1.04; 95% CI, 0.76-1.43; 50 ex

173 conditions, such as Guillain-Barre syndrome, spontaneous abortion, or even death, will occur in coinc

174 individual malformation categories assessed, spontaneous abortion, or stillbirth.

175 ime window of interest for malformations and spontaneous abortion (organogenesis), and the second/thi

176 ancy was not associated with the risk of SGA/spontaneous abortions/overall malformations.

177 pant analyses) were more likely to result in spontaneous abortion (P < 0.05).

178 inance was also associated with a history of spontaneous abortion (p </= 0.02).

179 e examined the impact of disease activity on spontaneous abortions, perinatal mortality, preterm deli

180 h (pooled OR, 1.89 [95% CI, 1.25-2.85]), and spontaneous abortion (pooled OR, 1.82 [95% CI, 1.10-3.03

181 cy complications in human, such as recurrent spontaneous abortion, preeclampsia, and intrauterine gro

182 history of alcohol-related disease, previous spontaneous abortion, pregnancy complications, smoking (

183 es during pregnancy has been associated with spontaneous abortion, prematurity, and congenital and ne

184 We collected data on live births, spontaneous abortions, prematurity, abortions secondary

185 Risks of ectopic pregnancy, spontaneous abortion, preterm birth (at <37 weeks of ges

186 Adverse pregnancy events like spontaneous abortion, preterm birth and fetal demise wer

187 eeclampsia, intrauterine growth restriction, spontaneous abortion, preterm birth, and congenital infe

188 ts had complications of pregnancy, including spontaneous abortion, preterm labor, and low amniotic fl

189 te capable of crossing the placenta to cause spontaneous abortion, preterm labor, or significant dise

190 3 ligand, led to normal pregnancy rates in a spontaneous abortion-prone model.

191 The overall spontaneous abortion rate was 9.3% (48 of 516 patients).

192 The spontaneous abortion rate was approximately twice as hig

193 owed a statistically significant increase in spontaneous-abortion rate in the females carrying the tr

194 egnancy rates, multiple gestation rates, and spontaneous abortion rates as younger recipients.

195 g EGE was associated with increased risks of spontaneous abortion (relative risk in the high exposure

196 95% confidence interval [CI], 0.76 to 1.41), spontaneous abortion (relative risk, 0.87; 95% CI, 0.72

197 daily has a marginally significant impact on spontaneous abortion (RR = 1.35, 95% CI 1.02-1.78).

198 month of pregnancy also elevates the risk of spontaneous abortion (RR = 2.34, 95% CI 1.45-3.77).

199 Therefore, recurrent spontaneous abortion (RSA) may represent a failure of th

200 disorders of arterial and/or venus systems, spontaneous abortion(s) or thrombocytopenia.

201 with exposure to MMF: 15 livebirths (LB), 11 spontaneous abortions (SA).

202 (NSAID) metabolism and related pathways and spontaneous abortion (SAB, gestation < 20 weeks) risk.

203 ogenes can induce systemic infection causing spontaneous abortion, septicemia, and meningitis, studie

204 ive, intracellular bacterium that can induce spontaneous abortion, septicemia, and meningitis.

205 velopmental effects, e.g., low birth weight, spontaneous abortion, stillbirth, and birth defects.

206 erial pathogen Listeria monocytogenes causes spontaneous abortion, stillbirth, and preterm labor in h

207 Outcomes included spontaneous abortion, stillbirth, major birth defect, sm

208 Odds ratios for spontaneous abortion, stillbirth, neonatal mortality, an

209 Spontaneous abortion studies that recruit pregnant women

210 ications in human pregnancy such as repeated spontaneous abortion, sudden intrauterine unexpected foe

211 Spontaneous abortion terminated four of 56 (7%) pregnanc

212 oncentration was higher in the women who had spontaneous abortions than in the controls (752 vs. 583

213 se-control study of caffeine metabolites and spontaneous abortion that was nested within the Collabor

214 study of 73 women with and 141 women without spontaneous abortion, the authors determined the activit

215 with two or more livebirths and no previous spontaneous abortions, the unadjusted odds ratio for low

216 weekly low-dose MTX has been associated with spontaneous abortions, this is, to our knowledge, the fi

217 pute, we examined 91 cases of human triploid spontaneous abortions to (1) determine the mechanism of

218 The pooled estimate for spontaneous abortion was not significant (RR, 0.91; 95%

219 The odds ratio for spontaneous abortion was not significantly elevated in t

220 The number of spontaneous abortions was estimated by using previously

221 An unexpected high rate of spontaneous abortions was observed.

222 sarean delivery, preeclampsia/eclampsia, and spontaneous abortion were also evaluated.

223 -42 years who visited a medical center after spontaneous abortion were interviewed about positive and

224 or fetal death, or incomplete or inevitable spontaneous abortion) were randomly assigned to receive

225 common practice of adjusting for history of spontaneous abortion when estimating the effect of an ex

226 os is thought to cause a large proportion of spontaneous abortions; when it occurs in specific cell l

227 ly-derived cases predominate among "typical" spontaneous abortions, whereas maternally-derived cases

228 iated with a significantly increased risk of spontaneous abortion, which occurred in 1.1% of exposed

229 women from our previous study of karyotyped spontaneous abortions who, in 1993, were age >/=44 years

230 1 women whose index pregnancy was a trisomic spontaneous abortion with two groups: women whose index

231 pregnant women would be predicted to have a spontaneous abortion within 1 day of vaccination.

232 ally bias the results even though history of spontaneous abortion would meet some definitions of a co