ライフサイエンスコーパス: perinatal mortality

1 increase in pregnancy loss (miscarriages and perinatal mortality).

2 stically significant variation was found for perinatal mortality.

3 nces for the offspring in terms of increased perinatal mortality.

4 birth but have impaired growth and increased perinatal mortality.

5 dwarfism, sexual infantilism and significant perinatal mortality.

6 n the central nervous system associated with perinatal mortality.

7 ated with gestational age, birth weight, and perinatal mortality.

8 ower birth weight can reduce inequalities in perinatal mortality.

9 am), EoW, early maternal behaviour and puppy perinatal mortality.

10 mice) resulting in loss of TRMs and causing perinatal mortality.

11 s associated with a significant reduction in perinatal mortality.

12 r rates of maternal and infant morbidity and perinatal mortality.

13 eclampsia is a leading cause of maternal and perinatal mortality.

14 (SGA), low birth weight (LBW; <2500 g), and perinatal mortality.

15 of birth, neonatal morbidity, and stillbirth/perinatal mortality.

16 th the risks of miscarriage, stillbirth, and perinatal mortality.

17 of delivery, multiple birth, study year, and perinatal mortality.

18 score at 5 minutes, neonatal morbidity, and perinatal mortality.

19 reterm delivery before 37 weeks, and reduced perinatal mortality.

20 rtality, while the other showed no change in perinatal mortality.

21 wed up until 7 days after delivery to record perinatal mortality.

22 rm neurological morbidity, and 60% to 80% of perinatal mortality.

23 pid valve malformations associated with high perinatal mortality.

24 aspiration, retinopathy of prematurity, and perinatal mortality.

25 sease, particularly its role in maternal and perinatal mortality.

26 d malaria during pregnancy cause substantial perinatal mortality.

27 tational age, large for gestational age, and perinatal mortality.

28 T1 knockout mice exhibited approximately 60% perinatal mortality.

29 gnancy may increase the risk of maternal and perinatal mortality.

30 ormal, neonates showed a higher frequency of perinatal mortality.

31 , we also observed significant reductions in perinatal mortality (0.86 [0.73-1.00], p=0.048), fetal l

32 r bariatric surgery (all types combined) for perinatal mortality (1.38, 95% confidence interval [CI]

33 ated with uterine rupture among 145 infants (perinatal mortality 124 per 1,000 total births, 95% CI 7

34 that it was associated with greater odds of perinatal mortality (6 studies; OR, 1.29; 95% CI, 1.07-1

35 participants; OR, 0.19; 95% CI, 0.07-0.51), perinatal mortality (8 studies, 1140 participants; OR, 0

36 age and birthweight, containing all cases of perinatal mortality [8%]), and higher values of blood pr

37 They had high perinatal mortality, abnormal cranial dimensions, defect

38 For perinatal mortality, absolute risk reductions ranged fro

39 on length (GL), calving difficulty (CD), and perinatal mortality, also known as stillbirth (SB), in c

40 t that a large part of the increased risk of perinatal mortality among low-income women is mediated v

41 ion of labour at >/=39 weeks and the risk of perinatal mortality among nulliparous women aged >/=35 y

42 ndary end points were maternal mortality and perinatal mortality and a composite outcome of infection

43 TGFbeta2-null mice exhibit perinatal mortality and a wide range of developmental de

44 nduction of labour (IOL) around term reduces perinatal mortality and caesarean delivery rates when co

45 Preterm birth remains a leading cause of perinatal mortality and lifelong morbidity worldwide.

46 ies, albeit with no significant reduction in perinatal mortality and little evidence of neonatal bene

47 than in those that did not, but maternal and perinatal mortality and maternal morbidity did not diffe

48 ng pregnancy results in an increased risk of perinatal mortality and morbidity and is a significant f

49 Perinatal mortality and morbidity continue to be major g

50 ssociated preterm birth is a common cause of perinatal mortality and morbidity in twin pregnancy.

51 ongenital heart defects are a major cause of perinatal mortality and morbidity, affecting >1% of all

52 We identified the burden of maternal and perinatal mortality and morbidity, and the risk factors

53 es annually and is associated with increased perinatal mortality and morbidity, as well as poorer lon

54 We documented very low maternal and perinatal mortality and morbidity, confirming that the p

55 e-eclampsia is a major cause of maternal and perinatal mortality and morbidity, especially in low-inc

56 It also results in high perinatal mortality and morbidity.

57 ciated with increased maternal morbidity and perinatal mortality and morbidity.

58 ert a substantial proportion of maternal and perinatal mortality and morbidity.

59 order that is a major cause for maternal and perinatal mortality and morbidity.

60 Preterm birth (PTB) is the leading cause of perinatal mortality and newborn complications.

61 MARCKS-deficient mice exhibit universal perinatal mortality and numerous developmental abnormali

62 Perinatal mortality and severe neonatal morbidity did no

63 d to calculate the cumulative probability of perinatal mortality and the hazard ratios (HRs).

64 ndependent risk factor for preterm delivery, perinatal mortality, and other complications.

65 Camsap1-null mice displayed increased perinatal mortality, and RNAScope studies identified hig

66 Slc23a1-/- dams exhibited approximately 45% perinatal mortality, and this was associated with lower

67 of these mice survived, but there was a high perinatal mortality, and those that survived had a decre

68 caesarean delivery was associated with lower perinatal mortality (AOR after planned caesarean at 39 w

69 Genotypes causing pregnancy loss and perinatal mortality are depleted among living individual

70 uggests that income-related risk factors for perinatal mortality are less prominent at very low gesta

71 Maternal and perinatal mortality are still unacceptably high in many

72 Atox1(-/-) phenotype, resulting in increased perinatal mortality as well as severe growth retardation

73 osed prenatally or in infancy, and fetal and perinatal mortality associated with CHD in Europe.

74 nterneuron-targeted deletion of Fgf13 led to perinatal mortality associated with extensive seizures a

75 We estimated the increased risk of perinatal mortality associated with jaundice during preg

76 competing causal mediators of the abruption-perinatal mortality association.

77 National perinatal mortality audit programmes need to be implemen

78 birth weight, small for gestational age, or perinatal mortality based on vital records, Medicaid cla

79 between April 2009 and March 2014 to compare perinatal mortality between induction of labour at 39, 4

80 There was no significant difference in perinatal mortality between the intervention and control

81 f adverse perinatal outcomes, which included perinatal mortality, bronchopulmonary dysplasia, sepsis,

82 ere was no significant effect on the odds of perinatal mortality but greater odds of neonatal unit ad

83 acenta) is associated with preterm birth and perinatal mortality, but associations with other neonata

84 Outcomes of interest were perinatal mortality, congenital anomalies, preterm birth

85 The primary outcome was perinatal mortality, defined as fetal demise or death be

86 The primary outcome was perinatal mortality, defined as stillbirths per 1000 bir

87 exhibit a unique phenotype characterized by perinatal mortality, disrupted cerebral cortical layerin

88 the risk of overestimation of the effect on perinatal mortality due to early stopping of the largest

89 ondary endocrine problems and a high rate of perinatal mortality due to respiratory distress.

90 We stratified perinatal mortality effects by three policy periods, usi

91 sociated with low birth weight and increased perinatal mortality, especially among primigravidae.

92 Outcomes were direct maternal mortality, perinatal mortality, first-day and early neonatal mortal

93 l inactivation of GATA-6 in VSMCs results in perinatal mortality from a spectrum of cardiovascular de

94 Newborn Lpcat1GT/GT mice showed varying perinatal mortality from respiratory failure, with affec

95 E virus (HEV), a major cause of maternal and perinatal mortality globally.

96 The perinatal mortality (>80%) observed in homozygotes (Igf2

97 nd the risks of miscarriage, stillbirth, and perinatal mortality has not been studied empirically usi

98 tal morbidity (eg, neonatal convulsions) and perinatal mortality (ie, stillbirths and deaths) during

99 n malaria infection and severe outcomes like perinatal mortality in high transmission zones.

100 piratory dysfunction is a notorious cause of perinatal mortality in infants and sleep apnoea in adult

101 nal age/intrauterine growth restriction, and perinatal mortality in pregnant persons at high risk for

102 his report, we describe fetal hemorrhage and perinatal mortality in SLP-76-deficient mice.

103 each chart achieved similar sensitivity for perinatal mortality in small infants (29% for all charts

104 as moderate to severe neonatal morbidity, or perinatal mortality in the absence of a major congenital

105 Perinatal mortality in these circumstances may therefore

106 gies introduced in England in 2016 to reduce perinatal mortality included recommendations for the man

107 , hypoxic ischemic encephalopathy (HIE), and perinatal mortality (including stillbirths and early neo

108 e extent to which the effect of abruption on perinatal mortality is mediated through preterm delivery

109 example, in Sub-Saharan Africa, the rate of perinatal mortality is very high due to limited access t

110 evidence-based practices, but did not reduce perinatal mortality, maternal morbidity, or maternal mor

111 vel characteristics and each health outcome (perinatal mortality, maternal morbidity, or maternal mor

112 es, and brief reports comparing maternal and perinatal mortality, maternal morbidity, pregnancy compl

113 Twin fetuses experience much higher rates of perinatal mortality/morbidity than age- and weight-match

114 lt in tissue damage, increasing the risk for perinatal mortality/morbidity.

115 Outcomes included mode of delivery, perinatal mortality, neonatal unit admission, postpartum

116 ure 1 week (lag 0-6 d) before childbirth and perinatal mortality (odds ratio (OR) = 1.34 (95% confide

117 A was associated with a nonsignificant lower perinatal mortality of 14 per 1000 births in interventio

118 ) died before discharge, yielding an overall perinatal mortality of 45%.

119 of link protein could completely prevent the perinatal mortality of link protein-deficient mice and,

120 matopoiesis has been complicated by the high perinatal mortality of SIRT1-deficient mice (SIRT1(-/-))

121 Perinatal mortality of Slc23a1-/- pups born to Slc23a1-/

122 However, we also noted excessive perinatal mortality of T(-)GR(-) animals, caused by infe

123 sociation between smoke-free legislation and perinatal mortality, one showed significant reductions i

124 rrence of twin-to-twin transfusion syndrome, perinatal mortality, or severe neonatal morbidity.

125 0.75-0.95]; 16 RCTs [n = 14 093]; I2 = 0%), perinatal mortality (pooled RR, 0.79 [95% CI, 0.66-0.96]

126 data were analysed with regard to abortion, perinatal mortality, prematurity, toxaemia and congenita

127 mes are stillbirth, neonatal death, extended perinatal mortality, preterm birth (overall, spontaneous

128 Primary outcome measures were: perinatal mortality, preterm birth, and being small-for-

129 Our primary outcomes of interest were perinatal mortality, preterm birth, hospital attendance

130 comes and complications including eclampsia, perinatal mortality, preterm birth, small for gestationa

131 f disease activity on spontaneous abortions, perinatal mortality, preterm delivery, and birth weight.

132 The perinatal mortality prevalence was 4.3% (95% CI, 3.6%-5.

133 included maternal mortality ratio (MMR) and perinatal mortality rate (PMR), all obtained from the Gu

134 The extended perinatal mortality rate for women who gave birth within

135 Three of 11 neonates died, giving a perinatal mortality rate of 27.3%.

136 %) had a fatal outcome, with a corresponding perinatal mortality rate of 9%.

137 The overall perinatal mortality rate was 166 per 1000 live births.

138 RR, 0.32; 95% CrI 0.0.05, 1.77) and extended perinatal mortality rates (RR, 0.21; 95% CrI 0.01, 3.00)

139 e-wide approach in a Japanese context, where perinatal mortality rates are among the world's lowest.

140 Although perinatal mortality rates have improved for pregnant dia

141 on on antenatal visits, facility births, and perinatal mortality rates was inconclusive, highlighting

142 obstetric complication associated with high perinatal mortality rates.

143 gene encoding c-Abl (AIM) display increased perinatal mortality, reduced fertility, foreshortened cr

144 stein anomaly and tricuspid valve dysplasia, perinatal mortality remained high.

145 The magnitude of risk reduction of perinatal mortality remains uncertain.

146 TWH(-/-) mutant mice had increased perinatal mortality, retarded postnatal growth, and moto

147 ture placental separation, confers increased perinatal mortality risk with preterm delivery as an imp

148 PTDSPT each play essential roles in shaping perinatal mortality risks associated with placental abru

149 h (RR 4.75, 95% CI 2.54-8.86; I(2) = 9%) and perinatal mortality (RR 4.75, 95% CI 2.67-8.48; I(2) = 3

150 and had gait ataxia, increased frequency of perinatal mortality, scoliosis, resting tremors and ptos

151 the following: preterm birth, preeclampsia, perinatal mortality, severe SGA, neonatal acidosis, low

152 mission to a neonatal intensive care unit or perinatal mortality showed adverse trends, these changes

153 The primary outcome was a composite of perinatal mortality (stillbirth and death until 28 days

154 The primary outcome was perinatal mortality (stillbirth and early neonatal death

155 In examining perinatal mortality (stillbirth plus neonatal death in t

156 Perinatal mortality, stillbirth (at 24 weeks of gestatio

157 were significantly less likely to experience perinatal mortality than large breeds (> 20 kg).

158 efects in the skin, lung, and intestine, and perinatal mortality that are reminiscent of EGF-R knocko

159 ciation between inter-pregnancy interval and perinatal mortality using the Demographic and Health Sur

160 Perinatal mortality was 119 per 1,000 births with abrupt

161 (<95 births per month), our models estimated perinatal mortality was 17 (95% CI 11.7-24.8) per 1000 b

162 ong women who were pregnant, miscarriage and perinatal mortality was 2.7 times higher (95% confidence

163 Perinatal mortality was 3.1 vs. 1.7% in women with vs. w

164 total effect risk ratio (RR) of abruption on perinatal mortality was 5.4 (95% CI, 4.6-6.3).

165 In the multivariable context, perinatal mortality was associated with only 3 of the 30

166 In small infants, the risk of perinatal mortality was consistently increased below the

167 Perinatal mortality was higher with planned out-of-hospi

168 Perinatal mortality was nonsignificantly reduced after t

169 tion in SGA births, but not preterm birth or perinatal mortality, was observed in the Netherlands aft

170 For perinatal mortality, we found associated reductions of 1

171 e of neonatal (overall, early, and late) and perinatal mortality were estimated.

172 Inequalities in perinatal mortality were found for newborns at greater t

173 sequently, mother-pup interactions and puppy perinatal mortality were recorded during the first 24 an

174 ion to the neonatal intensive care unit, and perinatal mortality were similar among the infants whose

175 ity but did not report the overall effect on perinatal mortality, while the other showed no change in

176 barrier defects and fragile skin, leading to perinatal mortality with full penetrance.

177 easing wealth (OR 1.09, 1.03-1.14) and lower perinatal mortality with increasing distance from childb

178 2008), whereas there was evidence for higher perinatal mortality with increasing wealth (OR 1.09, 1.0

179 reeclampsia is a major cause of maternal and perinatal mortality with no known cure.

180 Examining disparities in perinatal mortality within strata of gestational age and

181 preterm birth, which is the leading cause of perinatal mortality worldwide.