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1 hy of prematurity, culture proven sepsis, or perinatal death).
2 proven sepsis, necrotizing enterocolitis, or perinatal death).
3 aged >/=35 years may reduce overall rates of perinatal death.
4 Prenatal induction resulted in perinatal death.
5 nt should include discussion of the risks of perinatal death.
6 rm of ryanodine receptor; Ry1R) resulting in perinatal death.
7 ted with postpartum hemorrhage, maternal, or perinatal death.
8 y development, leading to kidney failure and perinatal death.
9 H), which can cause lifelong disabilities or perinatal death.
10 gnancies, is a leading cause of maternal and perinatal death.
11 ective treatment to reduce preterm birth and perinatal death.
12 form nephrons, leading to kidney failure and perinatal death.
13 for outcomes of preterm birth <34 weeks and perinatal death.
14 fected by fetal anemia, hydrops fetalis, and perinatal death.
15 ss of LDA in reducing both preterm birth and perinatal death.
16 f routine induction of labour on the risk of perinatal death.
17 r at 40 weeks would be required to prevent 1 perinatal death.
18 on in rates of preterm birth, stillbirth, or perinatal death.
19 the risks of stillbirth, neonatal death, and perinatal death.
20 rm parturition, to prevent preterm birth and perinatal death.
21 The primary outcome was perinatal death.
22 s were also strongly associated with TdP and perinatal death.
23 l intensive care/special care baby unit, and perinatal death.
24 architecture, causing severe proteinuria and perinatal death.
25 nduced by cPAF, preventing preterm birth and perinatal death.
26 sive care, macrosomia, low Apgar scores, and perinatal death.
27 Whole-body deletion of Derlin-2 results in perinatal death.
28 interstitium, reduced airway branching, and perinatal death.
29 mphangiogenesis defects in mouse embryos and perinatal death.
30 th in the 7 days after birth, stillbirth, or perinatal death.
31 preterm birth, fetal-growth restriction, or perinatal death.
32 a 33% reduction in litter size and frequent perinatal death.
33 h caused congestive heart failure leading to perinatal death.
34 ice leads to cystic kidneys and embryonic or perinatal death.
35 lities can substantially reduce maternal and perinatal deaths.
36 n, preterm birth, AIHA of the newborn, and 2 perinatal deaths.
37 and accounts for a significant proportion of perinatal deaths.
38 terms of reducing the risk of stillbirth and perinatal deaths.
39 160 pregnancies and accounts for 50% of all perinatal deaths.
40 ed Scottish national databases of births and perinatal deaths.
41 n of Diseases, Tenth Revision application to perinatal deaths.
42 There were no perinatal deaths.
43 associated with a lower risk of in-hospital perinatal death (0.08% versus 0.26%; adjusted risk ratio
44 I, 1.18-1.30; I2 = 80%; n = 18 studies); for perinatal death, 1.16 (95% CI, 1.00-1.35; I2 = 93.7%; n
45 more than 16,274 stillbirths, more than 4311 perinatal deaths, 11,294 neonatal deaths, and 4983 infan
46 5 singleton births, there were 13,027 (0.6%) perinatal deaths, 116,043 (5.6%) preterm live-births and
47 eated infertility also increased the risk of perinatal death (2.7 [1.5-4.7]); the risks associated wi
48 tio [OR] 3.3, 95% CI 1.2-9.0, I(2)=58%), and perinatal deaths (2.3, 1.2-4.1, I(2)=73%) compared with
49 was 7.0 per 1000 births, of which 3.6% were perinatal deaths, 20% prenatally diagnosed, and 5.6% TOP
50 e no significant differences in the rates of perinatal death (3.2% in the pessary group and 2.4% in t
53 d in 2.0 per 1000 births, of which 8.1% were perinatal deaths, 40% were prenatally diagnosed, and 14%
54 kelihood ratio 6.36 [95% CI 3.65-11.07]) and perinatal death (5.07 [3.64-7.07]), particularly stillbi
55 (95% CI, 46-51), and 59 (95% CI, 55-63); for perinatal death, 66, 73 (95% CI, 67-81), and 86 (95% CI,
57 ssociated with a severe rhythm phenotype and perinatal death: 9 (82%) showed signature LQTS rhythms,
58 erience adverse perinatal outcomes including perinatal death, admission to a neonatal unit, resuscita
60 or anxiety have higher risks of miscarriage, perinatal death and decisions to terminate a pregnancy i
61 y abruption result in increased frequency of perinatal death and decreased fetal size and gestational
63 ary outcome was a composite of stillbirth or perinatal death and neonatal complications, including hy
64 Whether supplementation reduces the risk of perinatal death and neonatal convulsions requires furthe
65 nancy have increased risks of preterm birth, perinatal death and neurodevelopmental disability and ca
66 omposite outcome that included stillbirth or perinatal death and several neonatal complications, it d
71 a highly consanguineous family with multiple perinatal deaths and infants presenting at birth with fa
72 ulsions in the control group compared with 3 perinatal deaths and no neonatal convulsions in the DHA
73 studies (in which cases were stillbirths or perinatal deaths), and randomised controlled trials of m
74 per averted preterm birth, $471 per averted perinatal death, and $15.95 per disability-adjusted life
75 estern Scotland with databases of maternity, perinatal death, and birth and death certifications to a
76 ffect with protection from preterm birth and perinatal death, and partial correction of reduced birth
77 with 141 averted preterm births, 74 averted perinatal deaths, and 31 averted hospitalisations per 10
78 , premature births, small full-term infants, perinatal deaths, and births of live healthy infants.
81 riction and early delivery, the high risk of perinatal death associated with abruption persisted.
83 f this analysis was to estimate the risks of perinatal death associated with treated and untreated in
88 d risk of major congenital malformations and perinatal death, but the estimates were imprecise for di
89 vessel formation resulting in hemorrhage and perinatal death, but the mechanism of brain hemorrhage i
90 s a composite of adverse perinatal outcomes (perinatal death, chronic lung disease, neonatal sepsis,
91 Wnt1-expressing neural crest cells leads to perinatal death, cleft palate and other cranial bone def
94 cterize the relationship between smoking and perinatal death, defined as the combination of stillbirt
95 enetic disruption of myomaker in mice causes perinatal death due to an absence of multi-nucleated mus
103 d its homozygous deletion in mice results in perinatal death from respiratory failure due to the lack
107 he effect of a trial of labor on the risk of perinatal death in otherwise uncomplicated term pregnanc
110 ecropsy is done in less than 60% of cases of perinatal death in the UK, despite the value of the proc
111 e risk of major congenital malformations and perinatal deaths in the children of atomic bomb survivor
113 mary outcome was a composite of maternal and perinatal deaths (including stillbirths and neonatal dea
114 e association between extreme heat and early perinatal deaths, including antepartum and intrapartum s
115 r coagulation (both in the Foley group); ten perinatal deaths, including two stillbirths (both in the
116 The risks of stillbirth, neonatal death, and perinatal death increased with the amount smoked by the
117 The risk of cerebral palsy, like the risk of perinatal death, is lowest in babies who are of above av
118 ldbirth Checklist, on a composite outcome of perinatal death, maternal death, or maternal severe comp
119 l pregnancies and their outcome (live birth, perinatal death, miscarriage or termination) among women
120 ing policy would be lower than the number of perinatal deaths (n = 189) caused by lack of prenatal ca
121 c.248C>T, one postnatal injection prevented perinatal death, normalized growth, restored coordinated
125 ompassing the GATA2-binding site resulted in perinatal death of homozygous mutant mice due to profoun
126 on to neonatal intensive care unit (NICU) or perinatal death of neonate in labor room (LR)/operation
128 primary perinatal outcome was a composite of perinatal deaths or neonatal unit admission up to infant
129 0.015); their babies were at higher risk of perinatal death (OR 2.26, CI 1.07 to 4.75, p = 0.032), c
130 ational diabetes, fetal death or stillbirth, perinatal death, or admission to neonatal intensive care
131 g risk of a mother experiencing at least one perinatal death over the study was 9.0 per 1000 women.
132 women have a significantly increased risk of perinatal death, particularly associated with prematurit
133 ted with a reduction of 3.7 (95% CI 2.2-5.2) perinatal deaths per 1000 pregnancies and 2.3 (0.9-3.7)
134 omparison, the reductions were 4.1 (2.5-5.7) perinatal deaths per 1000 pregnancies and 2.4 (0.7-4.1)
136 how how the gestational age-specific risk of perinatal death (PND) can be decomposed as the product o
137 dorsal midline brain structure formation and perinatal death, presumably by interfering with expressi
139 omposite of neonatal complications including perinatal death, preterm birth, large or small for gesta
141 ries) and morbidities (acute and long-term), perinatal deaths, preterm birth, and intrauterine growth
143 53 to 1.11, moderate certainty) might reduce perinatal death rates, but credible intervals could not
144 Using linkage of national pregnancy and perinatal death registries, the authors performed a retr
145 he population attributable risk fraction for perinatal death related to infertility was 6.2% (3.4-9.0
146 miscarriage, preeclampsia, preterm delivery, perinatal death, small-for-gestational-age newborn, or n
147 RR = 1.22, 95% CI: 1.14, 1.30 (n = 28)), and perinatal death (sRR = 1.33, 95% CI: 1.25, 1.41 (n = 46)
148 Qualitative reports have suggested that perinatal death takes a significant emotional toll on st
150 l birth was associated with a higher rate of perinatal death than was planned in-hospital birth (3.9
151 terval [CI], 0.81 to 1.22) or in the rate of perinatal death; there was a significant reduction in th
152 5 515), the overall rate of delivery-related perinatal death was 12.9 (95% confidence interval [CI],
155 A population-based case-control study of perinatal deaths was carried out in Leicestershire Healt
156 ations between active or passive smoking and perinatal death were included in the meta-analyses.
159 Mice deficient in MARCKS exhibited universal perinatal death with defects in neurulation, fusion of t
160 ion with preterm delivery; 55% of the excess perinatal deaths with abruption were due to early delive
161 genomic investigations of pregnancy loss and perinatal death, with short turnaround times for diagnos
162 ce were born small and weak and succumbed to perinatal death within 12 h because of neuromuscular res