ライフサイエンスコーパス: gestational age

1 eafter for preterm neonates (34 to <37 weeks gestational age).

2 atistically significant after adjustment for gestational age.

3 composition in 31 preterm infants <28 weeks' gestational age.

4 nificantly declined in CB from early to late gestational age.

5 -June 2020 vs uninfected controls matched on gestational age.

6 severe brain injury and born before 32 weeks gestational age.

7 0.2 weeks, and -0.6: -1.0 to -0.1 weeks for gestational age.

8 e performed blind to case-control status and gestational age.

9 according to first offspring birthweight for gestational age.

10 Risk of mortality declined log-linearly with gestational age.

11 c random intercepts and penalized splines on gestational age.

12 e adjusted by maternal age, maternal BMI and gestational age.

13 of 298 periviables 146 (43%) were <=20 weeks gestational age.

14 asure the ability of each dataset to predict gestational age.

15 Delivery at 22-26 weeks' gestational age.

16 brain maturation and closely correlated with gestational age.

17 term (from 37 weeks gestation) according to gestational age.

18 rthweight, and 0.03: -0.72 to 0.78 weeks for gestational age.

19 g, still had a higher risk of small size for gestational age.

20 althy controls of the same, or very similar, gestational age.

21 (n = 76 825) by baseline characteristics and gestational age.

22 s that continued versus delivered at various gestational ages.

23 ne expression differences across regions and gestational ages.

24 birth weight (-54 g (-59, -49)) and shorter gestational age (-0.29 weeks (-0.31, -0.28)).

25 w birthweight 1.30 [1.09-1.55] and small for gestational age 1.18 [1.00-1.40]) were associated with h

26 d 16 years or older with a viable pregnancy (gestational age 12-20 weeks).

27 ed MRI imaging of 81 healthy fetuses between gestational ages 21 and 38 weeks.

28 In analyses stratified according to gestational age (22 to 24 weeks, 25 to 27 weeks, 28 to 3

29 1824 infants (mean birth weight, 756 g; mean gestational age, 25.9 weeks) underwent randomization.

30 We included 22 infants, median gestational age 26.9 weeks [interquartile range (IQR): 2

31 mong 461 mothers and their 528 infants (mean gestational age, 26.6 weeks [SD, 1.6 weeks]; 253 [47.9%]

32 images of 221 very preterm neonates (median gestational age = 27.9 weeks) were manually segmented fo

33 At baseline, 40% of pregnant women (median gestational age 28 weeks) required invasive ventilation,

34 343 infants were included for analysis (mean gestational age = 28.6 weeks and birth weight = 1138.2 g

35 ergoing 280 imaging sessions (52% male; mean gestational age, 28.3 +/- 2.8 weeks; mean birthweight, 1

36 es), born before 33 weeks of gestation (mean gestational age 29.7 weeks), we combined Magnetic Resona

37 eterm infants (132 male, 119 female) (median gestational age = 30.29 weeks [range, 23.57-32.86 weeks]

38 Of 296 preterm infants (56.1% male; mean gestational age, 30 weeks), complete samples before vacc

39 estation or 401-1500 g birth weight (maximum gestational age 32 wk) and excluded infants discharged >

40 e, 35 years +/- 5 [standard deviation]; mean gestational age, 32 weeks +/- 3).

41 A total of 754 infants (mean gestational age, 36.9 weeks, and mean birth weight, 2909

42 Fifteen pregnant women (mean gestational age, 37.8 weeks) walked in a pool (depth 1.3

43 Relative to full-term birth (gestational age 39-41 weeks), the adjusted HR associated

44 weeks +/- 1.5), including 57 with SDH (mean gestational age, 39.5 weeks +/- 1.2), were evaluated.

45 subgroup included 55 neonates with SDH (mean gestational age, 39.6 weeks +/- 1.2) and 55 matched cont

46 - 1.2) and 55 matched control neonates (mean gestational age, 39.7 weeks +/- 1.2).

47 sex-gestation-specific birth weight centile, gestational age, 5-minute Apgar score, mode of delivery,

48 study, 49.2% were female, 87.6% were of term gestational age, 70.0% were white, and 48.1% were Hispan

49 tive cohort study of 5475 women, we computed gestational age-adjusted multiples of the medians of ear

50 ntile), and 31 who delivered appropriate for gestational age (AGA) babies (controls, >10th to <90th p

51 ompared with those of appropriate weight for gestational age (AGA), FGR babies have smaller placentas

52 omen with offspring who were appropriate for gestational age (AGA).

53 The first showed centiles according to gestational age, allowing term infants to be assessed at

54 is expanding to include new indications and gestational ages, although the recommended dosing was ne

55 clinician and institution, and adjusted for gestational age, American Society of Anesthesiologists p

56 ed controlled trial (RCT)] were included for gestational age and 21 (representing 19 cohorts and 2 RC

57 liparous women with an ultrasound confirming gestational age and a singleton viable pregnancy.

58 The joint effect of gestational age and Apgar score on the risk of neonatal

59 , permuted-block randomisation stratified by gestational age and backbone regimen.

60 ncrease of AMC was inversely associated with gestational age and birth weight and positively associat

61 h the degree of prematurity, as assessed via gestational age and birth weight, as well as with reduce

62 sion was used to relate cytokine levels with gestational age and birth weight.

63 al cytokines were positively associated with gestational age and birth weight.

64 mortality in periviable neonates <=23 weeks gestational age and calculate its impact on overall neon

65 Furthermore, clinical variables including gestational age and fetal sex significantly influenced E

66 or European ancestry case-matched for race, gestational age and household income; and a longitudinal

67 p(TM)) to assess transcriptomic changes with gestational age and labor status at term, and tested 86

68 adiposity measurements after controlling for gestational age and maternal and paternal BMIs.

69 aimed to investigate the association between gestational age and mortality in hospital for term-born

70 The association between gestational age and mortality was estimated using a mult

71 s, inadequate adjustment of birth weight for gestational age and sex, and variation in study design,

72 Data were adjusted for gestational age and use of probiotics.

73 s or complications and included age, gender, gestational age and weight, zone and stage at infancy, v

74 Both EFW >4,000 g (or 90th centile for the gestational age) and AC >36 cm (or 90th centile) had >50

75 combined, with preterm birth, small size for gestational age, and childhood overweight.

76 of gestation matched to 85 controls on age, gestational age, and hospital.

77 nancy complications (preeclampsia, small for gestational age, and spontaneous preterm birth) was obta

78 ze and 4.5-year outcomes accounting for sex, gestational age, and supratentorial injury.

79 birth, small-for-gestational age, continuous gestational age, and term birthweight) and exposure to a

80 of prematurity, low birth weight, small-for-gestational-age, and fetal death as well as microcephaly

81 sociated with a decreased risk for small-for-gestational-age (aOR = 0.622, 95% CI 0.458-0.848, P = 0.

82 ociated with an increased risk for small-for-gestational-age (aOR = 1.955, 95% CI 1.465-2.578, P < 0.

83 Longitudinal studies with accurate gestational age assessment would be important to confirm

84 Both groups were matched for age and gestational age at admission.

85 , we characterized the gap between estimated gestational age at arrest of development (GAAD) and misc

86 han in the control group were very large for gestational age at birth (adjusted relative risk, 1.30;

87 nts were neonates who were at least 34 weeks gestational age at birth and enrolled within 48 h of bir

88 Cox regression was used to examine gestational age at birth in relation to all-cause and ca

89 term" who are admitted to a PICU, increasing gestational age at birth is associated with a substantia

90 Gestational age at birth is declining, probably because

91 Younger gestational age at birth was found to be an independent

92 Gestational age at birth was inversely associated with m

93 nancy (delivery date of next pregnancy minus gestational age at birth).

94 Among 1013 patients randomized (median gestational age at birth, 26.3 [interquartile range {IQR

95 very common and is associated with a younger gestational age at birth, Asian ethnicity, and aggressiv

96 Adjusting for gestational age at birth, postmenstrual age at scan, mat

97 l gut that develop complexity with advancing gestational age at birth.

98 , preterm birth, and small or large size for gestational age at birth.

99 ed birth weight, low birth weight, small for gestational age at birth; height, height-for-age, weight

100 econd of the two clusters demonstrated lower gestational age at delivery (p = 0.049), increased prote

101 contrast to 95% of postpartum women (median gestational age at delivery 30 weeks).

102 betes, and with complete data on smoking and gestational age at delivery were included.

103 age, gravidity, smoking, BMI, child sex, and gestational age at delivery, we identified 188 CpG sites

104 ge, race, pre-pregnancy body mass index, and gestational age at delivery.

105 ed week-specific neonatal mortality rates by gestational age at delivery.

106 ement approaches are therefore influenced by gestational age at diagnosis and treatment and timing of

107 The median gestational age at first IPTp-SP dose was 22 weeks.

108 The known relationship between the gestational age at maternal primary infection an the out

109 ls that included an interaction term between gestational age at measurement and DAP average to invest

110 gic studies of miscarriage traditionally use gestational age at miscarriage (GAM) to assign time in s

111 lin-like signals, which allows us to predict gestational age at scan in preterm infants with root mea

112 treatment tended to increase birthweight and gestational age at the lowest quantiles, remained flat i

113 The mean gestational age at the time of MRI was 32 weeks (range 2

114 low birthweight, preterm birth and small-for-gestational age babies in the SPCQ arm only.

115 uman fetal resting-state fMRI studies (fetal gestational age between 20 and 40 weeks).

116 , who were aged 18 years or older and with a gestational age between 20 weeks and 40 weeks and 6 days

117 with a birth weight of 1000 g or less and a gestational age between 22 weeks 0 days and 28 weeks 6 d

118 in neonatal height or incidence of small for gestational age between groups.

119 ht (LBW), preterm birth (PTB), and small for gestational age birth (SGA).

120 was seen for low birth weight and small-for-gestational-age birth weight but not for miscarriage.

121 abetes mellitus, low birth weight, small-for-gestational-age birth, stillbirth, and miscarriage and s

122 Controlling for gestational age, birth weight, and BPD severity, MR-EI w

123 for pregnancy complications, maternal atopy, gestational age, birth weight, and smoking during pregna

124 teristics of interest (sex, race, ethnicity, gestational age, birth weight, stage of retinopathy at p

125 preterm births, and 1284 (9%) were small-for-gestational-age births.

126 (miscarriage, stillbirth, preterm, small-for-gestational age), birthweight, neonatal death or LAZ.

127 ation level, parental socio-economic status, gestational age, breast-feeding, and gender were adjuste

128 ame risk of preterm birth and small size for gestational age, but with a higher risk of childhood ove

129 omplex mixture of metals on birth weight for gestational age (BW for GA) in the Maternal and Developm

130 verity were higher in lower birth weight and gestational age categories.

131 ed from fetal adrenal specimens at different gestational ages, consisting of neuroendocrine and corti

132 ween four outcomes (preterm birth, small-for-gestational age, continuous gestational age, and term bi

133 In infants born >=34 weeks gestational age, cord-blood IgG geometric mean concentra

134 Infants whose gestational age could not be reliably estimated and thos

135 1, 1973, through December 31, 1997, who had gestational age data and who were followed up for surviv

136 responsiveness of human decidual cells, are gestational age dependent, and decidual cells augment ZI

137 solated from 102 +/- 3 and 135 +/- 1 days of gestational age (dGA) sheep (n = 7 per age; term ~145 dG

138 with birth weight (BW) <= 1800 g, estimated gestational age (EGA) <= 32 weeks, and <30 days old prio

139 Metabolic gestational age estimation provides accurate population-

140 Median gestational age for delivery was 38 weeks (interquartile

141 ealthcare-resource utilization impact across gestational ages for at least 5 years after infection, m

142 rospective risk of stillbirth increased with gestational age from 0.11 per 1,000 pregnancies at 37 we

143 Infants with gestational age (GA) <32 weeks and/or birth weight <1500

144 2018 and July 2019, categorized according to gestational age (GA) (group I: GA <=30 weeks; group II:

145 diagnosed with CHD) between 22 and 39 weeks gestational age (GA) from May 2015 to December 2017, wit

146 as from women infected with malaria before a gestational age (GA) of 15 weeks had a decreased volume

147 from 217 infants with mean BW of 755 g, mean gestational age (GA) of 25 weeks, and mean PMA of 33 wee

148 e complex intestinal immunity from 16 weeks' gestational age (GA).

149 Among 1239 infants (mean BW 864 g, mean gestational age [GA] 27 weeks), 129 infants (10%) (226 e

150 nt women with mid-trimester maternal plasma (gestational age [GA], 16-24 weeks) who subsequently deve

151 esults A total of 259 MRI examinations (mean gestational age [GA], 26.9 weeks +/- 5.6) were included

152 but robust estimates for the whole range of gestational ages (GAs) are lacking.

153 d 28 days) respiratory status, birth weight, gestational age, gender, ROP treatment method, postmenst

154 sociated with higher costs included: younger gestational age, genetic syndrome, noncardiac diagnoses,

155 SULTS:: We studied 5,073 infants born with a gestational age greater than or equal to 37 weeks and we

156 women (age 26.62 +/- 3.93 years) within the gestational age group of 13 to 32 weeks participated in

157 the proportion of preterm infants across all gestational age groups who achieved protective IgG antib

158 nonsedated neonates: 55 full-term neonates (gestational age >= 36 weeks) and 83 VPT neonates (gestat

159 d as birth weight >=4,000 g and/or large for gestational age >=90th percentile.

160 involving newborn infants (<24 hours of age; gestational age, >=31 weeks) in special care nurseries i

161 As an adverse pregnancy outcome, small-for-gestational-age has been extensively studied in Western

162 th the study's secondary outcomes: large for gestational age, hypoglycemia, respiratory distress, low

163 riage type, whether pregnant or post partum, gestational age (if pregnant), and HIV risk factors in t

164 abolic clock with five metabolites that time gestational age in high accordance with ultrasound (R =

165 is designed to investigate the influence of gestational age in later symptoms of attention-deficit/h

166 low birthweight, preterm birth, or small for gestational age in livebirths.

167 ght, birth length, macrosomia, and large for gestational age in neonates.

168 of periodontal treatment on birthweight and gestational age in secondary analyses of publicly availa

169 Among live births at 22-26 weeks' gestational age in Sweden, 1-year survival improved betw

170 and trended to decrease both birthweight and gestational age in the highest quantiles.

171 vides accurate population-level estimates of gestational age in this data set.

172 y, S100A12 levels correlated positively with gestational age independently from sex.

173 , preterm birth (PTB), macrosomia, small for gestational age infant (SGA), birth defect, and perinata

174 SGA versus appropriate for gestational age infants did not demonstrate differences

175 ad an increased risk of delivering large-for-gestational-age infants (odds ratio, 1.15; 95% confidenc

176 ad an increased risk of delivering large-for-gestational-age infants (odds ratio, 1.15; 95% confidenc

177 , -3.7 g . kg-1 . d-1) among appropriate-for-gestational-age infants (P < 0.001).

178 mpared rates of preterm births and small-for-gestational-age infants born in Australia 2000-2015.

179 Small-for-gestational-age infants experienced weight gain (4.3 g .

180 births and 9.8% (8.2% to 11.4%) in small-for-gestational-age infants, after adjustment for infant's b

181 ia but with the risk of delivering large-for-gestational-age infants.

182 Gestational age is an important modifiable risk factor f

183 Results from this study show that gestational age is related to inattentive and hyperactiv

184 Gestational age is the major determinant of neonatal dea

185 cholesterol levels on the risk for small-for-gestational-age is larger.

186 ks with adjusted odds of large- or small-for-gestational age (LGA or SGA) neonate by BMI group.

187 10th percentile), 28 who delivered large for gestational age (LGA) babies (>=90th percentile), and 31

188 In contrast, women with large for gestational age (LGA) offspring had higher measures of a

189 umference (AC) to define suspected large for gestational age (LGA).

190 e primary outcome was full-term (>=37 weeks' gestational age) livebirth, which was assessed in all el

191 he development of ROP in our study were: low gestational age, low birth weight, type of multiple gest

192 tional age >= 36 weeks) and 83 VPT neonates (gestational age < 30 weeks).

193 /employed occupational status of the mother; gestational age <29 weeks; placentas weighing <500 g; st

194 ositive mothers with birth weight <1500 g or gestational age <32 weeks and 83 historical controls wer

195 th risk factors of birth weight < 1750 g and gestational age <= 34 weeks, both of which are observed

196 parity (nulliparous women vs parous women), gestational age (<70 days vs >=70 days), amount of bleed

197 dary outcomes were neonatal death, large for gestational age, macrosomia, infant birth injury, hypogl

198 xpression patterns of CTBs from PAS cases to gestational age-matched control cells that invaded to th

199 etal hearts dying with CHB and three healthy gestational age-matched hearts, and 3) autopsy tissue fr

200 with complete hydatidiform mole (HM) and 20 gestational-age-matched normal pregnant women (control).

201 collected on cases and controls matched for gestational age, maternal age, and human immunodeficienc

202 odontal treatment effects on birthweight and gestational age may be biased towards the null.

203 al T cell compartment of human extremely low gestational age neonates (ELGAN) with extremely low birt

204 between maternal lipid profile and small-for-gestational-age neonates.

205 Father's age, low gestational age, obstetric characteristics (eg, caesarea

206 actors associated with disease severity were gestational age (odds ratio, 0.49; 95% confidence interv

207 ngletons (>=97.5%), and enrolled at a median gestational age of 10.4 (India) to 25.9 weeks (Mozambiqu

208 ars, infected with HIV, and had an estimated gestational age of 12-36 weeks.

209 en were eligible for inclusion if they had a gestational age of 22 weeks or more, a fetal heart sound

210 lum of 53 premature infants born at a median gestational age of 27.0 (IQR 25.0-29.0) weeks.

211 achments were more likely in patients with a gestational age of 29 weeks or less (P < 0.05) and in ey

212 ere pregnant with fetuses that had reached a gestational age of at least 28 weeks; they required phar

213 All the neonates had an estimated gestational age of at least 34 weeks, an estimated birth

214 or of unknown HIV status (3.08, 2.50-3.81); gestational age of less than 26 weeks (1.22, 1.02-1.47);

215 ember 23, 2016, among preterm infants with a gestational age of less than 30 weeks and/or birth weigh

216 2500 g, or less than 3000 g with a recorded gestational age of less than 37 weeks, were included in

217 Preterm birth was defined as gestational age of less than 37 weeks.

218 The mean (SD) gestational age of the cohort was 28.3 (2.4) weeks.

219 Limitations of this study include the varied gestational ages of women at recruitment, retrospective

220 Women with small or large for gestational age offspring are at increased risk of cardi

221 Charts were reviewed for gestational age, optic nerve appearance, intraocular pre

222 s of <6 months for other outcomes (small for gestational age or low birth weight).

223 We included only studies that corrected for gestational age or were restricted to full-term infants

224 of prematurity, low birth weight, small-for-gestational-age or fetal death in women who already have

225 irth (OR 1.5, 95% CI 1.1-2.1), and small for gestational age (OR 1.6, 95% CI 1.2-2.2).

226 1.02-1.15], P value = 0.012), small size for gestational age (OR 2.15 [95% CI 2.07-2.23], P value < 0

227 kg twice daily for term neonates (>=37 weeks gestational age) or 4 mg/kg twice daily for 1 week and 6

228 newborns who are preterm, small or large for gestational age, or born to mothers with diabetes are sc

229 of prematurity, low birth weight, small-for-gestational-age, or fetal death.

230 ic regression analysis showed that increased gestational age (P = 0.045) was significantly and indepe

231 ounders shared within a twin pair, including gestational age, parental characteristics, and intrauter

232 Similar associations were noted on gestational age (Pinteraction = .075).

233 y outcomes were examined including small for gestational age, placental abruption, transfer to neonat

234 Quantile Regression controlled for gestational age, postnatal age, and percent active state

235 Despite growing evidence that gestational age predicts later symptoms of attention-def

236 y of preterm infants stratified according to gestational age recruited from 8 hospitals across the Ne

237 ed as indicators of a high-risk of small-for-gestational-age, regardless of gestational weight gain.

238 sport and binding proteins, and to determine gestational age-related changes in maternal and fetal pl

239 rogenitor cells retain in vitro an intrinsic gestational-age-related differentiation and functional p

240 wing very premature birth (i.e., <= 32 weeks gestational age) remain at high risk for neurodevelopmen

241 We analysed birthweight, gestational age, risk of low birthweight, and risk of pr

242 % CI, 1.35-1.89), infants who were large for gestational age (RR, 1.24; 95% CI, 1.05-1.46), and neona

243 In multivariable analyses, controlling for gestational age, sex, and abnormality on structural MRI,

244 livering infants who were small or large for gestational age (SGA or LGA, respectively) according to

245 t to which preterm birth (PTB) and small for gestational age (SGA) at birth mediate the association b

246 dy included 31 women who delivered small for gestational age (SGA) babies (SGA, <=10th percentile), 2

247 rine growth restriction (IUGR) and small-for-gestational age (SGA) birth.

248 To distinguish small for gestational age (SGA) from intrauterine growth restricti

249 e gestational weight gain (GWG) or small for gestational age (SGA) in IBD compared to non-IBD in the

250 Women with small for gestational age (SGA) offspring had 1-2 mmHg higher syst

251 Cases of small-for-gestational age (SGA) or pre-eclampsia were matched with

252 Few studies assessed the effect of small-for-gestational age (SGA), a proxy for fetal growth impairme

253 Preterm birth (PTB), small for gestational age (SGA), and low birth weight (LBW) are ri

254 lampsia (PE), preterm birth (PTB), small for gestational age (SGA), and neonatal intensive care unit

255 d risks of low birth weight (LBW), small for gestational age (SGA), and preterm birth (PTB).

256 according to preterm preeclampsia, small for gestational age (SGA), and women who had 2 pregnancies w

257 arkers of DBP were associated with small for gestational age (SGA), low birth weight (LBW), and prete

258 s including microcephaly and being small for gestational age (SGA).

259 tion (CS), preterm birth (PTB) and small for gestational age (SGA).

260 l gestation (control, n = 40), (b) small for gestational age (SGA, n = 34) and (c) whose mothers deve

261 m birth, postterm birth, small and large for gestational age (SGA/LGA), and neonatal intensive care u

262 he marginal risk of preterm birth, small-for-gestational-age (SGA) birth, gestational diabetes, and p

263 Therefore, gestational age should be addressed when considering sym

264 SGA and LGA were determined by the sex- and gestational-age-specific birthweight distributions of th

265 n) and 'standard' (healthy pregnancies only) gestational-age-specific BP charts for all pregnant wome

266 Results A total of 311 neonates (mean gestational age +/- standard deviation, 39.3 weeks +/- 1

267 birth outcomes (low birth weight, small for gestational age, stillbirth, birth defects, neonatal dea

268 The test for interaction between gestational age strata and treatment group was significa

269 ate differences in neonatal mortality in all gestational-age strata.

270 onatal survival among preterm infants across gestational-age strata.

271 Of the 151 cases with reported gestational age, the number of hospitalizations amongst

272 ive disorders of pregnancy, fetal growth, or gestational age, the prevalence of detectable PFAS in th

273 sociated with greater frequency of small for gestational age (third percentile, 6.1% vs 4.0%; RR, 1.5

274 disoproxil fumarate (TDF) use from 28 weeks gestational age to 2 months postpartum to prevent mother

275 l prick data, algorithms correctly estimated gestational age to within an average deviation of 1 week

276 ultivariate analysis was performed, only low gestational age, total days on oxygen supplement and hig

277 thoracic ICUs who were greater than 37 weeks gestational age up to and including 18 years who were in

278 alences were significantly lower for earlier gestational ages vs full-term (eg, adjusted prevalence r

279 0 years +/- 6 (age range, 12-49 years), mean gestational age was 24 weeks +/- 6 (range, 17-40 weeks).

280 was 34.5 years (range, 7-76 years), average gestational age was 26.6 weeks (range, 23-34 weeks), and

281 rs (interquartile range [IQR] 23-30), median gestational age was 30 weeks (IQR 28-34), 99% were recei

282 The median gestational age was 39.1 weeks (interquartile range, 38.

283 In a cohort of 661 617 women, the mean gestational age was 39.3 weeks and 51% of infants were m

284 between level two and three units, although gestational age was a significant independent variable f

285 Gestational age was estimated by repeated ultrasound sca

286 Gestational age was estimated from first-trimester datin

287 Increased gestational age was found to be an independent predictor

288 Small for gestational age was identified in 9.7% of EXPECT infants

289 ival among live-born infants at 22-26 weeks' gestational age was significantly lower during 2004-2007

290 s and birthweight z-scores (standardized for gestational age) was assessed for three different mixtur

291 as the number of deliveries before 37 weeks' gestational age, was analysed in randomly assigned women

292 and 18 normal control foetuses with similar gestational age were compared using a 3T magnetic resona

293 AA outcomes, rates of stunting and small-for-gestational-age were lower in Arm 1 than in Arm 3 (RR: 0

294 tion) and healthy control placentae (various gestational ages) were assessed using a high density gen

295 alivizumab to otherwise healthy 29-34 weeks' gestational age (wGA) infants aged <12 months at respira

296 m birth, the number of fetuses in utero, the gestational age when first trial treatment course was gi

297 disproportional) and those who are small for gestational age without microcephaly should be closely f

298 disproportional, and those who are small for gestational age without microcephaly should be closely f

299 on maternal serum at 12, 20 and 28 weeks of gestational age (wkGA) using 175 cases of term FGR and 2

300 r breech presentation near term (36 weeks of gestational age [wkGA]) in nulliparous women.