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1 the infants were more likely to be small for gestational age.
2 tifying FGR among fetuses that are small for gestational age.
3 livery, low birthweight, and being small for gestational age.
4 al, a phenotype that is lost with increasing gestational age.
5 stational age, and 14.7% were born large for gestational age.
6 , -0.35; P = 0.05), but not gender, race, or gestational age.
7 tely than it predicted last menstrual period gestational age.
8 n at birth appears to be a good predictor of gestational age.
9 ally, with nephrons formed until 34 weeks of gestational age.
10 with methylation than last menstrual period gestational age.
11 using Tdap date, infant's date of birth, and gestational age.
12 eas low performance was inversely related to gestational age.
13 for parental ADHD, infant birth weight, and gestational age.
14 time series were acquired at 29 to 34 weeks gestational age.
15 he other countries, even after adjusting for gestational age.
16 very mode, offspring gender, birthweight and gestational age.
17 rth to infants who were born small for their gestational ages.
18 low birthweight (1.62, 1.41-1.86), small for gestational age (1.31, 1.14-1.51), and stillbirth (1.67,
19 1.10; 95% CI, 0.85 to 1.43), small size for gestational age (171 cases among 1768 exposed pregnancie
20 ndomized (mean age, 29 [SD, 6.3] years; mean gestational age, 22 [SD, 1.3] weeks), 100% completed the
21 ure infants (birth weight range, 401-1000 g; gestational age, 22-27 weeks) who were born at participa
23 nd detected RW-ROP in 123 infants (mean [SD] gestational age, 24.6 [1.5] weeks) at the same time (sam
25 n, stage 3 or more in 123 infants (mean [SD] gestational age, 24.8 [1.4] weeks) ROP was noted earlier
27 y significant PDA (mean [standard deviation] gestational age 25.7 [1.2] weeks and birth weight 813 [1
29 gible VLBW infants, 11669 (84.9%) (mean [SD] gestational age, 27.7 [2.5] weeks; 47.4% female) receive
31 72 VLBW infants (520 [53.5%] male; mean [SD] gestational age, 28.2 [2.9] weeks), 231 received 1002 pl
33 oys [52.0%] and 259 girls [48.0%]; mean [SD] gestational age, 39.2 [1.1] weeks), 270 each were random
34 35 women (mean age, 31.0 +/- 5.1 years; mean gestational age, 39.3 +/- 1.3 GW) previously immunized w
38 ), birth weight, birth weight in relation to gestational age, 5-minute Apgar score, and head circumfe
39 exposed vs 2.19% of unexposed were small for gestational age, 5.28% of exposed vs 2.14% of unexposed
42 mptoms in parents of VPT infants (<30 weeks' gestational age; admitted to the neonatal intensive care
43 re were 5474 CpGs associated with ultrasound gestational age after adjustment for a set of covariates
44 entas from term infants born appropriate-for-gestational-age (AGA) or small-for-gestational-age (SGA)
50 0 term singleton births in 2002 (37-44 weeks gestational age and birth weight of 1,000-5,500 g) were
54 ted associations between DNA methylation and gestational age and developed a statistical model for pr
55 gnant women was recruited before 24 weeks of gestational age and followed until the end of pregnancy.
58 enefited had we had access to information on gestational age and maternal smoking, but since the form
60 hers, after adjustment for chronological and gestational age and receipt of diphtheria and tetanus to
62 s were analyzed, and their associations with gestational age and retinopathy of prematurity were exam
63 ive ability of noncustomised (accounting for gestational age and sex) and partially customised centil
64 <10(th) or >90(th) centile respectively for gestational age and sex, were examined using linear and
66 the left and a positive correlation between gestational age and the level of cerebral hemoglobin con
67 s index (BMI) and rates of cerebral palsy by gestational age and to identify potential mediators of t
69 tudy, including preterm children (<27 weeks' gestational age) and children born at term, at 6.5 years
70 age (birth weight <2 SDs below the mean for gestational age), and first inpatient or outpatient clin
71 were born preterm, 13.4% were born small for gestational age, and 14.7% were born large for gestation
72 , and (for postdelivery outcomes) child sex, gestational age, and breastfeeding duration, each 1-SD (
73 Younger gestational age, smaller size for gestational age, and greater infant weight gain were acr
74 he associations of gestational age, size for gestational age, and infant weight gain with childhood l
76 ultiple linear regression models, body size, gestational age, and sex explained a large proportion of
77 th preterm birth, low birthweight, small for gestational age, and stillbirth, especially in sub-Sahar
78 Maternal young age, term infant, small for gestational age, and the presence of ophthalmologic abno
79 final height was associated with decreasing gestational age, and this association was particularly m
80 ildren born preterm or with a small size for gestational age are at increased risk for childhood asth
81 erm birth (ARR, 1.16) but not with small for gestational age (ARR, 1.19), stillbirth (ARR, 1.11), or
82 dence interval [CI], 1.36-1.75) or small for gestational age (ARR, 1.30; 95% CI, 1.07-1.57) but not o
84 tal origin was present in the chorion at all gestational ages, associated with stromal cells or near
85 or severe overall disability decreased with gestational age at birth (adjusted odds ratio per week,
86 I, 1.20-1.53) preterm birth, being small for gestational age at birth (aRR, 1.25; 95% CI, 1.13-1.30),
87 ity (CHOP ROP) model uses birth weight (BW), gestational age at birth (GA), and weight gain rate to p
88 , whereas those born with a smaller size for gestational age at birth had a lower FEV1 but higher FEV
91 lected from patient charts including gender, gestational age at birth, birthweight, stage of ROP at p
92 violence, pre- and early postpartum stress, gestational age at birth, infant sex, and postnatal age
99 prenatal diagnosis had an earlier estimated gestational age at delivery (mean, 38.6 weeks; 95% CI, 3
100 ed sex, month of birth during the same year, gestational age at delivery, Apgar score at 5 minutes, m
101 glucocorticoid administration, preeclampsia, gestational age at delivery, days in intensive care unit
102 s, accounting for time under observation and gestational age at enrollment, were used to calculate ha
103 ne placebo in blocks of eight, stratified by gestational age at enrolment (17-25 weeks vs 26-34 weeks
106 thylation can be used to accurately estimate gestational age at or near birth and may provide additio
107 We stratified women by site and by their gestational age at randomisation (before week 26 and 0 d
109 d and further adjusted for sex of the child, gestational age at the time of sample collection, and se
110 preterm birth, why treatment was given, the gestational age at which magnesium sulphate treatment wa
111 the woman was at risk of preterm birth, the gestational age at which magnesium sulphate treatment wa
112 time of influenza virus circulation and the gestational age at which maternal influenza immunization
113 ve review of maternal history, including the gestational age at which the mother was infected and tre
114 erm birth but no increased risk of small for gestational age, autism spectrum disorder, or attention-
116 2011 and 2012 on 4594 singleton infants with gestational ages between 24 and 31 weeks, without severe
117 with preterm birth (<37 weeks) and small-for-gestational-age birth (birth weight < 10th percentile).
118 0, -0.36 mL), and a higher risk of small-for-gestational-age birth (OR: 1.57; 95% CI: 1.05, 2.35).
119 erm birth (<37 gestational weeks), small for gestational age (birth weight <2 SDs below the mean for
121 mes of low birth weight (<2500 g), small for gestational age, birth length and head circumference, pr
122 t differences in low birth weight, small for gestational age, birth length, head circumference, or ma
124 able linear regression models controlled for gestational age, birth weight, maternal age, parity, pre
126 parents of healthy FT infants (>/=37 weeks' gestational age; birth weight >2499 g; born at the Royal
128 9; p value for interaction 0.049), small-for-gestational-age births (0.92, 0.87-0.97; p=0.03), and 6-
131 f preterm birth, low birth weight, small-for-gestational-age births, cesarean delivery, and low Apgar
132 ms adjusted for infant characteristics (sex, gestational age, birthweight, parity and breast feeding)
133 our per case; not fixed ratios) with similar gestational ages, birthweight, and birth dates were sele
134 h-risk neonates (NTR4153), 11 NEC cases were gestational age/birthweight matched with controls (ratio
135 udy of preterm infants younger than 28 weeks gestational age born between January 1, 2006, and Decemb
136 increased risk of preterm birth or small for gestational age, but not of congenital malformation or s
137 discordant on sex-specific birth weight for gestational age (BW/GA) in order to minimize confounding
139 cases with known birthweight were small for gestational age, compared with eight (5%) of 173 control
140 ble information on last menstrual period and gestational age confirmed by crown-rump length measured
144 methylation could be effective in predicting gestational age due to limitations with the presently us
145 eneral linear models were used to adjust for gestational age; fetal sex; and maternal age, height, ed
146 birth weight compared to white infants were: gestational age for black infants, height and body mass
147 ncy, labor presentation, obstetric delivery, gestational age (for preterm birth), birth weight, birth
148 ional study, 239 former preterm infants with gestational age (GA) </= 32 weeks and 264 former full-te
149 udies, mean (standard deviation) BW and mean gestational age (GA) decreased over time from CRYO-ROP (
150 mass (FFM), and percentage body fat (PBF) by gestational age (GA), with the use of air-displacement p
153 [CI], 9.8-22.6), particularly those of lower gestational age (GA; relative risk [RR], 2.32; 95% CI, 1
154 (mean [standard deviation] BW = 864 [212] g; gestational age [GA] = 27 [2.2] weeks) who underwent an
157 rity trial, we assigned 564 preterm infants (gestational age, >/=28 weeks 0 days) with early respirat
160 ated that induction of labour at 39 weeks of gestational age has no short-term adverse effect on the
161 usion significantly increased with advancing gestational age; however, no such correlation was found
162 R, 1.08; 95% CI, 1.01-1.16), being large for gestational age (HR, 1.23; 95% CI, 1.05-1.45), and Apgar
164 ed weight-gain measurements as a function of gestational age in underweight, normal-weight, overweigh
166 , the number of infants born small for their gestational ages increased (8.7%-9.9%), whereas the numb
167 ter of human pregnancy are lost in large-for-gestational age infants and may be regulated by BMAL1.
168 an placentas from pregnancies with large-for-gestational age infants and this overlapped with an incr
170 l fetal malformations, delivery of large for gestational age infants, shoulder dystocia, spontaneous
173 ylation gestational age relative to clinical gestational age is associated with birthweight independe
176 the reliance on observational data in which gestational age is recorded in weeks rather than days.
177 Preterm birth (infants born at <37 wk of gestational age) is a significant clinical and public he
178 ngitudinal study of 587 preterm infants with gestational age less than 34 weeks and birth weights bet
179 (gestational age <37 wk) and small size for gestational age (less than the fifth percentile) were de
181 mall for gestational age (SGA) and large for gestational age (LGA), defined as birth weight <10(th) o
183 ivery (linear, p<0.0001) and being small for gestational age (linear, p=0.0027), with adjusted ORs of
184 pregnant body mass index, newborn gender and gestational age, logistic regression analysis revealed t
185 eks and before 32 weeks, small and large for gestational age, low birth weight, and neonatal intensiv
186 illbirth, major birth defect, small size for gestational age, low birth weight, and preterm birth.
189 by repeated ultrasounds, and preterm birth (gestational age <37 wk) and small size for gestational a
190 s of gestation (stratified according to sex, gestational age [<27 weeks or 27 to <29 weeks], and cent
191 infected prior to the first antenatal visit (gestational age, <120 days) and not later in pregnancy.
192 ations were controlled for date of delivery, gestational age, maternal body mass index, maternal age,
195 t, small for gestational age, very small for gestational age, miscarriage, stillbirth, and neonatal d
197 l impairment or mortality among nonsmall for gestational age multiples (aRR = 0.82; 95% CI, 0.74-0.92
198 pectively) and a higher risk among small for gestational age multiples (aRR = 1.40; 95% CI, 1.02-1.93
201 incidence of gestational diabetes, large-for-gestational-age neonates, or adverse neonatal outcomes.
203 improved, with lower incidence of large for gestational age (odds ratio 0.51, 95% CI 0.28 to 0.90; p
204 2011, 832 women entered the trial at a mean gestational age of 10.7 weeks (SD 2.7); median urinary i
206 rain abnormality detected by ultrasound at a gestational age of 18 weeks or more, had no contraindica
207 tcome was death or disability at a corrected gestational age of 2 years; this outcome was evaluated a
209 462 (3.2%) of 14 678 babies born before a gestational age of 32 weeks developed severe necrotising
210 ute risk difference for babies born before a gestational age of 32 weeks who received their own mothe
212 In the subgroup of babies born before a gestational age of 32 weeks, we did a propensity score a
214 is showed increased mortality at a corrected gestational age of 36 weeks, and enrollment was stopped.
215 There were 35906 singleton births at a mean gestational age of 38.7 weeks (50.4% were male, mean mat
216 A1 (Gravida2, para0, abortion1) woman with a gestational age of around 12 weeks was referred for a ro
218 SE REPORT: A 25-year-old G1P0A0 woman with a gestational age of around 22 weeks was referred for an a
219 pared all live births and stillbirths with a gestational age of at least 24 weeks in 8 geographically
221 o underwent NBS and had confirmed CF, with a gestational age of at least 35 weeks, birth weight of at
225 ure had retarded intrauterine growth between gestational ages of 212 and 253 days (difference between
226 A total of 1527113 singleton infants with gestational ages of 23 to 41 weeks born between 1992 and
227 78.2%] of 37 514) of stillbirths occurred at gestational ages of younger than 37 weeks, and about two
229 n was found between the ffERG recordings and gestational age or retinopathy of prematurity in the pre
230 io [OR], 1.47 [95% CI, 1.40-1.55]; small for gestational age OR, 1.15 [95% CI, 1.06-1.25]; autism spe
231 [95% CI, 1.18-1.52]) but not with small for gestational age (OR, 1.01 [95% CI, 0.81-1.25]), autism s
235 nal age (SGA; <10th percentile of weight for gestational age) or neonatal death (<28 days from delive
236 tcomes (preterm birth, stillbirth, small for gestational age, or congenital malformations) in women w
237 owed a significant negative association with gestational age (P < .0001) in the combined cohort, with
238 ery and 1.12 (1.04-1.21) for being small for gestational age per unit increase in Ln-vanadium concent
240 nts, adjusting in linear regression for sex, gestational age, race/ethnicity, maternal BMI, study sit
241 also find that an increased DNA methylation gestational age relative to clinical gestational age is
242 tres), astigmatism, birth weight percentile, gestational age, retinopathy of prematurity occurrence,
243 The risk of very low birthweight, small for gestational age, severe small for gestational age, still
246 volumes and DTI measures accounted for birth gestational age, sex, PMA, dose of analgesics/sedatives
247 ve and -negative preterm infants matched for gestational age, sex, race, prenatal steroid exposure, a
248 ntervals (CIs) in the incidence of small for gestational age (SGA) and large for gestational age (LGA
249 ; malformations; preterm delivery; small for gestational age (SGA) baby; need for the neonatal intens
250 the proportion of live births born small for gestational age (SGA) or preterm and mean birth weight.
251 dmission, congenital malformation, small for gestational age (SGA), birth injury, low Apgar score (</
252 nal status is a key determinant of small for gestational age (SGA), but some knowledge gaps remain, p
253 was compared with birth outcomes [small for gestational age (SGA), preterm birth (PTB)].In an observ
255 h, preterm birth (<37 weeks), small size for gestational age (SGA; <10th percentile of weight for ges
258 riate-for-gestational-age (AGA) or small-for-gestational-age (SGA) to identify new genes related to f
259 outcomes (low BW [LBW], <2500 g), small-for-gestational-age [SGA], and BW z scores [BWZ]) in HIV-exp
260 examine and meta-analyze the associations of gestational age, size for gestational age, and infant we
264 n be used to express maternal weight gain as gestational age-standardized z scores with early pregnan
265 e of preterm birth (<37 weeks) and small for gestational age status (SGA) among infants exposed prena
267 small for gestational age, severe small for gestational age, stillbirth, and congenital anomalies di
268 , enrollment in public pre-Kindergarten, and gestational age, to determine the association of CHD wit
270 developed a statistical model for predicting gestational age using MoBa 1 for training and MoBa 2 for
271 ction and very preterm birth, very small for gestational age, very low birthweight, miscarriage, or n
272 thweight, preterm low birthweight, small for gestational age, very small for gestational age, miscarr
274 eligible survivors, 1503 were assessed (mean gestational age was 26.3 weeks; 68% were white, 9% were
277 infants (54.3%) were boys, and the mean (SD) gestational age was 28.5 (2.2) weeks and mean (SD) birth
285 among preterm neonates younger than 28 weeks gestational age was not associated with the composite ou
288 0 nmol/L for preterm birth or small size for gestational age were 17.3% and 22.6%, respectively.
289 y surface area, and organ circumference) and gestational age were statistically significantly associa
290 and gifted status were positively related to gestational age, whereas low performance was inversely r
291 c brain activity increases in magnitude with gestational age, whereas reflex withdrawal activity decr
292 odels were used to assess the association of gestational age with cognitive and physical outcomes at
293 iency, renal tubular acidosis, and small for gestational age with no catch-up after 2 or 3 years.
294 lated sex-specific birth length z scores for gestational age with the use of international reference
296 ophthalmologist), CHOP-ROP (birth weight and gestational age, with weekly weight gain initiating exam
297 ruited infants born between 23 and 30 weeks' gestational age within 48 h of birth from 24 hospitals i
299 d population-based pregnancy weight-gain-for-gestational-age z score charts for Swedish women who wer
300 birth was classified using birth weight-for-gestational-age z scores and conditional fetal growth z
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