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1 ver time was observed for weight, length, or head circumference.
2 rebellum, or lateral ventricle volume or for head circumference.
3 iffer in prenatal lateral ventricle width or head circumference.
4 the hospital stay for neonates, and neonatal head circumference.
5 7 for weight, 0.001 for length, and 0.50 for head circumference.
6 ficantly decreased birth length, weight, and head circumference.
7 eHg and n-3 HUFAs had lower birth length and head circumference.
8 ength of gestation, birthweight, length, and head circumference.
9 o gestational age, 5-minute Apgar score, and head circumference.
10 iometric characteristics, such as weight and head circumference.
11 a 0.10-cm decrease (95% CI: -0.19, -0.01) in head circumference.
12 o-moderate prenatal alcohol exposure affects head circumference.
13  A1c, salivary cortisol, sitting height, and head circumference.
14 nly), but no benefit was shown for length or head circumference.
15 ction tend to be higher in those with larger head circumferences.
16 nt length (0.3 cm [-0.1 to 0.6]; p=0.16), or head circumference (0.2 cm [-0.1 to 0.4]; p=0.18).
17  P = 0.004), length (0.7 cm; P = 0.022), and head circumference (0.5 cm; P = 0.012).
18 (+0.56; P < 0.001), BMIZ (+0.52; P < 0.001), head circumference (0.50 cm; P = 0.017), and head circum
19  (+0.13 compared with the IFA-MNP group) and head circumference (+0.15 z score compared with the IFA-
20 -27 g; 95% credibility interval: -59, 6) and head circumference (-0.12 cm; 95% credibility interval:
21 increment; 95% CI: -0.55, -0.03 cm), smaller head circumference (-0.20 cm; 95% CI: -0.38, -0.02 cm),
22  3.0), 0.02 mm (3.0), and -2.69 mm (3.2) for head circumference; 0.83 mm (0.9), -0.05 mm (0.8), and -
23 irth weight (-38.1 g; 95% CI: -164, 88.3) or head circumference (-1.73 mm; 95% CI: -5.91, 2.44) than
24 s a phenotype including marked microcephaly (head circumference 12 s.d. below the mean) and dwarfism
25              Severe microcephaly, defined as head circumference 3 SD below the mean for sex and gesta
26 1] kg), height (69 [5] cm vs 69 [3] cm), and head circumference (44.4 [1.7] cm vs 44.2 [1.7] cm) meas
27 ent literature suggests that mean changes in head circumference, abdominal circumference, femur lengt
28 models were used to estimate heritability of head circumference, along with birth weight and length f
29 and 36 weeks' gestation also predicted lower head circumference, although these associations were dep
30 evidence of smaller birth weight, length, or head circumference among whites or Hispanics.
31  CI: -0.54, 0.25; p-interaction = 0.048] and head circumference [among low n-3 HUFAs, betaln(MeHg) =
32                                              Head circumference, an accurate indicator of brain size
33 p CNV interval correlate with differences in head circumference, an ASD-relevant phenotype.
34 the mean deviations from the population mean head circumference and birth weight z scores were reduce
35                        There also were lower head circumference and BMI measurements among duplicatio
36                                        Fetal head circumference and body length and weight were estim
37 body mass index, intracranial volume, infant head circumference and childhood cognitive ability.
38 ur, intrauterine growth is not impaired, and head circumference and genital development are usually n
39 atures including increased height, increased head circumference and intellectual disability.
40                                Retrospective head circumference and longitudinal brain volume studies
41                                              Head circumference and lower leg longitudinal growth wer
42                              Measurements of head circumference and the widths of the frontal horn (F
43    Microcephaly is defined as a reduction in head circumference and this clinical finding infers that
44 locus similarly display mirror phenotypes on head circumference and weight.
45 rcumference, femur length and its ratio with head circumference and with biparietal diameter, and EFW
46 rthweight, congenital malformations, reduced head circumference), and 3) complications of delivery (u
47 ) gestation, -0.22 cm (95% CI: -0.42, -0.03) head circumference, and -0.14 (95% CI: -0.24, -0.04) bir
48 served between PFOA and placental weight and head circumference, and a positive association was obser
49                  For newborn weight-for-age, head circumference, and arm circumference, the point est
50 ntrations and birth weight, gestational age, head circumference, and birth weight for gestational age
51 re associated with mirror phenotypes on BMI, head circumference, and brain volume and represent frequ
52 -associated deficits in infant birth weight, head circumference, and brain:body weight ratio, but did
53 f nondaily smokers in terms of birth weight, head circumference, and brain:body weight ratio, but the
54 c proximity to use and birth weight, length, head circumference, and gestational age.
55 in longer pregnancy duration, greater infant head circumference, and improved maternal cardiovascular
56 ations with intrauterine growth retardation, head circumference, and length of gestation were investi
57 associated with infant birth weight, length, head circumference, and length of gestation.
58 otal variability in crown-rump length, fetal head circumference, and newborn birthlength could be att
59   The coexistence of low birth weight, small head circumference, and parental history of overweight o
60         Differences in birth weight, length, head circumference, and ponderal index were estimated us
61 eight/height index, upper arm anthropometry, head circumference, and the protein equivalent of nitrog
62 rformed: birth weight, birth length, newborn head circumference, and two nonlinear functions of these
63 ength of gestation, birthweight, length, and head circumference, and were more likely to deliver macr
64 sence of ASD or other DSM-IV diagnoses; BMI; head circumference; and medical data.
65                                              Head circumference appears normal at birth, with a signi
66             However, people who had a larger head circumference as an adult gained significantly high
67 th weight, birth length, ponderal index, and head circumference at 1 year), even after stratifying su
68                           Growth velocity of head circumference at 3 months of age, adjusting for ges
69 l (CI) 0.34 to 3.62] for each SD increase in head circumference at 9 months and by 2.87 points (95% C
70 95% CI 1.05 to 4.69) for each SD increase in head circumference at 9 years of age, after adjustment f
71                        A 0.10-cm decrease in head circumference at birth (95% credibility interval: -
72                                              Head circumference at birth (HC), a proxy for prenatal c
73 een the INS VNTR III/III genotype and larger head circumference at birth (odds ratio [OR] 1.92, 95% C
74 eek of pregnancy whose fetuses had preserved head circumference at birth and findings of subependymal
75             We found no associations between head circumference at birth and score on the cognitive f
76 halopathy that was characterized by a normal head circumference at birth, basal ganglia calcification
77 ticipants were selected and matched based on head circumference at birth, gestational age, maternal a
78 tational age and greater weight, length, and head circumference at birth.
79                                              Head circumference at term was smaller in the Imm-RDI gr
80 6 (P<0.05) and 9 (P<0.01) mo and had smaller head circumferences at 9 mo (P<0.05).
81 derwent at least one examination that showed head circumference below the 5th percentile, head circum
82 gth (beta = -0.85 cm; CI: -1.44, -0.27), and head circumference (beta = -0.33 cm; CI: -0.67, 0.01).
83 dy mass index, total skinfold thickness, and head circumference (beta = 0.24 (95% confidence interval
84 ys157Tyr) variants, were microcephalic, with head circumferences between -2.5 to -5 SD.
85                            We measured fetal head circumference, biparietal diameter, abdominal circu
86 h longitudinal reference intervals for fetal head circumference, biparietal diameter, humerus length,
87 primary ultrasound measures of fetal growth--head circumference, biparietal diameter, occipitofrontal
88 newborn anthropometric traits (birth length, head circumference, birth weight, percent fat mass and s
89 e to determine the effect on height, weight, head circumference, blood pressure, intelligence, and sp
90 ot observe significant group differences for head circumference, brain volume, or abnormalities in ra
91                                              Head circumference by gestational age was assessed with
92 m to be effects on birth weight, length, and head circumference caused by at least some of the medica
93 ternal serum; infant weight (kg), length and head circumference (cm) at birth; and childhood weight a
94 head circumference below the 5th percentile, head circumference could be normal in the presence of se
95 eneral activity, physiological (body weight, head circumference, crown-to-rump length), and neurochem
96                                    The fetal head circumference decreased from the 47th percentile to
97 cantly lower birth weight, birth length, and head circumference, even after women who developed preec
98 hird-trimester fetal growth characteristics (head circumference, femur length, abdominal circumferenc
99 nd smoothed centiles for weight, length, and head circumference for gestational age at birth.
100 ade for prenatal lateral ventricle width and head circumference, for neonatal intracranial, CSF, gray
101 /-0.5 SD of WHO growth standards, except for head circumference, for which the upper limit of the 95%
102 eight-for-length (P-interaction = 0.004) and head circumference-for-age (P-interaction = 0.03) became
103 ively; and newborn small head circumference (head circumference-for-age z score < -2) was 5.8%, 3.0%,
104 head circumference (0.50 cm; P = 0.017), and head circumference-for-age z score (+0.40; P = 0.022) th
105  as well as length-for-age, BMI-for-age, and head circumference-for-age z scores at age 4 mo in infan
106 01 compared with -1.59 +/- 1.02; P = 0.006), head-circumference-for-age z scores (HCZs; -1.26 +/- 1.0
107 n 14 weeks and 0 days of gestation and fetal head circumference from 14 weeks and 0 days to 40 weeks
108 nt growth with respect to weight, length, or head circumference from birth through 12 months of age.
109                          Length, weight, and head-circumference gains were assessed over the study du
110 finitively known whether dynamic features of head circumference growth are associated with autism.
111                              Acceleration in head circumference growth is associated with autism with
112 0 individuals with overgrowth (height and/or head circumference &gt;/=+2 SD) and intellectual disability
113  a study of nutrition in pregnancy and whose head circumference had been measured at 18 weeks gestati
114  in 215 men and women aged 66-75 years whose head circumference had been recorded at birth and as adu
115 ) taller, had a 0.6-cm (0.4, 0.9 cm) greater head circumference, had a 0.26 (0.09, 0.43) greater heig
116          Most positive reports have compared head circumference (HC) in ASD (an excellent proxy for e
117 tiple studies have reported an overgrowth in head circumference (HC) in the first year of life in aut
118 born pairs), and birth weight, birth length, head circumference (HC), and gestational age were evalua
119                       At birth, weight (BW), head circumference (HC), and length (BL) were also measu
120        A proxy for neurodevelopment could be head circumference (HC), but studies assessing HC and it
121 largement have recently come from studies of head circumference (HC).
122 (P = 0.130), respectively; and newborn small head circumference (head circumference-for-age z score <
123 rings' (more for sons) birth weight, height, head circumference, height-for-age z score, and weight-f
124 ernal age and intelligence, plasma ferritin, head circumference, home environment quality, school gra
125 eight in 44% of children, height in 68%, and head circumference in 43%).
126 st) Project, we measured weight, length, and head circumference in all newborn infants, in addition t
127 ead circumference measurements indicate that head circumference in boys with regressive autism is nor
128 To identify genetic variants associated with head circumference in infancy, we performed a meta-analy
129 2.8 x 10(-10)) were robustly associated with head circumference in infancy.
130 harboring a c.190T>G (p.Tyr64Asp) allele had head circumference in the normal range.
131 in five definite or probable cases presented head circumferences in the normal range (above -2 SD bel
132                     Differences in offspring head circumference, length, and ponderal index were also
133                               Infant growth (head circumference, length, and weight) was measured at
134 enital brain malformation characterized by a head circumference less than three standard deviations b
135 idence interval, 2.53-10.12, P<0.001), birth head circumference &lt;10th percentile (odds ratio, 4.15; 9
136  following other outcomes: placental weight, head circumference, macrosomia, Apgar score, small for g
137 r groups, the 899 discarded cases had larger head circumferences (mean Z scores -1.54 vs -3.13, diffe
138 4), fetal weight estimated at US (r = 0.93), head circumference measured at US (r = 0.90), and gestat
139               We also examined retrospective head circumference measurements from birth through 18 mo
140                                Retrospective head circumference measurements indicate that head circu
141 ted in significantly greater weight, length, head circumference measurements, and their respective z
142 ake before or during pregnancy and offspring head circumference modelled as a continuous outcome.
143 sociation of three markers of brain reserve (head circumference, MRI-derived brain volume, and leisur
144  weight (n = 1,169), length (n = 1,152), and head circumference (n = 1,143).
145 al development indexes of the Bayley scales, head circumference, neurological examination, and abnorm
146 eonates born with microcephaly, defined as a head circumference of 2 SD below the mean.
147 (p.Val51Leu) alleles were macrocephalic with head circumferences of +4.16 and +4.5 SD.
148 res were weight, length, and occipitofrontal head circumference (OFC) at 9 and 18 mo.
149               Stunted children's heights and head circumferences on enrollment significantly predicte
150 eners were not associated with birth length, head circumference, or gestational duration.
151 ht, small for gestational age, birth length, head circumference, or maternal weight gain.
152  birth length, length-for-age z score (LAZ), head circumference, or percentage low birth length but d
153 traordinary spread of approximately 10 SD of head circumferences orchestrated by distinct mutations i
154 , or SigmaDAPs with birth weight, length, or head circumference overall.
155 panied by reduced birth weight (P <0.05) and head circumference (P <0.01) at high altitude vs. sea le
156 III genotype remained associated with larger head circumference (P = 0.004) and was also associated w
157 owed suggestive evidence of association with head circumference (P = 3.9 x 10(-6)).
158 birth: class III homozygotes had larger mean head circumference (P=0.004) than class I homozygotes.
159 ts had a lower weight (P=0.02) and a smaller head circumference (P=0.04) at 36 weeks' postmenstrual a
160 t thus is consistent with striking postnatal head circumference percentile increases reported in auti
161 r height and weight percentiles and a higher head-circumference percentile (52nd, vs. 32nd in the con
162 ons between birth weight, crown-heel length, head circumference, ponderal index, brain:body weight ra
163  small for gestational age, birth length and head circumference, preterm birth (<37 wk), maternal wei
164 r herniation and a sonographic right lung-to-head circumference ratio of less than 1.0, may benefit f
165 ly associated with infant weight, length, or head circumference relative to nonexposure to either.
166 he total variability in postnatal length and head circumference, respectively, could be attributed to
167  found a high genetic correlation with child head circumference (rhogenetic = 0.748), which indicates
168 tal growth restriction, leading to a smaller head circumference, shorter body length, and lower body
169                                Studies using head circumference suggest that brain enlargement is a p
170 plex link between pelvis shape, stature, and head circumference that was not recognized before.
171 sible explanation for our finding of a lower head circumference-to-birth weight ratio among subjects
172 cular degeneration had a significantly lower head circumference-to-birth weight ratio than did those
173 but one of the measures of fetal proportion (head circumference-to-birth weight ratio) was significan
174 ng before and early in pregnancy with infant head circumference, using data from 68,244 mother-father
175 ny definite or probable cases present normal head circumference values and their mothers do not repor
176 irth weight was 2577 +/- 260 g, and the mean head circumference was 28.1 +/- 1.8 cm.
177                                     Adjusted head circumference was greater in the low-GL group (35.0
178  interval 0.1-0.9) compared with those whose head circumference was in the bottom quarter, after adju
179                                 People whose head circumference was in the top quarter of the distrib
180                The genotype association with head circumference was influenced by maternal parity (bi
181  as newborns without HIV exposure, but their head circumference was smaller (34.0 +/- 1.5 and 34.3 +/
182 ity (birth order): the III/III OR for larger head circumference was stronger in second and subsequent
183 for-length, mid-upper-arm circumference, and head circumference were calculated using the WHO 2006 gr
184 he levels of soluble adhesion molecules, and head circumference were compared in the same subjects.
185 in, body mass index, percentage body fat, or head circumference were found between the EF and SF grou
186 d with adult height, their effects on infant head circumference were largely independent of height (P
187                   Infant weight, length, and head circumference were measured by a physician or physi
188                          Weight, height, and head circumference were measured by using standard metho
189 ma PC AA, and normalized weight, length, and head circumference were not influenced by BPD or n-3 LCF
190     Initial observations of an above-average head circumference were supported by structural MRI stud
191 and hearing, and growth (weight, length, and head circumference) were assessed at follow-up.
192 t-for-age Z score -1.20, -1.28 to -1.11, and head circumference Z score -0.51, -0.59 to -0.43).
193 were significantly associated with a smaller head circumference Z score.
194                    Birth weight, length, and head circumference z scores also did not differ between
195 z score was associated with birth weight and head circumference z scores in all subtypes.
196 a on lymphocyte subsets; weight, height, and head circumference z scores; and cognitive/developmental
197 Neonatal weight, length, body mass index and head circumference (z-score) were all significantly asso

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