1.A comparative study of cerebellar development between appropriate-for-gestational age infants and small-for-gestational-age infants.
Ying WANG ; Gui-Fang LI ; Rui-Ke LIU ; Li LI ; Xue-Qian DU ; Gui-Lian LI ; Shuai CHEN
Chinese Journal of Contemporary Pediatrics 2020;22(9):936-941
OBJECTIVE:
To investigate whether there is a difference in cerebellar development between appropriate -for-gestational-age (AGA) infants and small-for-gestational-age (SGA) infants.
METHODS:
A total of 165 AGA infants and 105 SGA infants, with a gestational age of 26-40 weeks, were enrolled in this study. Within 24-48 hours after birth, ultrasound examination was performed to measure the transverse diameter of the cerebellum, the height of the vermis, the area of the vermis, the perimeter of the vermis, and the area and perimeter of the cerebellum on transverse section. A Pearson correlation analysis was used to investigate the correlation between cerebellar measurements and gestational age.
RESULTS:
In both AGA and SGA infants, all cerebellar measurements were positively correlated with gestational age (r=0.50-0.81, P<0.05). In AGA and SGA infants, there were no significant differences in the measurements between the 25-27 weeks, 28-30 weeks, and 31-33 weeks of gestational age subgroups (P>0.05), while in the 34-36 weeks and 37-40 weeks subgroups, the SGA infants had significantly lower measurements than the AGA infants (P<0.05).
CONCLUSIONS
The SGA infants with a gestational age of <34 weeks have intrauterine cerebellar development similar to AGA infants, but those with a gestational age of ≥34 weeks have poorer intrauterine cerebellar development than AGA infants.
Cerebellum
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Gestational Age
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Humans
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Infant
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Infant, Small for Gestational Age
;
Ultrasonography
2.Effect of oral motor intervention in improving brain function development in preterm infants: a randomized controlled trial.
Rong ZHANG ; Yu CHEN ; Lian-Yu ZHANG ; Yu WANG ; Wen-Bin DONG
Chinese Journal of Contemporary Pediatrics 2021;23(5):475-481
OBJECTIVE:
To study the effect of oral motor intervention (OMI) on brain function development in preterm infants.
METHODS:
A total of 112 preterm infants were stratified into small-gestational-age (30-31
RESULTS:
On day 7 of OMI, the small-gestational-age intervention group had lower upper bounds of voltage and bandwidth and a higher aEEG score than the small-gestational-age control group (
CONCLUSIONS
OMI can promote the maturation of aEEG background activities, improve neurobehavioral manifestations, and accelerate brain function development in preterm infants.
Brain
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Electroencephalography
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Gestational Age
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Humans
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Infant
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Infant, Newborn
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Infant, Premature
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Infant, Small for Gestational Age
3.Neuropsychological development of large for gestational age infants at the age of 12 months.
Meng-Yu BAO ; Xiu-Yun QIAO ; Xin-Han ZHANG ; Zi-Xuan ZHANG ; Fei ZHAO ; Xin-Xia CHEN
Chinese Journal of Contemporary Pediatrics 2023;25(12):1246-1252
OBJECTIVES:
To investigate the level of neuropsychological development in large for gestational age (LGA) infants at the age of 12 months.
METHODS:
The infants, aged 12 to <13 months, who attended the Outpatient Service of Child Care in the First Affiliated Hospital of Shandong First Medical University from December 2021 to June 2023, were enrolled as subjects. According to the gestational age and birth weight, they were divided into preterm appropriate for gestational age (AGA) group, preterm LGA group, early term AGA group, early term LGA group, full-term AGA group, and full-term LGA group. A modified Poisson regression analysis was used to investigate the association between LGA and neuropsychological development outcome at 12 months of age.
RESULTS:
After adjustment for confounding factors, compared with the full-term AGA group at the age of 12 months, the full-term LGA group had a significant increase in the risk of language deficit (RR=1.364, 95%CI: 1.063-1.750), the early term LGA group had significant increases in the risk of abnormal gross motor, fine motor, language, and the preterm LGA group had significant increases in the risk of abnormal language, social behavior, and total developmental quotient (P<0.05); also, the early term AGA group had higher risks of developmental delay across all five attributes and in total developmental quotient at the age of 12 months (P<0.05); except for the language attribute, the preterm AGA group had higher risks of developmental delay in the other 4 attributes (P<0.05).
CONCLUSIONS
The neuropsychological development of LGA infants with different gestational ages lags behind that of full-term AGA infants at 12 months of age, and follow-up and early intervention of such infants should be taken seriously in clinical practice.
Infant, Newborn
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Infant
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Child
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Humans
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Birth Weight
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Infant, Large for Gestational Age
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Infant, Small for Gestational Age
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Gestational Age
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Child Health
4.Combined effect of gestational age and birth weight on metabolites related to inherited metabolic diseases in neonates.
Fang YI ; Ling WANG ; Mei WANG ; Xue-Lian YUAN ; Hua-Jing WAN ; Jia-Yuan LI
Chinese Journal of Contemporary Pediatrics 2018;20(5):352-357
OBJECTIVETo study the combined effect of gestational age and birth weight on metabolites related to inherited metabolic diseases (IMD).
METHODSA total of 3 381 samples ruled out of IMD by follow-up were randomly selected from 38 931 newborns who participated in the neonatal IMD screening during 2014-2016. The 3 381 neonates were categorized into seven groups according to their gestational age and birth weight: extremely preterm appropriate-for-gestational age (AGA) group (n=12), preterm small-for-gestational age (SGA) group (n=18), preterm AGA group (n=219), preterm large-for-gestational age (LGA) group (n=18), full-term SGA group (n=206), full-term AGA group (n=2 677), and full-term LGA group (n=231). Heel blood samples were collected from each group on postnatal days 3-7 after adequate breastfeeding. Levels of 17 key IMD-related metabolic indices in dried blood spots were measured using tandem mass spectrometry. Spearman′s correlation analysis was used to investigate the relationships between 17 IMD-related metabolic indices and their influencing factors, while covariance analysis was used to compare the metabolic indices between these groups.
RESULTSAfter adjusting the influencing factors such as physiological and pathological status, compared with the full-term AGA group, the extremely preterm AGA, preterm SGA, and preterm AGA groups had significantly reduced levels of leucine\isoleucine\hydroxyproline and valine (P<0.05); the preterm AGA group had a significantly decreased ornithine level (P<0.05); the extremely preterm AGA and preterm AGA groups had a significantly reduced proline level (P<0.05). Besides, the phenylalanine level in the extremely preterm AGA and preterm AGA groups, the methionine level in the preterm SGA group, and the tyrosine level in the preterm AGA group all significantly increased (P<0.05). The increased levels of free carnitine, acetylcarnitine, and propionylcarnitine were found in the preterm SGA and preterm AGA groups. The oleylcarnitine level also significantly increased in the preterm SGA group (P<0.05). Most carnitine indices showed significant differences between the SGA group and the AGA/LGA group in both preterm and full-term infants (P<0.05).
CONCLUSIONSLow gestational age and low birth weight may result in abnormal results in IMD screening. Therefore, gestational age and birth weight should be considered to comprehensively judge the abnormal results in IMD screening.
Birth Weight ; Female ; Gestational Age ; Humans ; Infant, Newborn ; Infant, Small for Gestational Age ; Male ; Metabolic Diseases ; metabolism
5.Effect of hypertensive disorders of pregnancy on peripheral venous blood cell count in preterm infants with a gestational age of 28-34 weeks.
Chinese Journal of Contemporary Pediatrics 2022;24(1):60-64
OBJECTIVES:
To study the effect of hypertensive disorders of pregnancy on peripheral venous blood cell count in preterm infants with a gestational age of 28-34 weeks.
METHODS:
A total of 227 preterm infants with a gestational age of 28-34 weeks who were admitted to the Department of Pediatrics, the First Hospital Affiliated to Kunming Medical University, from January to December 2020, and whose mothers had hypertensive disorders of pregnancy were enrolled as the study group. A total of 227 preterm infants with a gestational age of 28-34 weeks who were admitted during the same period and whose mothers did not have hypertensive disorders of pregnancy were enrolled as the control group. According to maternal blood pressure during pregnancy, the study group was divided into three subgroups: gestational hypertension (n=75), mild preeclampsia (n=81), and severe preeclampsia (n=71). According to the birth weight of the preterm infants, the study group was divided into two subgroups: small for gestational age (SGA) (n=113) and appropriate for gestational age (AGA) (n=114). Peripheral blood cell count on day 1 after birth was compared between the study and control groups, as well as between the subgroups of the study group.
RESULTS:
Compared with the control group, the study group had significantly lower white blood cell count, absolute neutrophil count, and blood platelet count (P<0.05) and significantly higher incidence rates of leucopenia and neutropenia (P<0.05). The subgroup analysis showed that the mild preeclampsia and severe preeclampsia subgroups had significantly lower white blood cell count, absolute neutrophil count, and blood platelet count than the gestational hypertension subgroup (P<0.05), and that the SGA subgroup had significantly lower white blood cell count, absolute neutrophil count, and blood platelet count than the AGA subgroup (P<0.05).
CONCLUSIONS
Hypertensive disorders of pregnancy can affect the peripheral venous blood cell count of preterm infants, which is more significant in infants with maternal preeclampsia and SGA infants.
Child
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Female
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Gestational Age
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Humans
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Hypertension, Pregnancy-Induced
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Infant
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Infant, Newborn
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Infant, Premature
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Infant, Small for Gestational Age
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Platelet Count
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Pregnancy
6.Recent research on the influence of intrauterine growth restriction on the structure and function of the nervous system.
Chinese Journal of Contemporary Pediatrics 2021;23(11):1184-1189
Intrauterine growth restriction (IUGR) is caused by many factors, and most newborns with IUGR are small for gestational age (SGA). SGA infants have a relatively high risk of death and disease in the perinatal period, and the nervous system already has structural changes in the uterus, including the reduction of brain volume and gray matter volume, accompanied by abnormal imaging and pathological changes. IUGR fetuses undergo intrauterine blood flow redistribution to protect brain blood supply, and there are still controversies over the clinical effect of brain protection mechanism. SGA infants have a relatively high risk of abnormal cognitive, motor, language, and behavioral functions in the neonatal period and childhood, and preterm infants tend to have a higher degree of neurological impairment than full-term infants. Early intervention may help to improve the function of the nervous system.
Brain
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Child
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Female
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Fetal Growth Retardation
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Gestational Age
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Humans
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Infant
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Infant, Newborn
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Infant, Premature
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Infant, Small for Gestational Age
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Pregnancy
7.A clinical study of growth and metabolism of small for gestational age infants.
Qing-Hua ZHONG ; Jiang DUAN ; Kun LIANG ; Jie ZENG ; Zhi-Ye QI ; Xiang-Ying HE
Chinese Journal of Contemporary Pediatrics 2019;21(5):458-462
OBJECTIVE:
To study the differences in growth and metabolism between small for gestational age (SGA) infants and appropriate for gestational age (AGA) infants.
METHODS:
A total of 1 370 preterm infants were enrolled in this study. According to the association between gestational age and birth weight, they were divided into SGA group with 675 infants and AGA group with 695 infants. The two groups were compared in terms of general conditions, physical growth and blood biochemical parameters.
RESULTS:
The SGA group had a significantly longer length of hospital stay than the AGA group (P<0.05). Compared with the AGA group, the SGA group had significantly lower body weight, body weight Z score, and body length at discharge and significantly higher incidence rate of extrauterine growth retardation and growth rate of head circumference (P<0.05). Compared with the AGA group, the SGA group had significantly longer time to full enteral nutrition and duration of parenteral nutrition (P<0.05). Compared with the AGA group, the SGA group had significantly higher levels of albumin, prealbumin, and serum phosphorus on admission and total bile acid before discharge, as well as a significantly lower albumin level before discharge (P<0.05). The incidence rates of asphyxia, neonatal respiratory distress syndrome, myocardial damage, feeding intolerance, pneumonia, sepsis, hypoglycemia and hypothyroxinemia in the SGA group were significantly higher than in the AGA group (P<0.05).
CONCLUSIONS
Compared with AGA infants, SGA infants have significantly delayed physical development during hospitalization and significantly higher incidence rates of extrauterine growth retardation and related complications.
Birth Weight
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Gestational Age
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Humans
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Infant
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Infant, Newborn
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Infant, Premature
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Infant, Small for Gestational Age
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Respiratory Distress Syndrome, Newborn
8.Longitudinal study on catch-up growth in preterm infants with small for gestational age at corrected ages 0-24 months.
Jia-Mei LI ; Qun-Ying XIE ; Yu-Qi WEN ; Yan-Yan SONG ; Hui-Ying LIANG ; Yan HU
Chinese Journal of Contemporary Pediatrics 2024;26(1):72-80
OBJECTIVES:
To understand the growth and development status and differences between small for gestational age (SGA) and appropriate for gestational age (AGA) preterm infants during corrected ages 0-24 months, and to provide a basis for early health interventions for preterm infants.
METHODS:
A retrospective study was conducted, selecting 824 preterm infants who received regular health care at the Guangzhou Women and Children's Medical Center from July 2019 to July 2022, including 144 SGA and 680 AGA infants. The growth data of SGA and AGA groups at birth and corrected ages 0-24 months were analyzed and compared.
RESULTS:
The SGA group had significantly lower weight and length than the AGA group at corrected ages 0-18 months (P<0.05), while there were no significant differences between the two groups at corrected age 24 months (P>0.05). At corrected age 24 months, 85% (34/40) of SGA and 79% (74/94) of AGA preterm infants achieved catch-up growth. Stratified analysis by gestational age showed that there were significant differences in weight and length at corrected ages 0-9 months between the SGA subgroup with gestational age <34 weeks and the AGA subgroups with gestational age <34 weeks and 34 weeks (P<0.05). In addition, the weight and length of the SGA subgroup with gestational age 34 weeks showed significant differences compared to the AGA subgroups with gestational age <34 weeks and 34 weeks at corrected ages 0-18 months and corrected ages 0-12 months, respectively (P<0.05). Catch-up growth for SGA infants with gestational age <34 weeks and 34 weeks mainly occurred at corrected ages 0-12 months and corrected ages 0-18 months, respectively.
CONCLUSIONS
SGA infants exhibit delayed early-life physical growth compared to AGA infants, but can achieve a higher proportion of catch-up growth by corrected age 24 months than AGA infants. Catch-up growth can be achieved earlier in SGA infants with a gestational age of <34 weeks compared to those with 34 weeks.
Infant, Newborn
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Child
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Infant
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Female
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Humans
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Child, Preschool
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Infant, Premature
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Gestational Age
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Longitudinal Studies
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Retrospective Studies
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Infant, Small for Gestational Age
9.Research progress on neurodevelopmental outcomes of small for gestational age infants.
Yi Min ZHANG ; Shu Ming SHAO ; Xiao Rui ZHANG
Chinese Journal of Preventive Medicine 2023;57(6):935-940
The incidence of perinatal disease and perinatal mortality in small for gestational age infants increased significantly. This group of people is prone to a variety of long-term metabolic diseases and cardiovascular diseases, and is also prone to growth retardation and neurodevelopmental delay, which will seriously affect the long-term quality of life of children. The article studies the neurodevelopmental outcomes of small-for-gestational-age infants. By reviewing and sorting out previous literature, the neurodevelopmental disorders of small-for-gestational-age infants are analyzed according to five aspects: intellectual development, motor development, language development, sensory development, and mental illness. The classification and summary were carried out, and the influencing factors of neurodevelopmental disorders of SGA were also evaluated, so as to provide reference for promoting the improvement of neurodevelopmental outcomes of small-for-gestational-age infants.
Infant, Newborn
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Pregnancy
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Female
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Child
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Infant
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Humans
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Gestational Age
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Quality of Life
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Infant, Small for Gestational Age
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Fetal Growth Retardation/epidemiology*
10.Assessment of insular development in small for gestational age infants.
Yuan-Nong CHEN ; Li-Xia SUN ; Yan-Qiu ZHANG
Chinese Journal of Contemporary Pediatrics 2009;11(9):733-735
OBJECTIVETo study the insular development of small for gestational age (SGA) infants.
METHODSThe insular area and circle were measured by cerebral ultrasonography in 92 SGA infants. The results were compared with those from 109 appropriate for gestational age (AGA) infants.
RESULTSThe insular area and circle were positively correlated with the birth weight and gestational age in SGA infants. The insular area in SGA infants with a gestational age of either >37 weeks (451 +/- 92 mm2 vs 516 +/- 116 mm2; p<0.01) or < or = 34 weeks (248 +/- 78 mm2 vs 314 +/- 80 mm2; p<0.01) was significantly less than that in the AGA infants. The insular circle in SGA infants with a gestational age of >37 weeks was also significantly less than that in the AGA infants (92 +/- 11 mm vs 97 +/- 11 mm; p<0.05).
CONCLUSIONSThe insular development of SGA infants seems to be immature. The insular development may be assessed based on the insular area and circle measured by cerebral ultrasonography.
Birth Weight ; Cerebral Cortex ; embryology ; Echoencephalography ; Female ; Gestational Age ; Humans ; Infant, Newborn ; Infant, Small for Gestational Age ; Male