1.Actual fundal height and uteral circumference in the prediction of fetal weight
Journal of Vietnamese Medicine 1999;233(2):18-23
Fundal height and abdominal circumference has been used for predicting fetal weight by many obstetricians for a long time. The results has proved: there are relatively relationship between, measurement values and fetal weight with the correlation coefficient (r=0.7). The error prediction was high, due to the misleading factor: abdominal thickness. This is differ from mother to others. This should be eliminated by using the actual uterine height (AUH) and actual uterine circumference (AUC) value. The results of this study demonstrated that: a close correlation between AUH (x1); AUC (x2); AUH+AUC (x3) and fetal weight (y) with correlation function and correlation coefficient as follow: Y=206.8x1-311.2; r>0.9; Y=79x2-3369.9; r>0.9; Y=57.6x3-3348; r>0.9; This appear to be a higher accurate method in fetal weight assessment.
Fetus
;
Birth Weight
2.The relationship between weight gain during pregnancy, birth weight and IQ of children after 5 years delivery
Journal of Preventive Medicine 2001;11(2):14-19
Longitudinal study of 157 children from 14-18 weeks of gestation to 5 years after delivery to find out relationship between weight gain during pregnancy and birth weight with IQ index of children 5 years of old. Raven's test (Progressive Matrices) was used to evaluate mental development of child. The results showed that: there was positive correlation between birth weight and IQ index. The children with lower birth weight will have IQ index lower after 5 years delivery. In addition to, the results of study showed that: weight gain during pregnancy had strong positive correlation with birth weight
Pregnancy
;
Weight Gain
;
Birth Weight
;
Child
3.The relationship between maternal serum and leukocyte zinc concentration and birth weight.
Sung Rim KIM ; Dae Hyun CHO ; Gee Deuk KIM ; Min Whan KOH ; Tae Hyung LEE ; Sung Ho LEE
Korean Journal of Obstetrics and Gynecology 1991;34(6):796-803
No abstract available.
Birth Weight*
;
Leukocytes*
;
Parturition*
;
Zinc*
4.Factors Related To Low Birth Weight Babies In Baghdad City, Iraq
Mohammed A. AbdalQader ; Shamsul Azhar Shah ; Zaleha Md Isa ; Hasanain Faisal Ghazi Idayu Badilla ; Tiba Nezar Hasan
Malaysian Journal of Public Health Medicine 2014;14(2):45-49
Great importance has been attributed to birth weight all over the world because it is considered as one of the best predictors of prenatal survival and a good indicator of quality life. The objective of this study was to determine the prevalence of low birth weight babies (LBW) and factors related to it in Baghdad city. A cross sectional study was carried out in four general hospitals in Baghdad city, Iraq. A total of 225 newborn babies, alive, singleton and without congenital malformation were selected randomly from these four general hospitals.The result of the study showed the prevalence rate of low birth weights was 21.3%. Mothers’ educational level, monthly family income, mothers with chronic hypertension, mothers with history of previous low birth weight infants and anemic mothers were significantly associated with low birth weight babies (P= 0.03, 0.01, 0.02,<0.01, 0.02) respectively. It is clearly evidenced the lack of equity in populations and disparity in socioeconomic status are common related factors for the low birth weight babies as can be seen as a public and global health problem.
Infant, Low Birth Weight
;
Iraq
5.Status of screening for retinopathy of prematurity in a tertiary hospital
Marcelino D Banzon ; Carlos S. Ladores
Philippine Journal of Ophthalmology 2010;35(2):61-64
Objective:
This study determined the status of screening for retinopathy of prematurity
(ROP) at a university hospital and correlated birth weight (BW) and age of
gestation (AOG)with ROP staging.
Methods:
Clinical records of premature babies referred for ROP screening from July
2007 to August 2008 were included in the study. They were reviewed if they
met the inclusion criteria of BW less than 1,500 grams and AOG less-than-28
weeks. These parameters were correlated with the ROP staging.
Results:
A total of 65 babies were included in the review, 20 (10 males and 10 females)
of whom met the criteria for ROP screening. Only 7 were seen by an
ophthalmologist. The mean BW was 1.35 kg with AOG of 32 to 33 weeks. Two
babies had stage-II ROP, 1 of whom improved after indirect laser treatment.
There was strong correlation between BW and ROP (r = –0.60, p = 0.13) and
between AOG and ROP (r = –0.56, p = 0.19), but the results did not reach
statistical significance.
Conclusion
Less than half of premature babies who met the inclusion criteria for ROP
screening were evaluated by an ophthalmologist. Ophthalmologists and
pediatricians should work together to increase the capture rate of ROP
screening among babies born preterm.
Retinopathy of Prematurity
;
Birth Weight
;
Sepsis
6.Clinical Evaluation of Postnatal Weight Gain in Premature and Low Birth Weight Infants.
Journal of the Korean Pediatric Society 1978;21(8):587-594
Among premature and low birth weight infants admitted between March 1970 and February 1977, 228 infants who were clinically normal and older than 7 hospital days are evaluated as to the changes of baby weight. The average postnatal weight loss was 18 to 8 per cent during the first 7 to 17 days after birth. Infants refained their birth weight at the age of 15 to 17 days in the weight group of 1001 to 1250g 9 to 10 days in 1251 to 1500g, 13 to 15 days in 1501 to 1750g, 14 to 16 days on 1751 to 2000g, 11 to 13 days in 2001 to 2250g, 7 to 8 days in 2251 to 2500g. Postnatal weight gain in this study corresponded well to Dancis postnatal growth curve.
Birth Weight
;
Humans
;
Infant*
;
Infant, Low Birth Weight*
;
Infant, Newborn
;
Parturition
;
Weight Gain*
;
Weight Loss
7.Effects of maternal work activity during pregnancy on preterm birth and low birth weight.
Sang Heon KIM ; Yoon Kee PARK ; Sung Ho LEE
Korean Journal of Obstetrics and Gynecology 1993;36(8):3273-3280
No abstract available.
Humans
;
Infant, Low Birth Weight*
;
Infant, Newborn
;
Pregnancy*
;
Premature Birth*
8.Birth Weight for Gestational Age Patterns by Sex, Plurality, and Parity in Korean Population.
Korean Journal of Perinatology 2007;18(1):1-11
No abstract available.
Birth Weight*
;
Female
;
Gestational Age*
;
Parity*
;
Parturition*
9.Clinical Observation on Very Low Birth Weight Infants.
Ran Ah KIM ; Yeong Jee KIM ; Kyung Hee KIM ; Keun LEE
Journal of the Korean Pediatric Society 1986;29(1):26-31
No abstract available.
Humans
;
Infant*
;
Infant, Very Low Birth Weight*
10.Clinical Survey of Very low Birth Weight Infant.
Seong Sook JEON ; Wha Mo LEE ; Yang Sook CHOI
Journal of the Korean Pediatric Society 1988;31(9):1120-1125
No abstract available.
Humans
;
Infant, Very Low Birth Weight*