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Revista de Saúde Pública

Print version ISSN 0034-8910On-line version ISSN 1518-8787

Rev. Saúde Pública vol. 32 no. 2 São Paulo Apr. 1998

http://dx.doi.org/10.1590/S0034-89101998000200002 

Mid-upper arm circumference in pregnant women and its relation to birth weight*

Perímetro braquial da gestante e sua relação com o peso ao nascer

 

Anamaría E. Ricalde, Gustavo Velásquez-Meléndez, Ana Cristina d'A. Tanaka and
Arnaldo A.F. de Siqueira

Departamento de Saúde Materno-Infantil da Faculdade de Saúde Pública da Universidade de São Paulo (FSP/USP). São Paulo, SP - Brasil (A. E. R., A. C. A. T., A. A. F. S.), Departamento de Nutrição da FSP/USP. São Paulo, SP - Brasil (G.V.M.)

 

 

Abstract
Objective In order to determine the relationship between some maternal anthropometric indicators and birth weight, crown-heel length and newborn's head circumference, 92 pregnant women were followed through at the prenatal service of hospital in S. Paulo, Brazil.
Material and Method The following variables were established for the mother: weight, height, mid-upper arm circumference, pre-pregnancy weight, gestational weight gain and Quetelet's index. For the newborn the following variables were recorded: birth weight, crown-heel length, head circumference and gestational age by Dubowitz's method.
Results Significant associations were noted between gestational age and newborn variables. In addition, maternal mid-arm circumference (MUAC) and pre-pregnancy weight were found to be positively correlated to birth weight (r=0.399; r=0.378, respectively). The multivariate linear regression shows that gestational age, mother's arm circumference and pre-pregnancy weight continue to be significant predictors of birth weight. On the other hand, only gestational age and mother's age was associated with crown-heel length. Similarly MUAC was significantly associated with crown-heel length (r= 0.306; P=0.0030).
Conclusion Maternal mid-upper arm circumference is a potential indicator of maternal nutritional status. It could be used in association with other anthropometric measurements, instead of pre-pregnancy weight, as an alternative indicator to assess women at risk of poor pregnancy outcome.
Brachial perimeter. Pregnancy. Birth weight.
Resumo
Objetivo Para determinar a relação entre os indicadores antropométricos maternos e o peso, a estatura e o perímetro cefálico do recém-nascido, foi realizado um estudo de seguimento de noventa e duas gestantes, inscritas no serviço de pré-natal de um hospital de São Paulo, Brasil.
Material e Método Foram estudadas as seguintes variáveis na mãe: peso, estatura, perímetro braquial, peso pré-gestacional, ganho de peso, idade e Índice de Quetelet. Nos recém-nascidos foram obtidas as seguintes variáveis: peso ao nascer, estatura, perímetro cefálico e idade gestacional pelo método de Dubowitz.
Resultados Foram observadas associações significativas entre a idade gestacional do recém-nascido e suas variáveis antropométricas. Adicionalmente, o perímetro braquial materno e o peso pré-gestacional estavam significativamente correlacionados com o peso ao nascer (r = 0,399; r = 0,378 respectivamente). A regressão linear multivariada mostrou que a idade gestacional, o perímetro braquial materno e o peso pré-gestacional continuaram sendo preditores significativos do peso ao nascer. Somente a idade gestacional e a idade materna estiveram associadas com a estatura do recém-nascido, similarmente o perímetro braquial esteve associado com a estatura (r = 0,306; P = 0,0030).
Conclusão O perímetro braquial materno é um potencial indicador do estado nutricional materno. Poderia ser utilizado como indicador alternativo em substituição da estatura e peso pré-gestacional para avaliar mulheres em risco de ter um resultado da gravidez desfavorável.
Circunferência braquial. Gravidez. Peso ao nascer.

 

 

INTRODUCTION

Pregnancy outcomes related to maternal nutritional status have been measured by anthropometry. Numerous research projects 9,14,17,19 have studied maternal anthropometric indicators as predictors of birth weight. However, fewer of them have focused on the question as to which is the best indicator for the prediction of pregnancy outcomes with greater sensitivity, specificity and accuracy.

There are differences between developed and developing countries in determining the most appropriate cut-off points for anthropometric measurements5,13. Screening with measurements that require only one contact with a woman are useful due to limitations in available prenatal care in developing countries. To answer these questions some authors1,12 have studied the relationship between maternal mid-upper arm circumference (MUAC) and pregnancy outcome. They have shown that MUAC is a good indicator of pregnancy outcome.

The usefulness of MUAC for screening women at risk of poor pregnancy outcome is promising both on theoretical grounds ( it reflects maternal fat and /or lean tissue stores), because of the relationship between MUAC and weight1,6, 12, and because it is independent of gestational age8,10.

In the present study we have analyzed the relationship between some maternal anthropometric indicators, including MUAC, and birth weight, crown-heel length and the head circumference of the newborn.

 

MATERIAL AND METHOD

The present study represents part of a sample of another study10 on anthropometric measurements in pregnant women. The subjects included in this study were women who received prenatal care and were delivered at the same hospital. Ninety-two pregnant women were covered and followed through during pregnancy. Their anthropometric indicators were recorded during the period from May 1991 to February 1992.

Measurements of height, weight, and mid-upper arm circumference (MUAC), were collected in accordance with standard recommendations. MUAC was measured at three different points during the pregnancy. Only the first measure was used for the analysis, because MUAC in this study did not vary during pregnancy. All the mea-surements were taken by the first author.

Women's pre-pregnancy weight was recorded at the first prenatal visit. Gestational weight gain was recorded on the basis of the difference between weight before delivery and pre-pregnancy weight. Quetelet's index (BMI) was also calculated in this study.

Subjects included in this study were non-smokers, non-consumers of alcoholic beverages and free of any obstetrical and medical complications known to affect fetal growth.

Only singleton term deliveries (38-42 weeks of gestation from last menstrual period and /or pediatric assessment of the gestational age) were included in the final analysis of the data.

The babies were free from congenital malformations and were clinically normal. The anthropometric measurements of these newborn were recorded within 24 hours of delivery by pediatricians trained at the same hospital.

The following variables were established for the newborn: birth weight, crown-heel length, head circumference and gestational age by Dubowitz's2 method.

Statistical Analysis

Frequency distributions or mean and standard deviations were calculated for all variables from a data base in a Dbase III program. For the statistical analysis, bivariate and stepwise forward multivariate linear regression were conducted in SPSS program. The dependent variables (birth weight, head circumference and crown-heel length) were examined for skewness and kurtosis using the normality test.

Since distribution of birth weight in this sample was not normal, natural log-transformations of birth weight and crude values were used to analyse the data, but only the model with crude values has been shown because the final conclusion is similar.

Initially, univariate associations between the dependent variables (birth weight, head circumference and crown-heel length) and maternal anthropometric indicators (height, age, weight, gestational weight gain, arm circumference, pre-pregnancy weight) and gestational age as independent variables, were tested. The process of construction of the multivariate model consisted of the addition of the variables one at a time. If a variable was significantly associated or was a confounding variable it was included in the model until the best fit was found.

For all the statistical tests P< 0.05 was considered significant.

 

RESULTS

The anthropometric characteristics of the population are shown in Table 1. Mean values (and standard deviations) of anthropometric measurements are presented both for the mothers and their newborn babies. Only 10% of the mothers were under 20 years of age. The frequency of low birth weight (< 2,500 g) was 7.6%.

 

Table 1- Anthropometric characteristics of 92 pregnant women and their newborn children, S. Paulo-Brazil.

Anthropometric characteristics Mean SD
Mothers
Age (years) 27.00 6.59
Pre-pregnancy weight (kg) 55.83 9.88
Gestational weight gain (kg) 8.88 4.01
Mid-upper arm circumference (cm) 27.00 3.44
Height (cm) 156.74 5.99
Quetelet index (kg/m2) 24.71 3.93
Newborn
Birth weight (g) 3140.29 485.24
Crown-heel length (cm) 48.78 2.08
Head circumference (cm) 34.45 1.40
Gestational age (weeks) 38.08 1.32

SD - Standard deviations.

 

Table 2 displays the correlation coefficients between mothers' and newborns' measurements. Generally there were significant correlations between the anthropometric variables of the mothers and the newborn, except for the correlation birth weight, newborn's crown-heel length and gestational weight gain and mother's height; and between newborn's head circumference and mother's arm circumference.

 

Table 2 - Correlation coefficients (and P- values) between anthropometric measurements in 92 pregnant women and their newborn children, S. Paulo-Brazil.

Mothers’ variables Newborn variables
Birth weight
(g)
Crown-heel length
(cm)
Head circumference
(cm)
r P r P r P
Height (cm) 0.1990 0.058 0.205 0.052 0.218 0.038
Quetelet index (kg/m2) 0.364 0.000 0.329 0.001 0.299 0.029
Gestational age (weeks) 0.425 0.001 0.309 0.01 0.265 0.01
Gestational weight gain (kg) 0.158 0.135 0.131 0.052 0.210 0.045
Age (years) 0.253 0.016 0.282 0.007 0.288 0.006
MUAC (cm) 0.399 0.000 0.306 0.003 0.176 0.094
Pre-pregnancy weight (kg) 0.378 0.000 0.094 0.001 0.256 0.014

MUAC - mid-upper arm circumference

 

As expected, there were statistically significant associations between gestational age and birth weight, newborns' crown-heel length and head circumference (r=0.425; r=0.309; r=0.265, respectively). In addition, MUAC and pre-pregnancy weight were found to be positively correlated to birth weight (r= 0.399; r=0.408) and the newborn's crown-heel length (r=0.306; r=0.376). Pre-pregnancy weight was less closely associated with the newborn's head circumference (r=0.256).

The results of the multivariate linear regression models are shown in Tables 3-4. In the first model (Table 3) gestational age (ß=135.48; P=0.0001) and MUAC (ß=45.52; P=0.001) continue to be significant predictors of birthweight. Using the pre-pregnancy weight rather than MUAC as a predictor of birth weight, a second model was fitted (Table 4). Similarly, the gestational age (ß=138.39; p=0.0001) and pre-pregnancy weight (ß= 16.064; p=0.002) were positively correlated to birth weight; in this case, gestational weight gain was excluded because its inclusion did not improve the model.

 

Table 3 - Multivariate linear regression model of some predictors of birth weight in 92 pregnant women, S. Paulo-Brazil.

Independent variables ß-coefficient Seß P-value
MUAC (cm) 45.52 13.38 0.001
Height (cm) 9.67 7.34 NS
Gestational age (weeks) 135.48 32.98 0.0001
Gestational weight gain (kg) 1.96 11.28 NS

model: r2 = 0.312 P model=0.000
NS- Not significant
MUAC - mid-upper arm circumference

 

 

Table 4 - Multivariate linear regression model of some predictors of birth weight, with pre-pregnancy weight as independent variable instead of MUAC, S. Paulo-Brazil.

Independent variable ß -coefficient SEß P-value
Pre-pregnancy weight (kg) 16.064 5.07 0.002
Gestational age (weeks) 138.39 33.25 0.0001
Mother’s height (cm) 1.36 8.31 NS

model: r2 = 0.29 P model=0.000
NS- Not significant
MUAC - mid-upper arm circumference

 

For the model using the crown-heel length as the dependent variable only gestational age (ß= 0.47, p=0.0025) and mother's age (ß=0.083; p=0.008) maintained an association (data not shown). To examine the possible determinants of newborn's head circumference, another model was created and the results showed that gestational age (ß=0.295; p=0.005), mother's age (ß=0.07; p= 0.004) and gestational weight gain (ß=0.069; p=0.048) were significantly associated with the newborn's head circumference (data not shown).

 

DISCUSSION

As expected, gestational age was found to be related to birth weight, head circumference and crown-heel length. These results corroborate understanding that gestational age is a highly important factor in fetal size. The present data confirm numerous observations indicating that gestational age is a predictor of birth weight.

In this study an average increase of 135.48 g for infant birth weight (when the MUAC is included in the model) and of 138.39 g (when pre-pregnancy weight was controlled) were observed for each week of gestation; these results are similar to those obtained in another study also undertaken in Brazil18.

Gestational weight gain was not significantly associated with birth weight or with newborn's crown-heel length. Similarly Khan et al.4 found no correlation between pregnancy weight gain and birth weight (r=0.06). The lack of association between these variables can be attributed to the fact that weight gain in pregnancy is independent of previous nutritional status. Wellnourished as well as undernourished or obese women can have high or low weight gains during pregnancy.

This study, as well as others published by Rush et al.11, demonstrated no correlation between maternal height and birth weight. Some studies demonstrated an association between short maternal height and low birth weight only 3,14. In prenatal services, maternal height is more often used to determine the risk of cephalo-pelvic disproportion. Studies have demonstrated that height is associated with maternal pregnancy complications15.

Data on maternal MUAC show that this indicator is a significant predictor of birth weight. An increment of 45 g in birth weight can be expected for each additional cm in arm circumference measurement.

Several studies with different cut-off levels have demonstrated that MUAC is a good predictor of risk of low birth weight as compared with other classic anthropometric measurements7.

Recent studies have demonstrated that MUAC is closely related to maternal weight6,16 but is independent of gestational age 8,10. Therefore MUAC should be used instead of pre-pregnancy weight to assess maternal nutritional status.

One advantage of using MUAC to assess women at nutritional risk of giving birth to low birth weight babies is that arm circumference measurements can be taken whenever a woman visits a health worker or health centre.

Since MUAC is a very simple technique, we recommend it, rather than pre-pregnancy weight, as a predictor of birth weight. The only difficulty that remains is that we can not recommend a cut-off level for MUAC, because the sample population of this study is too limited to establish it. In another study undertaken in Guatemala, a cut-off level of 23.5 cm has shown high sensitivity (77%) and specificity (71%) for the prediction of low birth weight8. However, more studies involving large samples are needed so as to enable the cut-off levels for MUAC with a view to determining the risk of developing poor pregnancy outcome to be established.

Therefore, MUAC could be considered as a potential indicator of maternal nutritional status, and may be used instead of pre-pregnancy weight, as an alternative indicator to assess women at risk of poor pregnancy outcome in communities where weighing is not feasible for pregnant women and/or when presentation for prenatal care is late.

 

REFERENCES

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* Presented at "IV Congresso Brasileiro de Alimentação e Nutrição", São Paulo, 1996.

Correspondence to: Anamaría E. Ricalde - Av. Dr. Arnaldo, 715 - 01246-904 São Paulo, SP - Brasil.
E-Mail: acdatana@usp.br
The publication of this article was supported by FAPESP (Process nº 97/09815-2).
Submitted on 14.4.1997. Reviewed 29.9.1997. Approved on 20.10.1997.

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