1 Department of Obstetrics and Gynaecology, The University of Hong Kong, and 2 Department of Obstetrics and Gynaecology, Tsan Yuk Hospital, Hong Kong, People's Republic of China
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Abstract |
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Key words: height/preterm labour/teenage pregnancy
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Introduction |
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It has been shown that the inherent risk of preterm delivery in teenage mothers was independent of sociodemographic factors (Fraser et al., 1995). On the other hand, the actual maternal age appears to be a major determinant, and the risk of preterm birth was greater in mothers aged 1315 years compared with those aged 1617 years and 1819 years (Fraser et al., 1995
; Olausson et al., 1999
). However, while the association between preterm birth and a young maternal age could be attributed to biological immaturity, the clinical parameter which represents this immaturity, and its relationship with the duration of gestation, are yet to be defined.
As teenagers are still in a period of rapid growth and development, the height attained at the time of pregnancy could be an indicator of biological maturity. Although an earlier study had found that there was no evidence of pregnant teenagers being still in a period of rapid growth during pregnancy (Garn et al., 1984), a later study demonstrated that young (<16 years of age) nulliparas were shorter and weighed less when compared with themselves at the second pregnancy (Sukanich et al., 1986
). Furthermore, linear growth has been demonstrated in both primigravidae aged 1215 years, and multigravidae aged 1518 years (Scholl et al., 1988
). Maternal height per se could be an important factor for preterm birth, as the duration of pregnancy has been shown to be related to maternal height (Mongelli and Opatola, 1995
), and shorter mothers tend to give birth to symmetrically smaller infants with no difference in the ponderal index (Witter and Luke, 1991
). It was possible therefore that the gestation at spontaneous onset of labour had represented the biologically destined `term' for these individuals on account of their physical development, even though the gestational age was less than 37 weeks gestation.
In order to determine whether preterm delivery was related to maternal height at the time of pregnancy in teenage women, we have performed a retrospective study on the pregnancies of mothers aged 19 years and below, who delivered in our hospital over a 4-year period. The height of these mothers was analysed, and maternal characteristics and pregnancy outcome were compared, according to the maternal height quartiles. We have also examined some of the factors that have been associated with preterm labour, such as pre-pregnant weight and body mass index (BMI), incidence of nulliparity, previous history of therapeutic abortion and maternal nutritional status as represented by the haemoglobin level at booking and the incidence of iron-deficiency anaemia (Kaltreider and Kohl, 1980; Lang et al., 1996
; Hickey et al., 1997
; Cnattingius et al., 1998
).
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Materials and methods |
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In a retrospective study, using maternal age at delivery to define the study cases, the case records of all teenage mothers with singleton pregnancies who delivered in our hospital over a 4-year period (19941997) were retrieved for review. Only the pregnancies in which the gestational age was confirmed with ultrasound scanning and paediatric assessment after delivery were included in the analysis.
In the analysis, the maternal height quartiles were first determined and the pregnancies grouped according to the quartiles. The maternal characteristics including the pre-pregnant weight and calculated BMI, infant outcome and the incidence of preterm labour (spontaneous onset of labour resulting in delivery before 37 completed weeks), were compared among the groups. We have examined maternal BMI in this study because it has been shown that a pre-pregnant BMI of <19.7 kg/m2 was associated with increased risk of late (3336 weeks) preterm delivery and preterm labour (Hickey et al., 1997). The complications that could be associated with preterm delivery (delivery before 37 weeks gestation) such as antepartum haemorrhage, prelabour rupture of membranes (rupture of membranes for more than 1 hour before labour), pre-eclampsia, and gestational diabetes mellitus as defined by the World Health Organization criteria and including both the categories of impaired glucose tolerance and diabetes mellitus (World Health Organization, 1980), were also analysed similarly. In order to test the hypothesis that the fetal size relative to that of the mother is also a determinant of gestational duration, the ratio between the infant crownheel length and maternal height was calculated as the height ratio and compared.
Statistical analysis was performed using the one-way analysis of variance (ANOVA) test for continuous variables with Duncan's multiple range test to identify the different groups, 2 test for categorical variables, Pearson's correlation coefficient (r) and multiple regression analysis using a commercial statistical package (SPSS/PC; SPSS Inc., Chicago, IL, USA).
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Results |
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The maternal heights at the 25th, 50th and 75th percentiles were 152, 156 and 160 cm respectively. When analysed according to the height quartiles, there was no difference in the mean maternal age, but there was significantly increasing weight and decreasing BMI with higher quartiles (Table I). The haemoglobin level was also significantly lower in the two lower quartiles. There was no difference in the incidence of nulliparous mothers.
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When the correlation analysis was confined to the uncomplicated pregnancies, gestational age was correlated with maternal age (r = 0.122, P = 0.008), height (r = 0.170, P = 0.0001) and weight (r = 0.141, P = 0.009). Stepwise multiple regression indicated that only maternal height was significantly correlated with gestational age (t = 3.309, P = 0.001), and the following equation was obtained:
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Within the group of 55 pregnancies having preterm labour not associated with complications, there was a significant positive correlation between gestational age with birthweight (r = 0.2995, P = 0.026) and crownheel length (r = 0.3194, P = 0.024), but there was no correlation with the height ratio (r = 0.0750, P = 0.586).
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Discussion |
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In this study, we have reviewed the teenage pregnancies that were delivered in our hospital over a 4-year period (19941997), and which were managed by following the same protocol. Our observations are therefore current rather than historical. During these 4 years, our perinatal mortality rate had fallen from 9.9 per 1000 to 5.3 per 1000, and the overall incidence of preterm delivery in non-teenage mothers was 7.8% (data from our departmental statistics). Among the teenage pregnancies, the overall incidence of preterm delivery and labour were 13.5% and 12.2% respectively. The majority of these preterm deliveries occurred at between 3336 weeks gestation, and the incidence was highest in the two lower quartiles, even though there was no difference in the incidence of risk factors such as a history of previous pregnancy termination, maternal smoking, nulliparity or major complications. While iron-deficiency anaemia was more common in the lower quartiles, the relatively low incidence was unlikely to render it a major determinant of preterm birth. Similarly, although the mean haemoglobin level was lower in the lower quartiles, the values were well within the normal range. We suspected that the lower haemoglobin and the iron deficiency in teenagers in the lower quartiles were the reflection of a mild degree of nutritional deficiency at a time of increased nutritional demand due to the rapid physical growth. When the cases with complications were excluded, the relationship between preterm labour and maternal height became even more obvious, and maternal height was inversely correlated with the rate of preterm labour. In addition, multiple regression analysis confirmed that maternal height was the only significant determinant for both the uncomplicated cases as well as the entire group. It is therefore clear that maternal height at the time of pregnancy is a major determinant of gestational duration, and hence short stature would be associated with increased risk of preterm labour.
Nevertheless, the impact of maternal height on gestation duration was relatively small, as shown by the regression equation. This might be related to the fact that longitudinal growth can occur during pregnancy in the teenager, and that the increment is greater in the nulliparas compared with the multiparas (Scholl et al., 1988). The factor linking height with duration of gestation is likely to be the dimensions of the bony pelvis in teenagers. Teenagers are less mature physically, and the teenage pelvis is smaller and its growth lags behind statural growth (Moerman, 1982
). Thus, a teenager probably has a smaller pelvis than an adult in the second or third decade of life, albeit with the same height. As the incidence of Caesarean section in the lowest quartile was only 5.6%, the fetus would necessarily have to be smaller in order to have a successful passage through the bony pelvis. As shown in our cases, while the infant birthweight and crownheel length increased with the higher quartiles, the height ratio changed in the opposite direction. Moreover, while gestational age was positively correlated with infant birthweight and crownheel length as expected, there was no correlation with the height ratio. These observations suggested that, in the lower quartiles, the fetal length had reached a maximum, relative to maternal height, that is feasible for vaginal delivery at the onset of labour. This would help to explain why our cases of `uncomplicated' preterm labour all occurred between 33 and 36 weeks of gestation.
There is evidence in the literature which indicates that an optimal ratio exists between maternal and fetal size, irrespective of maternal age. In one study (Garn and Petzold, 1983), teenage mothers who had small stature and weight gave birth to smaller-sized infants in proportion to their smaller size, with the outcome no worse than that from mothers in the third decade of life and with comparable size. Furthermore, there was increasing birthweight and placental weight with increasing maternal age at pregnancy, which was correlated with increasing height. These findings were supported by later observations (Witter and Luke, 1991
) in which shorter mothers were reported to tend to give birth to symmetrically smaller infants. A further study (Sukanich et al., 1986
) reported that primigravidae aged <16 years and who had not achieved mature height and weight, had shorter mean gestation, even though there was no relationship between physical growth maturation and adverse outcome, such as pregnancy-induced hypertension, low-birthweight infants, or preterm delivery. Furthermore, the young primigravidae could nourish themselves and their fetuses adequately with no increased complications among the preterm infants born to these mothers. The birthweight that was associated with a particular maternal pre-pregnant weight was the same for teenagers as for mothers in the third decade. These observations, together with the finding of the association between low pre-pregnant BMI and preterm labour at 3336 weeks (Hickey et al., 1997
), all pointed to the importance of maternal physique as a determinant of fetal size, which in turn could be controlled by the length of gestation at delivery.
The findings of this study indicated that the risk of preterm delivery and labour was higher in teenage pregnancies, and the incidence was inversely correlated with maternal height. This suggested that the inherent risk of preterm delivery in teenagers (Fraser et al., 1995) was maternal short stature, which in turn could have been a reflection of immature physical development at the time of pregnancy. We would postulate that Nature, in the attempt to achieve a successful vaginal delivery in a teenage woman, would initiate labour when the fetus had reached a maximal size relative to that of the mother, and that this relationship would be dependent more on the physical maturity and development of the mother than on the actual gestational age. Such a mechanism could also help to explain the relationship between maternal height and the duration of pregnancy (Mongelli and Opatola, 1995
), though further studies with larger sample size will be necessary to determine the impact of maternal height on perinatal outcome in teenage, as well as non-teenage, pregnancies.
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Notes |
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References |
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Submitted on July 30, 1999; accepted on November 11, 1999.