The effect of advanced maternal age and gestational weight gain on newborns
Ayse Yazan Arslan, Cüneyt Ardic, Beril Kara Esen

TL;DR
This study examines how advanced maternal age and weight gain during pregnancy affect newborn outcomes, finding a link between excessive weight gain and larger babies.
Contribution
The study provides new insights into the combined effects of maternal age and gestational weight gain on neonatal outcomes in a specific regional population.
Findings
Excessive gestational weight gain increases the likelihood of large-for-gestational-age newborns by 1.81 times in univariate analysis.
Gestational weight gain significantly affects birth weight Z-score, but gestational age does not.
The study highlights the need for further research on maternal age and weight gain due to rising obesity rates.
Abstract
Advanced maternal age is defined as the mother being ≥35 years of age at the time of birth. Gestational weight gain is the difference between the weight measurements of the pregnant woman at prenatal follow-up just before birth and at pre-conception or at the beginning of the first trimester. In our study, we examined the effects of maternal age and gestational weight gain on neonatal outcomes. This study was conducted, in the Rize province between April 2022 and January 2023, on pregnant women registered in seven Family Health Centers in the last 5 years and their resulting newborns. In total, this study analyzed the data of 642 pregnant women and their 642 newborns. Data records in the study are pregnant-puerperal follow-up form, newborn-child follow-up form, and family medicine information system. The probability of newborns of mothers with excessive gestational weight gain being…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
| Inadequate | Adequate | Excessive | ||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| (n=173) | p | (n=233) | p | (n=236) | p | |||||
| <35 | ≥35 | <35 | ≥35 | <35 | ≥35 | |||||
| Maternal characteristics | n=84 | n=89 | n=121 | n=112 | n=117 | n=119 | ||||
| Parity | Primipara | 26 (31) | 8 (9) |
| 44 (36.4) | 13 (11.6) |
| 40 (34.2) | 11 (9.2) |
|
| Primary-Secondary | 23 (27.4) | 39 (43.8) |
| 36 (29.8) | 46 (41.4) | 0.176 | 26 (22.2)a | 53 (44.9)b |
| |
| Education | High School | 25 (29.8) | 27 (30.3) | 37 (30.6) | 29 (26.1) | 40 (34.2)a | 31 (26.3)a | |||
| University | 36 (42.9) | 23 (25.8) | 48 (39.7) | 36 (32.4) | 51 (43.6)a | 34 (28.8)b | ||||
| Smoking status | Smoker | 1 (1.2) | 5 (5.6) | 0.112 | 11 (9.1) | 2 (1.8) |
| 8 (6.8) | 9 (7.6) | 0.829 |
| Infant characteristics | n=84 | n=89 | n=121 | n=112 | n=117 | n=119 | ||||
| Gender | Female | 38 (45.2) | 47 (52.8) | 0.319 | 61 (50.4) | 51 (45.5) | 0.457 | 50 (42.7) | 57 (47.9) | 0.426 |
| Birth Time | Preterm | 14 (16.7) | 23 (25.8) | 0.141 | 14 (107) | 19 (17) | 0.238 | 12 (10.3) | 17 (14.3) | 0.346 |
| SGA | 3 (3.6) | 3 (3.4) | 0.533 | 3 (2.5) | 4 (3.6) | 0.213 | 3 (2.6) | 5 (4.2) | 0.849 | |
| Fetal | AGA | 70 (83.3) | 69 (77.5) | 103 (85.1) | 85 (75.9) | 83 (70.9) | 84 (70.6) | |||
| Growth | LGA | 11 (13.1) | 17 (19.1) | 15 (12.4) | 23 (20.5) | 31 (26.5) | 30 (25.2) | |||
| <2500 | 0 | 6 (6.7) | 0.046 | 4 (3.3) | 2 (1.8) | 0.352 | 1 (0.9) | 2 (1.7) | 0.089 | |
| Birth | 2500-4000 | 80 (95.2) | 79 (88.8) | 110 (90.9) | 98 (87.5) | 96 (82.1) | 107 (89.9) | |||
| Weight | >4000 | 4 (4.8) | 4 (4.5) | 7 (5.8) | 12 (10.7) | 20 (17.1) | 10 (8.4) | |||
| Preterm | LGA | ||||||
|---|---|---|---|---|---|---|---|
| n (%) | Crude | Adjusted | n (%) | Crude | Adjusted | ||
| OR (95% CI) | OR (95% CI) | OR (95% CI) | OR (95% CI) | ||||
|
| |||||||
| Age |
| 40 (40.4) | Ref. (1) | Ref. (1) | 57 (44.9) | Ref. (1) | Ref. (1) |
| ≥ | 59 (59.6) |
| 1.34 (0.82–2.20) | 70 (55.1) | 1.32 (0.89–1.95) | 1.27 (0.81–1.98) | |
| Adequate | 37 (37.4) | Ref. (1) | Ref. (1) | 28 (22) | Ref. (1) | Ref. (1) | |
| GWG | Inadequate | 33 (33.3) | 1.64 (0.98–2.75) | 1.65 (0.98–2.8) | 38 (29.9) | 0.997 (0.58–1.70) | 0.94 (0.55–1.62) |
| Excessive | 29 (29.3) | 0.85 (0.5–1.44) | 0.80 (0.47–1.38) | 61 (48) |
|
| |
| Birth weight Z-score | p-value | Birth length Z-score | p-value | Birth head circumference Z-score | p-value | ||
|---|---|---|---|---|---|---|---|
| Age | <35 | 0.42±0.92 | 0.136 | 0.38±089 |
| 1.01±0.96 | 0.326 |
| ≥35 | 0.53±1 | 0.64±0.92 | 1.08±1.04 | ||||
| GWG | Inadequate (n=173) | 0.31±0.96a |
| 0.39±0.92a |
| 0.97±1.03 | 0.303 |
| Adequate (n=233) | 0.41±0.92a | 0.44±0.88a | 1.02±1 | ||||
| Excessive (n=236) | 0.66±0.97b | 0.66±0.93b | 1.12±0.98 | ||||
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.
Taxonomy
TopicsGestational Diabetes Research and Management · Pregnancy and preeclampsia studies · Birth, Development, and Health
INTRODUCTION
Advanced maternal age (AMA) is defined as the mother being ≥35 years of age at the time of birth^ 1,2 ^. When the birth statistics of the Turkish Statistical Institute are examined, the birth rate for those aged 35 years and over was 14.27% in 2015, which increased to 15.89% in 2021^ 3 ^. The Organization for Economic Co-operation and Development (OECD) reported that since 2000, while fertility rates decreased for women under 30 years of age, the reverse was true for those aged ≥30 years^ 4 ^. Literature search revealed that AMA is associated with numerous adverse pregnancy and neonatal outcomes^ 5–7 ^.
Gestational weight gain (GWG) is the difference between the weight measurements of the pregnant woman at prenatal follow-up just before birth and at pre-conception or at the beginning of the first trimester^ 8 ^. It is known that excessive weight gained during pregnancy or, conversely, inadequate weight has adverse consequences for both the newborn and the mother. For example, weight gain above recommendations has been associated with increased macrosomia, large-for-gestational-age newborns (LGA), and cesarean delivery^ 9 ^.
This study is the first in Turkey in which Z-score measurements of birth weight, birth length, and birth head circumference were calculated using Intergrowth 21 standards of newborns of mothers whose GWG was categorized according to IOM and age group.
In the thesis study conducted by Akgün in 2013, the effects of maternal body mass index (BMI) and GWG on neonatal outcomes were examined, similar to our study. However, in our study, GWG categories were also subcategorized according to age and evaluated as <35 years of age and ≥35 years of age^ 10 ^.
The aim of this study was to classify the pre-pregnancy BMIs of pregnant women according to the WHO criteria, evaluate their gestational weight gain according to the pregnancy weight gain guide recommendations published by IOM in 2009, and examine the effects of maternal age and gestational weight gain on newborn outcomes.
METHODS
Data collection
This study was conducted, in the Rize province between April 2022 and January 2023, on pregnant women registered in 34 Family Medicine Units (FMU) of 7 Family Health Centers (FHC) in the last 5 years and their resulting newborns.
In total, 320 pregnant women aged ≥35 years were included in the study. Data pertaining to 322 pregnant women under the age of 35 years were collected in a similar fashion. In total, this study analyzed the data of 642 pregnant women and their 642 newborns.
Inclusion criteria
Pregnant women aged 18 years and over, whose birth week was known according to the last menstrual period, were included in the study. In addition, pregnant women who applied for the first follow-up before the 8th week of gestation, whose height and weight were measured by the nurse on duty at the FHC, and who were followed up at least four times in total or at least once in each trimester were included. In cases where the same person had different pregnancies within a 5-year period, the last pregnancy period and information were included in the study.
Exclusion criteria
Pregnant women with multiple pregnancy status, pre-pregnancy hypertension, gestational hypertension or preeclampsia, pre-gestational diabetes mellitus or gestational diabetes mellitus, thromboembolic complications during pregnancy, a history of polyhydramnios or oligohydramnios during pregnancy, hypothyroidism, and chronic kidney disease were not included in the study.
Data records of pregnant women and newborns included in the study
Pregnant-puerperal follow-up form (PPFF)Newborn-child follow-up form (NCFF)Family Medicine Information System (FMIS)
The PPFF begins to be recorded as of the day the person applies for the first pregnancy monitoring by the nurse in the FMU to which the person is affiliated. Personal information such as the pregnant woman's date of birth, marital status, education level, smoking status, and employment status are provided here. Obstetric history, last menstrual period in the current pregnancy, first follow-up week, weight and height of the pregnant woman measured by the nurse or midwife at the first and last follow-up, gestational week at the end of pregnancy, birth time according to week, and delivery method are among the data obtained here.
The NCFF will be filled out by the nurse at the FHC to which the newborn is brought for follow-up in the first week after birth. Included in the form are the newborn's gender, mode of birth, birth weight, birth length, head circumference at birth, and congenital malformation status, and the results of the newborn data were analyzed in the study.
Pre-pregnancy maternal BMI analysis
BMI is calculated by dividing a person's weight in kilograms by the square of their height in meters (kg/m^ 2 ^)^ 11 ^. This measure is independent of age, race, ethnicity, parity, and muscle mass in adults.
Gestational weight gain
It has been reported in the literature that there is a strong correlation between the pre-pregnancy period and the first 8 weeks of pregnancy in terms of maternal BMIs^ 12 ^. In order to minimize the impact of the limitation on the study, pregnant women who applied for the first follow-up before the 8th week of pregnancy were included.
In our study, recommended total weight gain ranges in singleton pregnancies according to the BMI category calculated based on the WHO BMI classification in the 2009 IOM criteria were used. The recommended total weight gain ranges are 12.5–18 kg for underweight women, 11.5–16 kg for normal-weight women, 7–11.5 kg for overweight women, and 5–9 kg for obese women.
Effect on neonatal outcomes
Newborns are classified as preterm, term, and postterm according to the week of gestation they are born. Preterm birth is used to describe newborns born alive before completing the 37th week of gestation. Postterm birth refers to the birth of live newborns after the 42nd week of gestation^ 13 ^. Birth weight percentile measurement of newborns was calculated using International Fetal and Newborn Growth Consortium for the 21st Century (INTERGROWTH-21st) standards specific to gestational age and gender^ 14 ^. Newborns were categorized as small-for-age (SGA) newborns, gestational-age-appropriate (AGA) newborns, and LGA newborns based on the classification of the American Academy of Pediatrics. SGA is defined as birth weight below the 10th percentile for gestational age, and LGA as birth weight above the 90th percentile^ 15 ^. Newborns were also classified by birth weight, regardless of gestational age. In our study, weights of 4,000 g and above were classified as macrosomia.
Z-score measurements of newborns
Birth anthropometers of newborns were determined based on INTERTGROWTH-21st standards. Z-scores of the newborn were evaluated by entering the data into the calculation section on the INTERGROWTH-21st website using gender, birth week, birth weight, height, and head circumference^ 16 ^.
Statistical analysis
The SPSS 21.0 package program was used in the analysis of the study. The suitability of the data for normal distribution was evaluated with the Kolmogorov-Smirnov test and coefficient of variation. Continuous variables were shown with their mean, standard deviation, minimum, and maximum values. Categorical variables are shown with frequency and percentage. The chi-square test or Fisher's exact test was used for categorical variables for comparisons between groups. Assessment of continuous variables was made by Student's t test between the two groups and one-way analysis of variance (ANOVA) test between more than two groups. Binomial logistic regression analysis was performed to evaluate preterm and LGA risk of newborns, and and the data were presented as odds ratios (OR) and 95% confidence intervals (CIs). The results were evaluated at a 95% confidence level, and the significance level was accepted as p<0.05.
RESULTS
Demographic characteristics of maternal and infant characters
Among pregnant women aged ≥35 years, the rates of adequate, inadequate, and excessive GWG states were 35, 28, and 37%, respectively. When evaluated according to the GWG, the LGA rate in the newborns of mothers aged ≥35 years with excessive GWG was higher than that of mothers with inadequate and adequate GWG, but this difference was insignificant (Table 1).
Effect of maternal age and gestational weight gain on newborn outcomes
The probability of newborns of mothers with excessive GWG being LGA was found to be 1.81 times higher in univariate analysis (crude OR 1.81 [95%CI 1.15–2.85]) and 1.72 times higher in multivariate analysis (adjusted OR 1.72 [95%CI 1.08–2.74]) (Table 2).
Relationship between newborn Z-scores according to maternal age and gestational weight gain status
Both the GWG status of the pregnant women and the gestational age significantly affected the birth length Z-score (p=0.004 and p<0.001, respectivel).
DISCUSSION
Demographic characteristics
In our study, it was determined that the distribution of pregnant women into GWG categories according to age was similar among themselves. In the study conducted by Xiao et al., in pregnant women aged ≥35 years, the rates of inadequate and adequate weight were, respectively, 18.3 and 46.3%^ 17 ^. Chinese BMI categories have different value ranges than those of WHO BMI categories^ 18 ^. We can explain the high rate of people with adequate weight gain according to BMI by using BMI values categorized according to their own race.
Neonatal outcomes
In our study, we evaluated the relationship between neonatal outcomes, such as LGA and preterm birth with GWG, and maternal age. Consistent with the literature, we found that excessive GWG significantly increased the risk of LGA. In a meta-analysis consisting of selected studies similar to ours, it was reported that pregnant women with excessive GWG had a higher risk of LGA (OR 1.85 [95%CI 1.76–1.95]). In the same study, the risk of LGA was also found to be lower in pregnant women with inadequate GWG (OR 0.59 [95%CI 0.55–0.64])^ 9 ^.
In our study, the relationship between neonatal Z-score measurements and GWG was evaluated. As GWG increased, birth weight Z-score and birth length Z-score also increased. A similar study by Bauserman et al. reported no significant relationship between GWG and newborn birth weight Z-score measurement and newborn birth length Z-score^ 19 ^. In this study, the last weight measurement of the mothers was made at the 32nd week, and the potential effects of GWG in the last weeks of pregnancy could not be observed sufficiently.
In our study, many factors that affect weight gain during pregnancy, such as gestational diabetes mellitus, oligohydramnios, and polyhydramnios, were excluded in order to reveal the effect of maternal age. Since pregnancy follow-ups may also have an effect on weight gain, the study was completed with pregnant women who came for follow-up at least four times. The mother's smoking status, which has a proven effect on preterm birth, was also evaluated in our study and was included in the model in the regression.
Our study has several limitations. The study is single-center and the sample size is relatively small. Multi-center studies with a larger number of participants are needed. Some factors that could affect the results, such as the mother's nutrition and supplement intake, and the socioeconomic level of the family, were not taken into account in this retrospectively designed study.
CONCLUSION
In our study, we determined that inadequate weight gain and AMA negatively affect neonatal outcomes. In addition, we showed that excessive weight gain, especially during pregnancy, results in LGA in the newborn. In this period, when obesity, which is a disease of our age, is widespread and the gestational age has moved to older ages, there is a need for more extensive research on this subject in future studies.
The reference list from the paper itself. Each links out to its DOI / PubMed record.
- 1Cunningham FG Leveno KJ Childbearing among older women — the message is cautiously optimistic N Engl J Med 19953331002100410.1056/NEJM 1995101233315117666897 · doi ↗ · pubmed ↗
- 2ACOG Pregnancy at Age 35 Years or Older ACOG 2022 Available from: https://www.acog.org/clinical/clinical-guidance/obstetric-care-consensus/articles/2022/08/pregnancy-at-age-35-years-or-older
- 3Turkish Statistical Institute TURKSTAT Birth Statistics 20212022 Available from: https://data.tuik.gov.tr/Bulten/Index?p=Dogum-Istatistikleri-2021-45547
- 4OECD Family Database SF 2.3: Age of mothers at childbirth and age-specific fertility 2022
- 5Correa-De-Araujo R Yoon SS Clinical outcomes in high-risk pregnancies due to advanced maternal age J Women's Heal 202130216016710.1089/jwh.2020.8860 PMC 802051533185505 · doi ↗ · pubmed ↗
- 6Bayrampour H Heaman M Advanced maternal age and the risk of cesarean birth: a systematic review Birth 201037321922610.1111/j.1523-536X.2010.00409.x 20887538 · doi ↗ · pubmed ↗
- 7Fitzpatrick KE Tuffnell D Kurinczuk JJ Knight M Pregnancy at very advanced maternal age: a UK population-based cohort study BJOG 201712471097110610.1111/1471-0528.1426927581343 PMC 5484369 · doi ↗ · pubmed ↗
- 8Rasmussen KM Yaktine AL Institute of Medicine (US) and National Research Council (US) Committee to Reexamine IOM Pregnancy Weight Guidelines Weight gain during pregnancy: reexamining the guidelines 2009 Available from: https://www.sochob.cl/pdf/libros/ Weight Gain During Pregnancy- Reexamining the Guidelines.pdf
