Pregnancy is a period during which the female body undergoes functional and anatomical alterations, including changes in lung function. These findings can be assessed by spirometry, a simple, inexpensive, and effective method 1,2.

There is some controversy regarding the results of spirometry in pregnancy, particularly in terms of tobacco use and parity. Several studies measured lung function during pregnancy and after delivery. Mixed results have been reported for forced vital capacity (FVC), forced expiratory volume in the first second (FEV1), and the FEV1/FVC ratio with respect to whether they remain the same, increase, or decrease slightly 1,3,4.

The predictors for decreasing lung function during pregnancy remain unknown. Multiparity and smoking status may be associated with decreased lung function.

This longitudinal prospective study was conducted from August 2011 to May 2013 at the University of São Paulo Medical School (FMUSP), Brazil. This study was approved by the Ethics Committee for Research Project Analysis at the Hospital of the Faculty of Medicine under number 193/11, and written informed consent was obtained from the subjects. ClinicalTrials.gov: NCT02807038.

The initial sample included 220 patients. In total, 11.4% of the patients were excluded due to abortion, 12.7% were excluded due to loss to follow-up, and 22% were excluded due to unsatisfactory spirometric test results. The final sample consisted of 120 pregnant women with 240 valid spirometric exams. The maternal characteristics are presented in Table 1. We analyzed the mean BMI in the first and third trimesters in the two groups, with no significant difference found (first trimester: nulliparous=25.65±5.02; multiparous=26.75±5.81 p=0.273); (third trimester: nulliparous=28.70±4.73, multiparous=29.55±5.84 p=0.390). There also was no significant difference in the percentage of obese patients in the two groups studied (nulliparous=11/54 (20.4%), multiparous=13/66 (19.7%) p=0.927). Table 2 presents the spirometric values obtained in T1 and T3. The absolute and relative values of FVC and absolute and % predicted values of FEV1 were significantly reduced in T3 compared with T1.

In terms of parity, as shown in Table 3, 54 patients (45%) were nulliparous, and the other 66 patients (55%) were multiparous. In T1, the multiparous women (0.816±0.059) had smaller FEV1/FVC ratios compared with the nulliparous women (0.863±0.049) (p<0.0001) and smaller forced expiratory flow in 25% to 75% (FEF25-75%), at p=0.005 (multiparous women (3.207±0.911) and nulliparous women (3.657±0.797)). In T3, the multiparous women exhibited reductions in the same parameters compared with the nulliparous women: FEV1/FVC (multiparous women (30.827±0.047) and nulliparous women (0.856±0.047)) and FEF25-75% (multiparous women (3.253±0.788) and nulliparous women (3.558±0.727)) (p=0.00.1 and p=0.031, respectively). Maternal age differed among nulliparous (23.00±5.57) and multiparous (29.17±5.96) women at p≤0.001. To eliminate the confounding effect of age on absolute spirometry results, patients were categorized according to age: less or equal to 25 and more than 25 years age (Table 4).

Regarding smoking, as shown in Table 5, 17 of the 120 (14.17%) women smoked one to ten cigarettes a day throughout their pregnancies. Some parameters were significantly higher in nonsmokers compared with smokers.

Smokers had lower absolute values of FVC in T1 (3.48±0.37) when compared to nonsmokers (3.70±0.47), p=0.042 lower absolute values of FEV1 in T3 (2.78±0.29) when compared to nonsmokers (2.99±0.39), p=0.039 lower absolute values of FEF25-75% in T3 (3.00±0.69) when compared to nonsmokers (3.46±0.76), p=0.024 and lower values of predicted peak expiratory flow (PEF) in T3 (smokers (71.71±11.39) and nonsmokers (80.36±12.53), p=0.021.

In this study, it was possible to evaluate the spirometry results of 120 pregnant women during the first and third trimesters of pregnancy. In addition, the results were compared according to parity and smoking. Spirometry is the most widely used pulmonary function test, although it is estimated that approximately 15% of spirometry tests are inadequate 7,8. Because we required two complete examinations (i.e., in T1 and T3), some patients were excluded (22%). However, in one study of the long-term effect of air pollution on respiratory health in adult Swiss woman 9, a 28% loss to follow-up (related to inadequate spirometry tests) was reported, which was greater than the loss during follow-up in the current study.

All spirometric values in the pregnant subjects were within normal ranges. The FVC and FEV1 values decreased significantly in the third trimester. Redivo 10 described no changes in pulmonary function in pregnancy 10; however, Grindheim et al. 7 demonstrated differences, particularly in FVC and PEF 7. The results of recent studies agree with our findings 1,11. These reduced values may be due to decreased negative intrapleural pressure due to an upward tilt of the diaphragm caused by the enlarging uterus. Another explanation is the reduction in the alveolar partial pressure of carbon gas, which is caused by hyperventilation during pregnancy 12.

Our results also revealed differences in the spirometric values between smokers and nonsmokers and nulliparous and multiparous women. Compared with the nulliparous women, the multiparous pregnant women had significantly reduced absolute values of FEV1/FVC and FEF25-75%. This reduction was maintained among the younger multiparous women (≤25 years age) when compared to the younger nulliparous women, suggesting that the decrease found is due to parity. In relation to multiparous women who are more than 25 years old, only the FEV1/FVC ratio in T1 maintained a significant effect. It is important to consider that for this analysis, there was a significant decrease in the number of patients in each group, which can directly influence the calculation of the p value. It can be observed that the average of these spirometric variables for different age groups remained similar to the general analysis.

The % predicted value of FEV1/FVC and FEF25-75%., which took into account individual characteristics (sex, age, and body mass index), was not significantly different between the two groups. Grindheim et al. 7 found similar results in their study, which analyzed a cohort of 87 healthy pregnant women. The authors concluded that the predicted FVC values in multiparous pregnant women decreased by 4.4% compared with those in nulliparous women (p=0.039). No statistically significant differences were observed in the absolute and predicted PEF values. Although obesity was related to changes in spirometry and also to multiparity, there was no difference between the groups in relation to this maternal characteristic.

The absolute values of FVC, FEF25-75%, and FEV1 were significantly decreased in smokers compared with nonsmokers. Vergara et al. 13 studied lung function in 136 girls (45.5%) in relation to smoking (active and passive smokers) and investigated repercussions on spirometric parameters. A significant association was found between smoking and spirometric parameters (ANOVA), which was lower in smokers: FVC (p=0.001), FEV1 (p=0.0001), FEV1/FVC (p=0.004), PEF (p=0.0001), and FEF25-75% (p=0.0001).

Prasad et al. 14 reported a study involving over 100 female smokers and 100 female non-smokers in the age group of 30-40 years in which three lung function tests, FEVI, FVC and PEFR, were employed, and it was observed that all parameters of the three lung function tests were significantly reduced among the smokers compared to the non-smokers.

One limitation is the fact that smoking research was performed only through a structured questionnaire with the possibility of one response (yes or no). Currently, the use of monoximetry is suggested to more accurately discriminate smokers who, for any reason, will declare themselves to be non-smokers. Nonetheless, we must point out that the great majority of studies in the literature that use spirometry for lung function evaluation do not advocate the performance of monoximetry to exclude smoking. In this study, we concluded that the absolute values of FVC, FEF25-75%, and FEV1 were significantly decreased in smokers compared with nonsmokers, with significant reductions in absolute and in % predicted FVC and FEV1 values during pregnancy (T1 to T3). Parity and smoking significantly influenced spirometric parameters, and these are important factors that must be considered when analyzing spirometry results during pregnancy.

FVC and FEV1 values decreased significantly in the third trimester. The reductions in these parameters may be explained by the upward tilt of the diaphragm caused by the enlarging uterus, causing a decreased negative intrapleural pressure, and because of a reduction in the alveolar partial pressure of carbon gas, which is caused by hyperventilation during pregnancy. Decreased lung function at both the beginning and end of the gestational period is more evident in multiparous women and those who smoke.

Pastro LD performed spirometry and data analyses and was responsible for the final preparation of the manuscript. Lemos M assisted in the design of the study and spirometry. Fernandes FL provided training regarding spirometry and analyzed spirometric tests. Saldiva SR assisted in the preparation of the project and the recruitment of pregnant women. Vieira SE assisted in the preparation of the project and the recruitment of pregnant women. Romanholo BM performed spirometry. Saldiva PH assisted in the preparation of the project and the final data analysis. Francisco RP assisted in the preparation of the project, manuscript writing and final data analysis.