Browsing by Author "Vargas Terrones, Marina"
Now showing 1 - 3 of 3
- Results Per Page
- Sort Options
Item Does exercise during pregnancy impact on maternal weight gain and fetal cardiac function? A Randomized controlled study.(Ultrasound in Obstetrics and Gynecology, 2018) Brik, Maia; Fernández Buhigas, Irene; Martín Arias, Aránzazu; Vargas Terrones, Marina; Barakat, Rubén; Santacruz Martín, BelénOBJECTIVE: To evaluate the association between physical exercise during pregnancy and maternal gestational weight gain and fetal cardiac function. METHODS: This was a randomized controlled trial of women with a singleton pregnancy managed from the first trimester at the Hospital de Torrejón, Madrid, between November 2014 and June 2015. Women were randomized to either follow a supervised physical conditioning program, consisting of a 60-min session 3 days per week for the duration of pregnancy, or not attend any exercise program (controls). The primary outcome was maternal weight gain during pregnancy. Secondary outcomes included fetal cardiac function parameters evaluated at 20, 28 and 36 weeks' gestation, Cesarean section, preterm delivery, induction of labor and birth weight. A sample size of 45 in each group was planned to detect differences in maternal weight gain of at least 1 kg, with a power of > 80% and α of 0.05. RESULTS: During the study period, 120 women were randomized into the exercise (n = 75) and control (n = 45) groups. Following exclusions, the final cohort consisted of 42 women in the exercise group and 43 in the control group. Baseline characteristics (maternal age, prepregnancy body mass index, parity, conception by in-vitro fertilization, Caucasian ethnicity, physical exercise prior to pregnancy and smoker) were similar between the two groups. No differences were found between the groups in maternal weight at 20, 28, 36 and 38 weeks' gestation or in weight gain at 38 weeks. However, the proportion of women with weight loss ≥ 9 kg at 6 weeks postpartum was higher in the exercise compared with the control group (68.2% vs 42.8%; relative risk 1.593; P = 0.02). The ductus arteriosus pulsatility index (DA-PI) at 20 weeks (2.43 ± 0.40 vs 2.26 ± 0.33, P < 0.05) and the ejection fraction (EF) at 36 weeks (0.85 ± 0.13 vs 0.81 ± 0.11, P < 0.05) were higher in the exercise compared with the control group. All other evaluated fetal cardiac function parameters were similar between the two groups. CONCLUSIONS: Performing exercise during pregnancy is not associated with a reduction in maternal weight gain but increases weight loss at 6 weeks postpartum. Physical exercise during pregnancy is associated with increased fetal DA-PI at 20 weeks and EF at 36 weeks, which could reflect adaptive mechanismsItem Maternal physiological changes at rest induced by exercise during pregnancy: A randomized controlled trial.(Physiology and Behavior, 2020) Fernández Buhigas, Irene; Brik, Maia; Martin Arias, Aranzazu; Vargas Terrones, Marina; Varillas Delgado, David; Barakat, Rubén; Santacruz Martín, BelénObjective: to analyse maternal physiological changes in several areas (cardiovascular, metabolic, renal and hepatic) related to the regular practice of a supervised exercise program. Methods: This is an unplanned secondary analysis from a randomized controlled trial carried out in a single maternity unit in Madrid, Spain (NCT 02,756,143). From November 2014 to June 2015, 92 women were randomly assigned to perform a mild-moderate supervised exercise program during pregnancy (Intervention group, IG) or to continue with their routine pregnancy care (control group, CG). For the purpose of this study we collected clinical and analytical data (heart blood pressure, weight, blood glucose, AST, ALT, blood Creatinine and blood Uric acid) available from all obstetric visits and examined the differences between groups. Results: We did not find any differences in: pregnancy weight (IG: 11.4 ± 4.4 Kg vs. CG: 10.1 ± 5.3 Kg; p = 0.173); fasting glucose at 10+0–12+6 weeks (IG: 78.48±8.34 vs. CG: 76±13.26, p = 0.305) or at 34+0–36+4 weeks (IG: 73.25±10.27 vs CG: 73.45± 8.29,p = 0.920), and 50 gs glucose tolerance at 24+4–26+6weeks (IG: 116.23±35.07 vs CG: 116.36±25.98, p = 0.984); Aspartate-amino-transferase at 10+0–12+6 weeks (IG: 15.38±4.17 vs CG: 17.33±7.05, p = 0.124) and at 34+0–36+4 weeks (IG: 21.65±5.25 vs CG: 19.53±8.32, p = 0.165) or Alanine-amino- transferase at 10+0–12+6 weeks (IG: 27.50±10.63 vs CG: 28.27±11.77, p = 0.746) or at 34+0–36+4 weeks (IG: 22.93±9.23 vs CG: 20.84±13.49, p = 0.407); blood Creatinine concentrations at 34+0–36+4 weeks (IG: 0.595±0.401 vs CG: 0.575±0.100, p = 0.757) and blood uric acid concentrations at 34+0–36+4 weeks (IG: 3.526 ± 0.787 vs CG: 3.262±0.672, p = 0.218). Heart blood pressure was similar between groups except at 27+0–28+6 weeks, where systolic blood pressure was significantly lower in the CG in comparison to the IG (116.31±10.8 mmHg vs. 120.22 ± 10.3 mmHg, p = 0.010). Conclusion: Regular supervised exercise during pregnancy does not alter normal maternal physiologyItem Physical exercise programme during pregnancy decreases perinatal depression risk: a randomised controlled trial.(British Journal of Sports Medicine, 2018) Vargas Terrones, Marina; Barakat, Rubén; Santacruz Martín, Belén; Fernández Buhigas, Irene; Mottola, Michelle FIntroduction The incidence of depression is high during the perinatal period. This mood disorder can have a significant impact on the mother, the child and the family. Objective To examine the effect of an exercise programme during pregnancy on the risk of perinatal depression. Methods Healthy women who were <16 weeks pregnant were randomly assigned to two different groups. Women in the intervention group participated in a 60 min exercise programme throughout pregnancy, 3 days per week, which was conducted from October 2014 to December 2016. The Center for Epidemiological Studies-Depression Scale was used to measure the risk of depression at the beginning of the study (12–16 weeks), at gestational week 38 and at 6 weeks postpartum. Results One hundred and twenty-four pregnant women were allocated to either the intervention (IG=70) or the control (CG=54) group. No differences were found in the percentage of depressed women at baseline (20% vs 18.5%) (χ2=0.043; p=0.836). A smaller percentage of depressed women were identified in the IG compared with the CG at 38 gestational weeks (18.6% vs 35.6%) (χ2=4.190; p=0.041) and at 6 weeks postpartum (14.5% vs 29.8%) (χ2=3.985; p=0.046) using the per-protocol analysis. No significant differences were found using the intention-to-treat analyses, except in the multiple imputation analysis at week 38 (18.6% vs 34.4%) (χ2=4.085; p=0.049). Conclusion An exercise programme performed during pregnancy may reduce the prevalence of depression in late pregnancy and postpartum.