Diane Schilling scite author profile

Importance Maternal smoking during pregnancy adversely affects offspring lung development with lifelong decreases in pulmonary function and increased asthma risk. In a primate model, vitamin C blocked some of the in-utero effects of nicotine on lung development and offspring pulmonary function. Objective To determine if newborns of pregnant smokers randomized to daily vitamin C would have improved pulmonary function tests (PFTs) and decreased wheezing compared to those randomized to placebo. Design, Setting, Participants, Intervention Randomized, double-blind trial in three sites in the Pacific Northwest. Between March 2007 and January 2011, 206 pregnant smokers were recruited and 179 randomized to vitamin C (500 mg/day) versus placebo (89 to vitamin C and 90 to placebo). 159 newborns of randomized pregnant smokers (76 vitamin C treated and 83 placebo treated) and 76 of pregnant nonsmokers were studied with newborn PFTs. Follow-up assessment including wheezing was assessed through one year of age and PFTs were done at one year of age. Main Outcomes and Measures The primary outcome was measurements of newborn pulmonary function (specifically the ratio of the time to peak tidal expiratory flow to expiratory time [TPTEF:TE] and passive respiratory compliance per kilogram [Crs/kg]) within 72 hours of age. Secondary outcomes included incidence of wheezing through one year of age and PFTs at one year of age. A subgroup of pregnant smokers and nonsmokers had genotyping performed. Results Newborns of women randomized to vitamin C (n= 76) had improved pulmonary function as measured by TPTEF:TE (0.383 vs 0.345; adjusted 95% confidence interval [CI] for difference 0.011, 0.062; p =0.006) and Crs/kg (1.32 vs 1.20 mL/cm H2O/kg; 95% CI 0.02, 0.20; p =0.012) than those randomized to placebo (n=83). Offspring of women randomized to vitamin C had significantly decreased wheezing through 1 year of age (15/70 [21%] vs 31/77 [40%]; relative risk 0.56, 95% CI 0.33, 0.95; p =0.03). There were no significant differences in the one year PFTs between the vitamin C and placebo groups. The effect of maternal smoking on newborn lung function was associated with maternal genotype for the alpha 5 nicotinic receptor (rs16969968) (p value for interaction = 0.0006). Conclusion and Relevance Supplemental vitamin C to pregnant smokers improved newborn PFTs and decreased wheezing through 1 year in the offspring. Vitamin C in pregnant smokers may be an inexpensive and simple approach to decrease the effects of smoking in pregnancy on newborn pulmonary function and respiratory morbidities. Trial Registration Clinicaltrials.gov, Identifier: NCT00632476

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Respiratory compliance in preterm infants after a single rescue course of antenatal steroids: a randomized controlled trial

McEvoy

Schilling

Peters

et al. 2010

American Journal of Obstetrics and Gynecology

100

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Objective-To compare respiratory compliance (Crs) and functional residual capacity (FRC) in infants randomized to a rescue course of antenatal steroids (AS) versus placebo.Study Design-Randomized, double-blinded trial. Pregnant women ≥ 14 days after initial AS were randomized to rescue AS or placebo. The primary outcomes were measurements of Crs and FRC. This study is registered with clinicaltrials.gov [NCT00669383].Results-44 mothers (56 babies) received rescue AS and 41 mothers (57 babies) received placebo. There was no significant difference in birth weight, or head circumference. Infants in the rescue group had an increased Crs (1.21 versus 1.01 mL/cm H 2 O/kg; adjusted 95% CI 0.01, 0.49; p =0.0433) compared to placebo. 13% in the rescue versus 29% in the placebo group required ≥ 30% oxygen (p <0.05). Patients delivered at ≤ 34 weeks had greater pulmonary benefits.Conclusion-Infants randomized to rescue AS have a significantly increased Crs compared to placebo.

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Respiratory Function in Healthy Late Preterm Infants Delivered at 33-36 Weeks of Gestation

McEvoy

Venigalla

Schilling

et al. 2013

The Journal of Pediatrics

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Objective To compare pulmonary function testing including respiratory compliance (Crs) and time to peak tidal expiratory flow: expiratory time (Tptef:Te) at term corrected age in healthy infants born at 33-36 weeks of gestation versus healthy infants delivered at term. Study design We performed a prospective cohort study of late preterm infants born at 33-36 weeks without clinical respiratory disease (<12 hours of >0.21 FiO2) and studied at term corrected age. The comparison group was term infants matched for race and sex to the preterm infants and studied within 72 hours of delivery. Crs was measured with the single breath occlusion technique. A minimum of 50 flow-volume loops were collected to estimate Tptef:Te. Results Late preterm infants (n=31; mean gestational age 34.1 weeks, birth weight 2150 g) and 31 term infants were studied at term corrected age. The late preterm infants had decreased Crs (1.14 vs 1.32 mL/cm H2O/kg; p<0.02) and decreased Tptef:Te (0.308 vs 0.423; p<0.01) when compared with the term infants. Late preterm infants also had an increased respiratory resistance (0.064 vs 0.043 cm H2O/mL/sec; p<0.01). Conclusions Healthy late preterm infants (33-36 weeks of gestation) studied at term corrected age have altered pulmonary function when compared with healthy term infants.

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Vitamin C Supplementation for Pregnant Smoking Women and Pulmonary Function in Their Newborn Infants

McEvoy

Schilling

Clay

et al. 2014

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IMPORTANCE Maternal smoking during pregnancy adversely affects offspring lung development, with lifelong decreases in pulmonary function and increased asthma risk. In a primate model, vitamin C blocked some of the in-utero effects of nicotine on lung development and offspring pulmonary function. OBJECTIVETo determine if newborns of pregnant smokers randomized to receive daily vitamin C would have improved results of pulmonary function tests (PFTs) and decreased wheezing compared with those randomized to placebo. DESIGN, SETTING, AND PARTICIPANTS Randomized, double-blind trial conducted in 3 sites in the Pacific Northwest between March 2007 and January 2011. One hundred fifty-nine newborns of randomized pregnant smokers (76 vitamin C treated and 83 placebo treated) and 76 newborns of pregnant nonsmokers were studied with newborn PFTs. Follow-up assessment including wheezing was assessed through age 1 year, and PFTs were performed at age 1 year.INTERVENTIONS Pregnant women were randomized to receive vitamin C (500 mg/d) (n = 89) or placebo (n = 90). MAIN OUTCOMES AND MEASURESThe primary outcome was measurement of newborn pulmonary function (ratio of the time to peak tidal expiratory flow to expiratory time [TPTEF:TE] and passive respiratory compliance per kilogram [Crs/kg]) within 72 hours of age. Secondary outcomes included incidence of wheezing through age 1 year and PFT results at age 1 year. A subgroup of pregnant smokers and nonsmokers had genotyping performed. RESULTS Newborns of women randomized to vitamin C (n = 76), compared with those randomized to placebo (n = 83), had improved pulmonary function as measured by TPTEF:TE (0.383 vs 0.345 [adjusted 95% CI for difference, 0.011-0.062]; P = .006) and Crs/kg (1.32 vs 1.20 mL/cm H 2 O/kg [95% CI, 0.02-0.20]; P = .01). Offspring of women randomized to vitamin C had significantly decreased wheezing through age 1 year (15/70 [21%] vs 31/77 [40%]; relative risk, 0.56 [95% CI, 0.33-0.95]; P = .03). There were no significant differences in the 1-year PFT results between the vitamin C and placebo groups. The effect of maternal smoking on newborn lung function was associated with maternal genotype for the α5 nicotinic receptor (rs16969968) (P < .001 for interaction). CONCLUSIONS AND RELEVANCE Supplemental vitamin C taken by pregnant smokers improved newborn PFT results and decreased wheezing through 1 year in the offspring. Vitamin C in pregnant smokers may be an inexpensive and simple approach to decrease the effects of smoking in pregnancy on newborn pulmonary function and respiratory morbidities.

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Decreased Respiratory Compliance in Infants Less Than or Equal to 32 Weeks' Gestation, Delivered More Than 7 Days After Antenatal Steroid Therapy

McEvoy

Schilling²,

Spitale³

et al. 2008

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Infants who were < or = 32 weeks' gestation and remotely treated with antenatal steroids (average 21 days) had a significantly lower respiratory compliance compared with matched infants who were ideally treated with antenatal steroids. We speculate that the lower respiratory system compliance may reflect the dissipation of beneficial effects of antenatal steroids on pulmonary function when delivery occurs > 7 days after therapy and particularly when therapy is > 14 days before delivery.

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Diane Schilling

Vitamin C Supplementation for Pregnant Smoking Women and Pulmonary Function in Their Newborn Infants

Respiratory compliance in preterm infants after a single rescue course of antenatal steroids: a randomized controlled trial

Respiratory Function in Healthy Late Preterm Infants Delivered at 33-36 Weeks of Gestation

Vitamin C Supplementation for Pregnant Smoking Women and Pulmonary Function in Their Newborn Infants

Decreased Respiratory Compliance in Infants Less Than or Equal to 32 Weeks' Gestation, Delivered More Than 7 Days After Antenatal Steroid Therapy

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