Adverse Effects of Exposure to Fine Particulate Matters and Ozone on Gestational Hypertension

Rong Yang; Dan Luo; Yi-ming Zhang; Ke Hu; Zheng-min Qian; Li-qin Hu; Long-jiao Shen; Hong Xian; Juliet Iwelunmor; Su-rong Mei

doi:10.1007/s11596-019-2137-9

Current Medical Science ›› 2019, Vol. 39 ›› Issue (6) : 1019 -1028. DOI: 10.1007/s11596-019-2137-9

Article

Adverse Effects of Exposure to Fine Particulate Matters and Ozone on Gestational Hypertension

Author information +

History +

PDF

Abstract

Gestational hypertension (GH) is a common complication during pregnancy. GH is regarded as a potential public health challenge for pregnant women and infants. Limited evidence has linked ambient air pollution to an increased GH risk. However, most of the studies were conducted in developed countries, with inconsistent results obtained. The present study was performed to explore whether exposure to particulate matters with an aerodynamic diameter < 2.5 (PM_2.5) and ozone (O₃) was related to elevated odds of GH in a Chinese population. This population-based cohort study involved 38 115 pregnant women in Wuhan, China. All information was collected from the Wuhan Maternal and Child Health Management Information System, using standardized quality control. The daily air pollutant data for PM_2.5 and O₃ were obtained from the 20 monitoring stations of the Wuhan Environmental Monitoring Center during 2014. The nearest monitor approach was applied to individual exposure assessment of PM_2.5 and O₃ for each participant. After adjusting for major confounders and other air pollutants, a 10 µg/m³ increase in PM_2.5 and O₃ concentrations was found to correlate to a 1.14-fold [95% confidence interval (95% CI): 1.09, 1.20] and a 1.05-fold (95% CI: 1.02, 1.07) increase in GH risk, respectively. Additionally, stronger relationships between GH risk and PM_2.5 and O₃ exposure were observed in women who conceived in winter and summer, respectively. These findings suggest that air pollutants may contribute to the development of GH.

Keywords

air pollution / fine particulate matter / ozone / hypertensive disorders of pregnancy / gestational hypertension

Cite this article

Download citation ▾

Rong Yang, Dan Luo, Yi-ming Zhang, Ke Hu, Zheng-min Qian, Li-qin Hu, Long-jiao Shen, Hong Xian, Juliet Iwelunmor, Su-rong Mei. Adverse Effects of Exposure to Fine Particulate Matters and Ozone on Gestational Hypertension. Current Medical Science, 2019, 39(6): 1019-1028 DOI:10.1007/s11596-019-2137-9

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	KintirakiE, PapakatsikaS, KotronisG, et al.. Pregnancy-Induced hypertension. Hormones (Athens), 2015, 14(2): 211-223

[2]	YoderSR, ThornburgLL, BisognanoJD. Hypertension in Pregnancy and Women of Childbearing Age. Am J Med, 2009, 122(10): 890-895

[3]	Report of the National High Blood Pressure Education Program Working Group on High Blood Pressure in Pregnancy. Am J Obstet Gynecol, 2000,183(1):s1–s22

[4]	WuW, ZhouF, WangY, et al.. Phthalate levels and related factors in children aged 6–12 years. Environ Pollut, 2017, 220(PtB): 990-996

[5]	DuleyL. The global impact of pre-eclampsia and eclampsia. Semin Perinatol, 2009, 33(3): 130-137

[6]	FeigDS, ShahBR, LipscombeLL, et al.. Preeclampsia as a risk factor for diabetes: a population-based cohort study. PLoS Med, 2013, 10(4): e1001425

[7]	TooherJ, ThorntonC, MakrisA, et al.. All Hypertensive Disorders of Pregnancy Increase the Risk of Future Cardiovascular Disease. Hypertension, 2017, 70(4): 798-803

[8]	CurranEA, O’keeffeGW, LooneyAM, et al.. Exposure to Hypertensive Disorders of Pregnancy Increases the Risk of Autism Spectrum Disorder in Affected Offspring. Mol Neurobiol, 2018, 55(7): 5557-5564

[9]	JohnsonKM, ZashR, HavilandMJ, et al.. Hypertensive disease in pregnancy in Botswana: Prevalence and impact on perinatal outcomes. Pregnancy Hypertens, 2016, 6(4): 418-422

[10]	KajantieE, OsmondC, ErikssonJG. Gestational hypertension is associated with increased risk of type 2 diabetes in adult offspring: the Helsinki Birth Cohort Study. Am J Obstet Gynecol, 2017, 216(3): 281.e281-281.e287

[11]	ShenM, SmithGN, RodgerM, et al.. Comparison of risk factors and outcomes of gestational hypertension and pre-eclampsia. PLoS One, 2017, 12(4): e0175914

[12]	TenholaS, RahialaE, HalonenP, et al.. Maternal preeclampsia predicts elevated blood pressure in 12-year-old children: evaluation by ambulatory blood pressure monitoring. Pediatr Res, 2006, 59(2): 320-324

[13]	HuH, HaS, XuX. Ozone and hypertensive disorders of pregnancy in Florida: Identifying critical windows of exposure. Environ Res, 2017, 153: 120-125

[14]	LeePC, RobertsJM, CatovJM, et al.. First trimester exposure to ambient air pollution, pregnancy complications and adverse birth outcomes in Allegheny County, PA. Matern Child Health J, 2013, 17(3): 545-555

[15]	LeePC, TalbottEO, RobertsJM, et al.. Ambient air pollution exposure and blood pressure changes during pregnancy. Environ Res, 2012, 117(6): 46-53

[16]	MobasherZ, SalamMT, GoodwinTM, et al.. Associations between ambient air pollution and Hypertensive Disorders of Pregnancy. Environ Res, 2013, 123: 9-16

[17]	Van Den HoovenEH, De KluizenaarY, PierikFH, et al.. Air pollution, blood pressure, and the risk of hypertensive complications during pregnancy: the generation R study. Hypertension, 2011, 57(3): 406-412

[18]	XuX, HuH, HaS, et al.. Ambient air pollution and hypertensive disorder of pregnancy. J Epidemiol Community Health, 2014, 68(1): 13-20

[19]	ZhuY, ZhangC, LiuD, et al.. Ambient Air Pollution and Risk of Gestational Hypertension. Am J Epidemiol, 2017, 186(3): 334-343

[20]	MichikawaT, MorokumaS, FukushimaK, et al.. A register-based study of the association between air pollutants and hypertensive disorders in pregnancy among the Japanese population. Environ Res, 2015, 142: 644-650

[21]	SavitzDA, ElstonB, BobbJF, et al.. Ambient fine particulate matter, nitrogen dioxide, and hypertensive disorders of pregnancy in New York City. Epidemiology, 2015, 26(5): 748-757

[22]	ZhaiD, GuoY, SmithG, et al.. Maternal exposure to moderate ambient carbon monoxide is associated with decreased risk of preeclampsia. Am J Obstet Gynecol, 2012, 207(1): 57.e51-59

[23]	HuH, HaS, RothJ, et al.. Ambient Air Pollution and Hypertensive Disorders of Pregnancy: A Systematic Review and Meta-analysis. Atmos Environ, 2014, 97(3): 336-345

[24]	PedersenM, StaynerL, SlamaR, et al.. Ambient air pollution and pregnancy-induced hypertensive disorders: a systematic review and meta-analysis. Hypertension, 2014, 64(3): 494-500

[25]	BrookRD, RajagopalanS, PopeCA3rd, et al.. Particulate matter air pollution and cardiovascular disease: An update to the scientific statement from the American Heart Association. Circulation, 2010, 121(21): 2331-2378

[26]	CaiY, ZhangB, KeW, et al.. Associations of Short-Term and Long-Term Exposure to Ambient Air Pollutants With Hypertension: A Systematic Review and Meta-Analysis. Hypertension, 2016, 68(1): 62-70

[27]	QianZ, LiangS, YangS, et al.. Ambient air pollution and preterm birth: A prospective birth cohort study in Wuhan, China. Int J Hyg Environ Health, 2016, 219(2): 195-203

[28]	ZhangB, LiangS, ZhaoJ, et al.. Maternal exposure to air pollutant PM_2.5 and PM₁₀ during pregnancy and risk of congenital heart defects. J Expo Sci Environ Epidemiol, 2016, 26(4): 422-427

[29]	Vinikoor-ImlerLC, GraySC, EdwardsSE, et al.. The effects of exposure to particulate matter and neighbourhood deprivation on gestational hypertension. Paediatr Perinat Epidemiol, 2012, 26(2): 91-100

[30]	WangQ, ZhangH, LiangQ, et al.. Effects of prenatal exposure to air pollution on preeclampsia in Shenzhen, China. Environ Pollut, 2018, 237: 18-27

[31]	DadvandP, FiguerasF, BasaganaX, et al.. Ambient air pollution and preeclampsia: a spatiotemporal analysis. Environ Health Perspect, 2013, 121(11–12): 1365-1371

[32]	WuJ, RenC, DelfinoRJ, et al.. Association between local traffic-generated air pollution and preeclampsia and preterm delivery in the south coast air basin of California. Environ Health Perspect, 2009, 117(11): 1773-1779

[33]	BMJ Open, 2013, 3(2):

[34]	WuJ, WilhelmM, ChungJ, et al.. Comparing exposure assessment methods for traffic-related air pollution in an adverse pregnancy outcome study. Environ Res, 2011, 111(5): 685-692

[35]	MendolaP, WallaceM, LiuD, et al.. Air pollution exposure and preeclampsia among US women with and without asthma. Environ Res, 2016, 148: 248-255

[36]	RudraCB, WilliamsMA, SheppardL, et al.. Ambient carbon monoxide and fine particulate matter in relation to preeclampsia and preterm delivery in western Washington State. Environ Health Perspect, 2011, 119(6): 886-892

[37]	KaajaRJ, GreerIA. Manifestations of chronic disease during pregnancy. JAMA, 2005, 294(21): 2751

[38]	CaiY, ZhangB, KeW, et al.. Associations of Short-Term and Long-Term Exposure to Ambient Air Pollutants With Hypertension: A Systematic Review and Meta-Analysis. Hypertension, 2016, 68(1): 62-70

[39]	DaiJ, ChenW, LinY, et al.. Exposure to Concentrated Ambient Fine Particulate Matter Induces Vascular Endothelial Dysfunction via miR-21. Int J Biol Sci, 2017, 13(7): 868-877

[40]	ElderA, CoudercJP, GeleinR, et al.. Effects of on-road highway aerosol exposures on autonomic responses in aged, spontaneously hypertensive rats. Inhal Toxicol, 2007, 19(1): 1-12

[41]	Int J Environ Res Public Health, 2016, 13(5):

[42]	WangG, JiangR, ZhaoZ, et al.. Effects of ozone and fine particulate matter (PM(2.5)) on rat system inflammation and cardiac function. Toxicol Lett, 2013, 217(1): 23-33

[43]	BrookRD, RajagopalanS. Particulate matter, air pollution, and blood pressure. J Am Soc Hypertens, 2009, 3(5): 332

[44]	CooganPF, WhiteLF, JerrettM, et al.. Air pollution and incidence of hypertension and diabetes mellitus in black women living in Los Angeles. Circulation, 2012, 125(6): 767-772

[45]	TamWH, SahotaDS, LauTK, et al.. Seasonal variation in pre-eclamptic rate and its association with the ambient temperature and humidity in early pregnancy. Gynecol Obstet Invest, 2008, 66(1): 22-26

[46]	PhillipsJK, BernsteinIM, MongeonJA, et al.. Seasonal variation in preeclampsia based on timing of conception. Obstet Gynecol, 2004, 104(5Pt1): 1015-1020

[47]	WeinbergCR, ShiM, BassoO, et al.. Season of Conception, Smoking, and Preeclampsia in Norway. Environ Health Perspect, 2017, 125(6): 067022

[48]	TepoelMR, SaftlasAF, WallisAB. Association of seasonality with hypertension in pregnancy: a systematic review. J Reprod Immunol, 2011, 89(2): 140-152

[49]	BodnarLM, DaftaryA, MarkovicN, et al.. Seasonal variation in gestational blood pressure. Hypertens Pregnancy, 2006, 25(3): 271-283

[50]	ShaoweiW, FurongD, JingH, et al.. Does ambient temperature interact with air pollution to alter blood pressure? A repeated-measure study in healthy adults. J Hypertens, 2015, 33(12): 2414-2421

[51]	MetokiH, OhkuboT, WatanabeY, et al.. Seasonal trends of blood pressure during pregnancy in Japan: the babies and their parents’ longitudinal observation in Suzuki Memorial Hospital in Intrauterine Period study. J Hypertens, 2008, 26(12): 2406-2413

[52]	GordonCJ, JohnstoneAF, AydinC. Thermal stress and toxicity. Compreh Physiol, 2014, 4(3): 995

[53]	LeonLR. Thermoregulatory responses to environmental toxicants: the interaction of thermal stress and toxicant exposure. Toxicol Appl Pharmacol, 2008, 233(1): 146-161

[54]	PereiraG, HaggarF, ShandAW, et al.. Association between pre-eclampsia and locally derived traffic-related air pollution: a retrospective cohort study. J Epidemiol Community Health, 2013, 67(2): 147-152

[55]	Isakov V, Johnson M, Touma J, et al. Development and Evaluation of Land-Use Regression Models Using Modeled Air Quality Concentrations. Nato Science for Peace & Security, 2011:717–722