Literature DB >> 31949460

Essential hypertension in children, a growing worldwide problem.

Mohammadreza Sabri¹, Alaleh Gheissari², Marjan Mansourian³, Noushin Mohammadifard⁴, Nizal Sarrafzadegan⁵.

Abstract

Hypertension is one of the most common diseases worldwide. For many decades, it was considered as a problem related to adult population; however, its incidence in children has also been increased in recent years. Although secondary causes of hypertension are more common in children, few studies have been published focusing on the growing epidemic rate of essential hypertension in children and adolescents. Considering the importance of essential hypertension and its cardiovascular consequences, we review briefly its epidemiology and risk factors in children. Copyright:

Entities: Chemical Disease Gene Mutation Species

Keywords: Adolescent; cardiovascular disease; child; essential hypertension; obesity

Year: 2019 PMID： 31949460 PMCID： PMC6950331 DOI： 10.4103/jrms.JRMS_641_19

Source DB: PubMed Journal: J Res Med Sci ISSN： 1735-1995 Impact factor: 1.852

INTRODUCTION

Hypertension has been known not only as a common disease but also as one of the most prevalent human diseases, leading to high morbidity and mortality.[1] About 10.4 million deaths were attributed to high systolic blood pressure as the leading risk factor of cardiovascular disease.[2] In the past, hypertension and its harmful consequences were attributed to adult patients, and it was unusual in childhood and secondary to some disorders of the renal, endocrine, and cardiac.[3] One of the first reports on the prevalence of pediatric hypertension was published in 1963.[4] Since then, many papers have been published regarding the prevalence and importance of hypertension in pediatric population. While primary hypertension is more common in the adult population, secondary causes of hypertension are mostly found in children. Renal and renovascular diseases have their top position among identifiable causes of hypertension in children.[5] Glomerulonephritis, reflux nephropathy, renal artery stenosis, and coarctation of the aorta followed by endocrine disorders are main causes of secondary hypertension in the pediatric population.[367] Thus, in this paper, we aim to review the epidemiology of primary hypertension and its determinants including gender, obesity, lifestyles, and genetic factors in children and adolescents.

EPIDEMIOLOGY

In recent decades, an increase in primary hypertension in adolescents has been reported.[789] The prevalence of essential hypertension in adolescents is different among diverse ethnicities from as low as 0.3% up to approximately 21%.[8910111213] Various factors such as obesity, diet, gender, and academic stress have been claimed as responsible causes in increasing the prevalence of primary hypertension in this age group.[11131415]

Gender

Some studies stated that essential hypertension is more common in boys than in girls. Sundar et al. reported a high rate of essential hypertension in boys, with a male/female ratio approximately equals to 3/1.[9] In another survey, Mohan et al. showed that hypertension was more common in boys not only in urban but also in rural area of Ludhiana, India.[16] A study by Buch et al. demonstrated slight increase in the prevalence of hypertension in boys aged older than 13 years compared to girls.[17] However, the gender effect has not been supported by all similar studies.[18]

Obesity and body mass index

Although the rising trend of obesity and mean body mass index (BMI) in high levels has been plateaued in high-income countries, it has enhanced rapidly in the south, east, and southeast of Asia.[19] Growing rate of obesity changes the incidence of overweight-related problems such as hypertension in the world.[1112202122] According to the results from the National Health and Nutrition Examination Survey between 1988 and 1994 and between 1999 and 2008, in parallel with increasing BMI, 3.4% and 4.4% rise in the prevalence of hypertension have been reported among boys and girls, respectively.[23] By various mechanisms including insulin resistance, activation of renin-angiotensin-aldosterone system (RAS), retention of salt, and consequent changes in vascular endothelial function, obesity induces hypertension.[24] A study on about 25,000 schoolchildren revealed a higher prevalence of hypertension in overweight and obese children in comparison to normal weight participants (17%–18% vs. 10%).[25] The rise of the population with hypertension has been shown not only in adolescents but even in children. Based on the electronic medical data from a cohort of 14,000 children and adolescents aged 3–18 years, a prevalence of 3.4% of hypertensive population was reported and the presence of obesity was accompanied by higher blood pressure.[26]

Lifestyle factors

Dietary patterns, physical activity, and stress have main roles in the incidence and prevention of hypertension in children and adolescents.[27] A diet with high salt intake, saturated and trans-fatty acids, and low consumption of fruits and vegetables, nuts, and olive oil was associated with hypertension in both children and adults.[28] Due to urbanization, children have more consumption of processed food and energy-dense diet,[29] which cause obesity and consequently obesity-related hypertension in childhood.[30] Sedentary lifestyle and poor sleep quality promote hypertension in children.[22] Since the World Health Organization recommended to engage in moderate-to-vigorous physical activity for at least 1 h a day in childhood.[31] Elevated blood pressure in schoolchildren and adolescents can be attributed to high stress, particularly academic stress, because of difficult curriculum in the school and educational competition.[32]

Genetic factors

Although excess weight is the main factor responsible for increasing rate of hypertension among adolescent, genetic, and family history, susceptibility should not be ignored.[3334] Gene polymorphism of RAS has been proposed as a risk factor for essential hypertension and its cardiovascular consequences. Aldosterone synthase gene (CYP11B2) polymorphism evaluation in Japanese participants with essential hypertension showed a significant difference in the distribution of three genotypes (TT, TC, and CC) between the hypertensive and normotensive population.[34] A recent study in China demonstrated the higher risk of hypertension in children and adolescents with single-nucleotide polymorphism of ATP2B1 rs17249754.[35] In addition to RAS, endothelial nitric oxide gene polymorphism has been targeted as a possible genetic factor to contribute to developing essential hypertension. More frequency of one of the most applicable polymorphisms in the NOS3 gene (rs1799983 in exon 7) has been reported in Sudanese patients with essential hypertension than control group.[36]

CONCLUSION

Concerning the growing rate of essential hypertension and its link to environmental, genetic, and anthropometric factors, assessing its prevalence and possible cardiovascular complications is necessary for every population and geographical area.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.

29 in total

1. Prevalence of hypertension among schoolchildren in Shimla.

Authors: Avinash Sharma; Neelam Grover; Shayam Kaushik; Rajiv Bhardwaj; Naveen Sankhyan
Journal: Indian Pediatr Date: 2010-01-15 Impact factor: 1.411

2. Obesity-related hypertension: epidemiology, pathophysiology, and clinical management.

Authors: Theodore A Kotchen
Journal: Am J Hypertens Date: 2010-08-12 Impact factor: 2.689

3. Prevalence of sustained hypertension and obesity in urban and rural school going children in Ludhiana.

Authors: Bishav Mohan; Naveen Kumar; Naved Aslam; Aditya Rangbulla; S Kumbkarni; Naresh K Sood; G S Wander
Journal: Indian Heart J Date: 2004 Jul-Aug

4. Underdiagnosis of hypertension in children and adolescents.

Authors: Matthew L Hansen; Paul W Gunn; David C Kaelber
Journal: JAMA Date: 2007-08-22 Impact factor: 56.272

5. Hypertension Canada's 2016 Canadian Hypertension Education Program Guidelines for Blood Pressure Measurement, Diagnosis, and Assessment of Risk of Pediatric Hypertension.

Authors: Kevin C Harris; Geneviève Benoit; Janis Dionne; Janusz Feber; Lyne Cloutier; Kelly B Zarnke; Raj S Padwal; Doreen M Rabi; Anne Fournier
Journal: Can J Cardiol Date: 2016-03-04 Impact factor: 5.223

6. Prediction of primary vs secondary hypertension in children.

Authors: Rossana Baracco; Gaurav Kapur; Tej Mattoo; Amrish Jain; Rudolph Valentini; Maheen Ahmed; Ronald Thomas
Journal: J Clin Hypertens (Greenwich) Date: 2012-03-12 Impact factor: 3.738

7. Global, regional, and national comparative risk assessment of 84 behavioural, environmental and occupational, and metabolic risks or clusters of risks for 195 countries and territories, 1990-2017: a systematic analysis for the Global Burden of Disease Study 2017.

Authors:
Journal: Lancet Date: 2018-11-08 Impact factor: 79.321

8. Association of NOS3 gene polymorphisms with essential hypertension in Sudanese patients: a case control study.

Authors: Sahar Gamil; Jeanette Erdmann; Ihab B Abdalrahman; Abdelrahim O Mohamed
Journal: BMC Med Genet Date: 2017-11-13 Impact factor: 2.103

Review 9. Development of hypertension in overweight adolescents: a review.

Authors: Rebecca K Kelly; Costan G Magnussen; Matthew A Sabin; Michael Cheung; Markus Juonala
Journal: Adolesc Health Med Ther Date: 2015-10-21

10. Risk Factors in Adolescent Hypertension.

Authors: D Rose Ewald; Lauren A Haldeman PhD
Journal: Glob Pediatr Health Date: 2016-02-16

12 in total

1. Microbiota Introduced to Germ-Free Rats Restores Vascular Contractility and Blood Pressure.

Authors: Bina Joe; Cameron G McCarthy; Jonnelle M Edwards; Xi Cheng; Saroj Chakraborty; Tao Yang; Rachel M Golonka; Blair Mell; Ji-Youn Yeo; Nicole R Bearss; Janara Furtado; Piu Saha; Beng San Yeoh; Matam Vijay-Kumar; Camilla F Wenceslau
Journal: Hypertension Date: 2020-10-19 Impact factor: 10.190

2. [Association between MTHFR gene polymorphism and primary hypertension in children].

Authors: Hui Wang; Yan-Yan Liu; Yu Zhang; Xiao-Li Chen; Lin Shi
Journal: Zhongguo Dang Dai Er Ke Za Zhi Date: 2022-05-15

3. Antihypertensive Effects of IGTGIPGIW Peptide Purified from Hippocampus abdominalis: p-eNOS and p-AKT Stimulation in EA.hy926 Cells and Lowering of Blood Pressure in SHR Model.

Authors: Hyo-Geun Lee; Hyun-Soo Kim; Hyesuck An; Kyunghwa Baek; Jeong Min Lee; Mi-Jin Yim; Seok-Chun Ko; Ji-Yul Kim; Gun-Woo Oh; Jun-Geon Je; Dae-Sung Lee; You-Jin Jeon
Journal: Mar Drugs Date: 2022-05-26 Impact factor: 6.085

Review 4. Systemic Inflammation, Oxidative Stress and Cardiovascular Health in Children and Adolescents: A Systematic Review.

Authors: Tjaša Hertiš Petek; Tadej Petek; Mirjam Močnik; Nataša Marčun Varda
Journal: Antioxidants (Basel) Date: 2022-04-30

5. Differences in Anthropometric and Clinical Features among Preschoolers, School-Age Children, and Adolescents with Obstructive Sleep Apnea-A Hospital-Based Study in Taiwan.

Authors: Hai-Hua Chuang; Jen-Fu Hsu; Li-Pang Chuang; Ning-Hung Chen; Yu-Shu Huang; Hsueh-Yu Li; Jau-Yuan Chen; Li-Ang Lee; Chung-Guei Huang
Journal: Int J Environ Res Public Health Date: 2020-06-29 Impact factor: 3.390

6. Children's Body Mass Index Depending on Dietary Patterns, the Use of Technological Devices, the Internet and Sleep on BMI in Children.

Authors: Anna Bartosiewicz; Edyta Łuszczki; Maciej Kuchciak; Gabriel Bobula; Łukasz Oleksy; Artur Stolarczyk; Katarzyna Dereń
Journal: Int J Environ Res Public Health Date: 2020-10-15 Impact factor: 3.390

7. The association between steps per day and blood pressure in children.

Authors: Aneta Weres; Joanna Baran; Ewelina Czenczek-Lewandowska; Justyna Leszczak; Artur Mazur
Journal: Sci Rep Date: 2022-01-26 Impact factor: 4.379

8. Clinical follow-up study of 166 cases of children with hypertension.

Authors: Zhenquan Wang; Yiping Shao; Jiahui Jin; Xing Rong; Huixian Qiu; Rongzhou Wu; Maoping Chu
Journal: Transl Pediatr Date: 2021-07

Review 9. Nigella sativa in controlling Type 2 diabetes, cardiovascular, and rheumatoid arthritis diseases: Molecular aspects.

Authors: Vahid Hadi; Naseh Pahlavani; Mahsa Malekahmadi; Elyas Nattagh-Eshtivani; Jamshid Gholizadeh Navashenaq; Saeid Hadi; Gordon A Ferns; Majid Ghayour-Mobarhan; Gholamreza Askari; Abdolreza Norouzy
Journal: J Res Med Sci Date: 2021-03-31 Impact factor: 1.852

Review 10. The associations of low birth weight with primary hypertension in later life: A systematic review and meta-analysis.

Authors: Mohammad Reza Sabri; Danial Habibi; Davood Ramezaninezhad; Roghaieh Ghazavi; Alaleh Gheissari; Noushin Mohammadifard; Marjan Mansourian; Nizal Sarrafzadegan
Journal: J Res Med Sci Date: 2021-05-27 Impact factor: 1.852