Body mass index analysis of ABPM revealed 25 children with a BMI less than the 94th percentile, 31 children with a BMI between the 94th and 97^th percentiles, 19 children between the 98th and 99th percentiles and 39 children above the 99^th percentile for age. There were a total of 30 African American (26%), 45 Hispanic (39%) and 40 Caucasian (34%) children in the analyzed data.

Children with a BMI below the 94th percentile had a mean systolic load of 34.15% and a mean diastolic load of 8.65%; children with a BMI between the 94th and 97th percentiles had a mean systolic load of 37.13 and a mean diastolic load of 8.87; children with a BMI between the 98th and 99th percentiles had a mean systolic load of 37.95 and a mean diastolic load of 10.00%; and children with a BMI above the 99th percentile had a mean systolic load of 46.88% and a mean diastolic load of 10.23% (Table 1).

The mean systolic and diastolic loads were highest in children with a BMI above the 99th percentile, but the difference was not statistically significant (p=0.2176 and p=0.9762, respectively) (Table 1).

Bivariate analysis comparing blood pressure in children from different ethnicities revealed that African American children had a greater mean systolic load than Hispanic and Caucasian children, but this difference was not statistically significant. (p=0.2744) (Table 2).

Our study investigated the relationship between obesity and hypertension in children and adolescents using ambulatory blood pressure monitoring (ABPM). Ambulatory blood pressure monitoring is considered the gold standard for the diagnosis of hypertension in children. ABPM studies allowed us to assess systolic and diastolic loads and compare them with body mass index. This allowed us to better assess the relationship between the severity of obesity and the severity of hypertension. Most studies have used single blood pressure measurements and body mass indices to assess the relationship between obesity and hypertension. Our study is unique since we were able to look at systolic and diastolic loads as opposed to single point blood pressure checks.

We focused on BMI percentiles for a more accurate assessment of obesity. We found that as BMI increased, there was a corresponding increase in mean systolic and diastolic blood pressure. However, these associations did not reach statistical significance. Interestingly, BMI and blood pressure were more strongly correlated in African American children than in Hispanic or Caucasian children, although the difference was not statistically significant. Although our study did not find significant associations, it provides valuable insights into pediatric hypertension and the role of obesity.

Previous studies have established a significant association between child obesity and hypertension, controlling for various parameters, such as age, sex, glucose and lipid parameters 45. These studies also revealed that abdominal obesity, as measured by waist circumference (WC), is significantly associated with prehypertension and hypertension. A study by Dulskiene et al 5 revealed a stronger association between obesity and elevated blood pressure in boys. They found that boys were significantly heavier and had a greater median SBP and a significantly lower DBP than girls. However, the association between BP and obesity remained significant even after adjusting for sex and age. Gender may not be a confounding variable, as a study conducted by Zuhal Gundogdu et al 8 revealed that although BMI among girls was greater than that among boys in their study sample, there were no significant differences between sexes concerning blood pressure values.

Childhood overweight and obesity may result in premature onset of cardiovascular risk factors such as hypertension. Rural populations in North America may be at increased risk for overweight 13. The prevalence of elevated BP was 11.2% in normal-weight children, 20.6% in overweight children, and 39.7% in obese children 9. High blood pressure is common in 3- to 12-year-olds with overweight/obesity, with greater obesity associated with greater hypertension. Blood pressure is likely to be associated with sustained hypertension in children who are overweight/obese or have stage 2 disease and should be prioritized for evaluation 10. Thus, it is essential for children and adolescents to maintain a BMI within the normal range to prevent and control pediatric hypertension 12.

This study has a few limitations. As this was a cross-sectional study, there was no temporal relationship. This study focuses more on associations rather than causation. This limitation is common to the previous research conducted on this topic 45678910111213. The small sample size in our study was compensated for by the optimization of study features, such as the use of ABPM instead of a single office blood pressure measurement. Ambulatory blood pressure monitoring allows us to detect white-coat hypertension, masked hypertension, and abnormal circadian variation in BP, such as isolated nocturnal hypertension and blunted dipping 11. Our study also explored the correlation between obesity and hypertension among different ethnicities.

Another limitation is the use of BMI percentiles alone as a measure of obesity. The use of BMI percentiles was believed to be appropriate for estimating CVD risk 7 in the past. However, recent studies have shown that BMI cannot distinguish between fat in different body compartments 6 and may inaccurately categorize children 14. A study conducted by Clasey et al. revealed that some children classified as healthy weight or overweight based on BMI percentiles had higher body fat percentages and/or lower fat-free mass indices than the recommended standards. This limitation can be overcome by incorporating additional measures such as body composition assessments to enhance the sensitivity and accuracy of identifying children with obesity 14.

Despite the abovementioned limitations, our study revealed a correlation between hypertension and obesity in children and adolescents. This emphasizes the importance of children maintaining the recommended body weight and composition to prevent future cardiovascular complications. Previous studies have suggested that adequate consumption of dairy products 15, fish, fruit, and vegetables, restricted salt (sodium chloride) 16, and reduced consumption of sugar-sweetened beverages 17 can reduce the risk of hypertension and other cardiometabolic disorders. Higher levels of physical activity can also reduce the risk of CVD 18. Thus, it is essential to promote and encourage a healthy and sustainable lifestyle among young people to maintain obesity at bay and prevent associated health complications. Early detection and prompt intervention appear to offer the best solution.