Study of teens in rural California suggests that obesity has greater impact on girls
Newswise — Bethesda, Md. – The female hormone estrogen is known to offer protection for the heart, but obesity may be taking away that edge in adolescent girls. New research from the University of California at Merced finds that although obesity does not help teens of either gender, it has a greater impact on girls’ blood pressure than it does on boys’.
In a study of more than 1,700 adolescents between 13 and 17 years old, obese boys were 3.5 times more likely to develop elevated systolic blood pressure (SBP) than non-obese boys, but similarly obese girls were 9 times more likely to develop elevated systolic blood pressure than their non-obese peers. Systolic blood pressure, which is represented by the top number in a blood pressure reading, is the amount of force that blood exerts on blood vessel walls when the heart beats. High systolic measurements indicate risk for heart disease and stroke.
Rudy M. Ortiz, PhD, Associate Professor of Physiology and Nutrition and lead researcher in the study, will present his team’s findings at the Physiology of Cardiovascular Disease: Gender Disparities conference, October 12–14 at the University of Mississippi in Jackson. The conference is sponsored by the American Physiological Society with additional support from the American Heart Association. His presentation is entitled, “Relationships Between Body Mass Category and Systolic Blood Pressure in Rural Adolescents.”
Dr. Ortiz and his team obtained their data by direct measurements during the school district’s health surveys and physicals to assess the teenagers’ SBP against two health indicators: body mass index (BMI), which was categorized as normal weight, overweight, or obese, and blood pressure, which was categorized as normal, pre-elevated, or elevated.
The researchers found that the teenagers’ mean BMI was significantly correlated with mean SPB for both sexes when both BMI and blood pressure assessments were used. They also found a significant correlation between BMI and SBP as a function of blood pressure, suggesting that the effect of body mass on SBP is much greater when it is assessed using blood pressure categories.
“We were able to categorize the students in different ways, first based on BMI within each of three blood pressure categories. Then we flipped that around and looked at each category of blood pressure for different weight categories. In each case, we are looking at SBP as the dependent variable,” said Dr. Ortiz.
An odds ratio analysis revealed that obese boys were 2 and 3.5 times more likely to develop pre-elevated and elevated SBP, respectively, than boys who were normal weight. Obese girls were 4 and 9 times more likely to develop pre-elevated and elevated SBP, respectively, than girls who were normal weight.
According to Dr. Ortiz, the results do not bode well for obese teens later in life, especially for the girls. “Overall, there is a higher likelihood that those who present with both higher BMI and blood pressure will succumb to cardiovascular complications as adults. But the findings suggest that obese females may have a higher risk of developing these problems [than males].”
As for why obesity has a greater impact on SBP in girls than in boys, Dr. Ortiz has a hunch. “This may be where physical activity comes into play. We know, for example, that obese adolescent females participate in 50 to 60% less physical activity than boys in the population surveyed.”
NOTE TO EDITORS: The Physiology of Cardiovascular Disease: Gender Disparities conference will be held October 12–14 at the University of Mississippi in Jackson. The press is invited to attend. For additional information, or to receive a copy of Dr. Ortiz’s abstract, please contact Donna Krupa at 301.634.7209 or firstname.lastname@example.org.
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