Caffeine Affects Boys And Girls Differently After Puberty, Study Finds
16 June 2014 --- A new study has found that after puberty children experience different heart rate and blood pressure changes after consuming caffeine. The intake of caffeine by children and adolescents has been rising for decades, due in large part to the popularity of caffeinated sodas and energy drinks, which now are reported to be marketed to children as young as four.
Despite this, there is little research on the effects of caffeine on young people but one researcher who is conducting such investigations is Jennifer Temple, PhD, associate professor in the Department of Exercise and Nutrition Sciences, University at Buffalo School of Public Health and Health Professions.
Her new study finds that after puberty, boys and girls experience different heart rate and blood pressure changes after consuming caffeine. Girls also experience some differences in caffeine effect during their menstrual cycles.
The study, "Cardiovascular Responses to Caffeine by Gender and Pubertal Stage," will be published online June 16 in the July 2014 edition of the journal Pediatrics.
Past studies, including those by this research team, have shown that caffeine increases blood pressure and decreases heart rate in children, teens and adults, including pre-adolescent boys and girls. The purpose here was to learn whether gender differences in cardiovascular responses to caffeine emerge after puberty and if those responses differ across phases of the menstrual cycle.
Temple says, "We found an interaction between gender and caffeine dose, with boys having a greater response to caffeine than girls, as well as interactions between pubertal phase, gender and caffeine dose, with gender differences present in post-pubertal, but not in pre-pubertal, participants.
"Finally," she says, "we found differences in responses to caffeine across the menstrual cycle in post-pubertal girls, with decreases in heart rate that were greater in the mid-luteal phase and blood pressure increases that were greater in the mid-follicular phase of the menstrual cycle.
"In this study, we were looking exclusively into the physical results of caffeine ingestion," she says. Phases of the menstrual cycle, marked by changing levels of hormones, are the follicular phase, which begins on the first day of menstruation and ends with ovulation, and the luteal phase, which follows ovulation and is marked by significantly higher levels of progesterone than the previous phase.
Future research in this area will determine the extent to which gender differences are mediated by physiological factors such as steroid hormone level or by differences in patterns of caffeine use, caffeine use by peers or more autonomy and control over beverage purchases, Temple says.
This double-blind, placebo-controlled, dose-response study was funded by a grant from the National Institute on Drug Abuse of the National Institutes of Health.
It examined heart rate and blood pressure before and after administration of placebo and two doses of caffeine (1 and 2 mg/kg) in pre-pubertal (8- to 9-year-old; n = 52) and post-pubertal (15- to 17-year-old; n = 49) boys (n = 54) and girls (n = 47).
•High fasting blood sugar. Mildly high blood sugar may be an early sign of diabetes.
In the pool of participants qualifying for the study were people with different weights, some obese and some not. In previous fasting research performed by a few other institutions, those studies have all only examined obese participants and focused on weight loss due to fasting. Though weight loss did occur in the Intermountain Medical Center study, three pounds over six weeks, the main focus of the study was diabetes intervention.
"During actual fasting days, cholesterol went up slightly in this study, as it did in our prior study of healthy people, but we did notice that over a six-week period cholesterol levels decreased by about 12 percent in addition to the weight loss," said Dr. Horne. "Because we expect that the cholesterol was used for energy during the fasting episodes and likely came from fat cells, this leads us to believe fasting may be an effective diabetes intervention."
The process of extracting LDL cholesterol from the fat cells for energy should help negate insulin resistance. In insulin resistance, the pancreas produces more and more insulin until it can no longer produce sufficient insulin for the body's demands, then blood sugar rises.
"The fat cells themselves are a major contributor to insulin resistance, which can lead to diabetes," he said. "Because fasting may help to eliminate and break down fat cells, insulin resistance may be frustrated by fasting."
Dr. Horne says that more in-depth study is needed, but the findings lay the groundwork for that future study.
"Although fasting may protect against diabetes," said Dr. Horne. "It's important to keep in mind that these results were not instantaneous in the studies that we performed. It takes time. How long and how often people should fast for health benefits are additional questions we're just beginning to examine."
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