Obese children demonstrated decreased vagal activity with lower high frequency parameters (16.02 vs 21.45 nu, p=0.046) and a higher LF/HF ratio (3.79 vs 2.25, p<0.001) compared to healthy controls.
Case-Control (n=106)
Does short-term heart rate variability analysis detect cardiovascular autonomic dysfunction in obese children compared to healthy controls?
Short-term heart rate variability analysis reveals decreased vagal activity and a shift toward sympathetic dominance in obese children, suggesting early cardiovascular autonomic dysfunction.
Tasa de eventos absoluta: 16.02% vs 21.45%
valor p: p=0.046
BACKGROUND: The cardiovascular autonomic nervous system in obese children is one of the main initiators of coronary heart disease and hypertension and may have a close relationship with insulin resistance. Heart rate variability is one non-invasive method to assess the cardiovascular autonomic system. In this method, low frequency parameters reflect sympathovagal activity, high frequency parameters reflect vagal activity and the ratio of these parameters reflects sympathovagal balance. METHODS: In this study, a short-term analysis of heart rate variability was conducted in 66 obese children and 40 healthy controls. RESULTS: While high frequency parameter values are lower in the obese group compared to the controls (16.02 ± 12.9 nu vs. 21.45 ± 13.6 nu, p = 0.046), the low frequency/high frequency ratio is found significantly higher (3.79 ± 2.34 vs. 2.25 ± 0.93, p 〈 0.001). A significant difference was not detected for the low frequency values (p = 0.787). Insulin resistance was found in 33 (50%) patients, dyslipidemia was found in 39 (59%) and hypertension was found in 18 (27%). Metabolic syndrome was detected in 39% patients in the obese group. CONCLUSIONS: We found that vagal activity was decreased in the obese group and the autonomic nervous system balance was impaired in favor of sympathetic activity in the short-term heart rate analysis.
Altuncu et al. (Sat,) conducted a case-control in Obesity in children (n=106). Obesity (exposure) vs. Healthy controls was evaluated on High frequency parameter values (nu) (p=0.046). Obese children demonstrated decreased vagal activity with lower high frequency parameters (16.02 vs 21.45 nu, p=0.046) and a higher LF/HF ratio (3.79 vs 2.25, p<0.001) compared to healthy controls.