K Miwa1, A Igawa, Y Miyagi, K Nakagawa, H Inoue. 1. Second Department of Internal Medicine, Toyama Medical and Pharmaceutical University, Sugitani, Japan.
Abstract
BACKGROUND: Autonomic nervous discharge has been implicated in the pathogenesis of coronary artery spasm. METHODS: Cardiac autonomic nervous activities were evaluated from the power of the low-frequency and the high-frequency spectral components of heart rate variability with Holter monitoring in 18 patients with nocturnal variant angina. Samples during the first 512 seconds of each 10-minute period from 60 minutes before to immediately before an anginal attack occurring during the night or at dawn (2:00 to 7:00 AM) were analyzed by fast Fourier transformation. RESULTS: The R-R interval during the 10- to 0-minute period was significantly shorter than those during the other 10-minute periods. The coefficient of variance of the high-frequency component (0.15 to 0.40 Hz) (CVHF) from the 10- to 0-minute period was not significantly different from the other 10-minute periods. However, both the coefficient of variance of the low-frequency component (0.04 to 0.15 Hz) (CVLF) and the ratio of CVLF and CVHF (CVLF/CVHF) were significantly greater during the 10- to 0-minute period than those during the 30- to 20-minute period, respectively. A significant nighttime fluctuation in the spectral components of heart rate variability with a peak in the CVHF and a nadir in both the CVLF and CVLF/CVHF observed in the control group was blunted in the patients during the attack-free periods while they were medicated with calcium entry blockers. CONCLUSION: Sympathovagal imbalance, sympathetic activation without parasympathetic augmentation, enhanced in the early morning may play an important role in the genesis of coronary artery spasm in patients with nocturnal variant angina.
BACKGROUND: Autonomic nervous discharge has been implicated in the pathogenesis of coronary artery spasm. METHODS: Cardiac autonomic nervous activities were evaluated from the power of the low-frequency and the high-frequency spectral components of heart rate variability with Holter monitoring in 18 patients with nocturnal variant angina. Samples during the first 512 seconds of each 10-minute period from 60 minutes before to immediately before an anginal attack occurring during the night or at dawn (2:00 to 7:00 AM) were analyzed by fast Fourier transformation. RESULTS: The R-R interval during the 10- to 0-minute period was significantly shorter than those during the other 10-minute periods. The coefficient of variance of the high-frequency component (0.15 to 0.40 Hz) (CVHF) from the 10- to 0-minute period was not significantly different from the other 10-minute periods. However, both the coefficient of variance of the low-frequency component (0.04 to 0.15 Hz) (CVLF) and the ratio of CVLF and CVHF (CVLF/CVHF) were significantly greater during the 10- to 0-minute period than those during the 30- to 20-minute period, respectively. A significant nighttime fluctuation in the spectral components of heart rate variability with a peak in the CVHF and a nadir in both the CVLF and CVLF/CVHF observed in the control group was blunted in the patients during the attack-free periods while they were medicated with calcium entry blockers. CONCLUSION: Sympathovagal imbalance, sympathetic activation without parasympathetic augmentation, enhanced in the early morning may play an important role in the genesis of coronary artery spasm in patients with nocturnal variant angina.
Authors: Carlos E D'Negri; Liliana Marelich; Daniel Vigo; Rafael S Acunzo; Luis A Girotti; Daniel P Cardinali; Leonardo Nicola Siri Journal: Clin Auton Res Date: 2005-06 Impact factor: 4.435
Authors: Kyeong Ho Yun; Seok Kyu Oh; Eun Mi Park; Hyun Jung Kim; Sung Hee Shin; Eun Mi Lee; Sang Jae Rhee; Nam Jin Yoo; Nam-Ho Kim; Jin-Won Jeong; Myung Ho Jeong Journal: Korean J Intern Med Date: 2006-06 Impact factor: 2.884