Circadian rhythm of the signal averaged electrocardiogram and its relation to heart rate variability in healthy subjects

Objective—To examine the circadian variation in the signal averaged electrocardiogram (saECG) and heart rate variability and investigate their relations in healthy subjects.
Methods—24 hour ECGs were obtained with a three channel recorder using bipolar X, Y, and Z leads in 20 healthy subjects. The following variables were determined hourly: heart rate, filtered QRS (f-QRS) duration, low and high frequency components of heart rate variability (LF and HF), and the LF/HF ratio.
Results—Heart rate, f-QRS duration, HF, and the LF/HF ratio showed significant circadian rhythms, as determined by the single cosinor method. Heart rate and the LF/HF ratio increased during daytime, and f-QRS duration and HF increased at night. f-QRS duration was negatively correlated with heart rate (r = 0.95, p < 0.001) and the LF/HF ratio (r = 0.94, p < 0.001) and positively with HF (r = 0.93, p < 0.001).
Conclusions—f-QRS duration has a significant circadian rhythm in healthy subjects and is closely related to the circadian rhythm of autonomic tone.

Keywords: signal averaged ECG;  f-QRS duration;  circadian rhythm;  heart rate variability     

支气管哮喘患者心率变异性的观察

目的 观察支气管哮喘患者心率变异性，以了解其自主神经功能的变化。方法 对69例年轻男性急性发作期支气管哮喘患者（哮喘组，轻度、中度和重度各23例）和23名健康对照者（对照组）作前瞻性对照研究，记录支气管哮喘患者和健康对照者的24h动态心电图，作时域和频域分析。结果 反映迷走神经张力的高频（HF）和相邻心搏的R－R间期之差＞50ms的心搏数（NN50）计数占总R－R间期的百分比（pNN50），支气管哮喘患者与对照组比较，差异有显著性（P＜0.01）；而主要反映交感神经张力的低频（LF）、每5min正常R－R间期标准差的平均值（SDANN），支气管哮喘患者与健康对照组比较，差异也有显著性（P＜0.01），且重度支气管哮喘患者的变化更为显著。结论 支气哮喘患者在非急性发作期可能存在自主神经功能的障碍。     

Cardiovascular Autonomic Function in Conscious Rats: A Novel Approach to Facilitate Stationary Conditions

Background An experimental setting and software were developed to evaluate cardiovascular autonomic function in conscious rats. A restrained approach was used, which, upon proper habituation, induced little or no stress in the rats and limited motion artifacts. Methods: The ECG and arterial blood pressure were recorded. Time‐ and frequency‐domain indices of heart rate variability (HRV) and blood pressure variability (BPV) were calculated. The spontaneous baroreflex sensitivity (spBRS) was estimated using the method of statistical dependence. Results: The power spectra clearly concentrated in a frequency band with center frequency around 0.4 Hz, the low frequency (LF) component, and one at the respiratory frequency at 1.5 Hz, the high frequency (HF) component. In baseline conditions, a direct association existed between mean R‐R and especially HRV parameters denoting vagal modulation such as rMSSD, pNN5, and HF power. Beta‐adrenergic blockade by propranolol diminished basal heart rate. Vagal indices increased while there was an exclusive decrease in the low frequency band of HRV. Alpha‐adrenergic blockade with phentolamine produced a depressor response with tachycardia, and a clear decrease in the LF component of BPV. Both the LF and HF component in the HRV spectrum were virtually absent. Cholinergic blockade with atropine did not significantly alter BP but induced a clear tachycardia with decreased vagal indices. The HF component of HRV was completely abolished and the LF band was reduced. Conclusions: Both a‐ and 13‐adrenergic blockade left 5pBRS virtually unaltered, while cholinergic blockade profoundly diminished spBRS. Spectral fluctuations of 13‐sympathetic tone were restricted to the LF range of HRV, while the HF respiratory component represented vagal modulation. The a‐sympathetic system played a dominant role in the LF oscillations of BPV. A role of the vagus in the HF oscillations of BPV in the rat is questioned. The baroreflex depended mainly on changes in vagal activity. A.N.E. 2002;7(4):307–318     

Autonomic function and severity of hypertrophic cardiomyopathy by power spectrum analysis on heart rate variability]

To examine the relation of autonomic function and severity of hypertrophic cardiomyopathy (HCM) with and without ventricular tachycardia (VT) and poor blood pressure response on Treadmill exercise, 30 patients with HCM and 10 healthy controls were selected. Autonomic function was assessed by heart rate variability (HRV) on 24hr-Holter monitoring. The power spectrum analysis was classified into LF component, HF component and ratio of LF/HF. (1) Night time HF and LF decreased, and LF/HF increased in HCM compared with healthy controls. (2) HF decreased more in HCM with VT. (3) LF/HF also decreased in HCM with poor blood pressure response on exercise. These results suggest that autonomic function may be altered in HCM, and severity of HCM proved to be able to be assessed by power spectrum analysis of HRV.     

Abnormal heart rate variability in adults with growth hormone deficiency

GH-deficient (GHD) patients have increased risk of cardiovascular death and may have cardiac structural abnormalities. In non-GHD patients these are associated with cardiac autonomic dysfunction, and it is possible that autonomic dysfunction is also present in GHD patients. Power spectral analysis (PSA) of heart rate variability (HRV) indirectly measures cardiac autonomic tone and generates peaks at 3 frequency bands, very low frequency (VLF), low frequency (LF) and high frequency (HF). The area under the LF curve is considered to reflect predominantly cardiac sympathetic activity, whereas HF indicates parasympathetic activity. PSA of HRV was performed in 14 normotensive GHD patients (5 men and 9 women; mean age, 35.2 yr) and 19 healthy controls (9 men and 10 women; mean age, 38.3 yr). GHD patients had 26% lower normalized LF power (P < 0.004), 39% higher normalized HF power (P < 0.001), 28% lower normalized VLF power (P < 0.046), and 51% lower LF/HF ratio (an index of sympathovagal balance; P < 0.001) compared to controls. These data indicate that heart rate variability is abnormal in patients with GHD. The decreased sympathetic tone could be a consequence of reduced central sympathetic tone or altered cardiac responsiveness to autonomic control and may contribute to the increased cardiovascular risk in GHD patients.     

Role of autonomic tone in the initiation and termination of paroxysmal atrial fibrillation in patients without structural heart disease

INTRODUCTION: Previous studies have suggested that paroxysmal atrial fibrillation (PAF) of vagal origin often occurs at night and PAF of sympathetic origin occurs during the daytime; however, autonomic tone after spontaneous termination of PAF has not been determined. The aim of this study was to evaluate by heart rate variability (HRV) analysis the relationship between the time of PAF onset and autonomic tone before and after PAF. METHODS AND RESULTS: Twenty-three patients (65 +/- 2 years) who underwent 24-hour ambulatory monitoring, had one or more episodes of PAF (>30 min), and had maintained normal sinus rhythm for >60 min before/after PAF were enrolled in this study. Mean duration of PAF was 6.2 +/- 1.2 hours. HRV parameters were analyzed in a 10-minutes section at 60 minutes, 20 minutes, and immediately before the onset of PAF and after its termination. PAF began at night in 14 patients (group N) and during the daytime in 9 patients (group D). In group N, the high-frequency (HF) component and low-frequency (LF) component showed a significant decrease after PAF; PAF was preceded by a gradual increase in HF and LF. Changes in the LF/HF ratio, however, did not occur before or after PAF. Conversely, group D showed a significant increase in the LF/HF ratio before PAF and a decrease in LF and the LF/HF ratio after PAF, but no changes in HF. These changes in HRV parameters were not influenced by the duration or termination time of PAF. CONCLUSION: This study suggests that the autonomic nervous system plays an important role in both the initiation and termination of PAF. Furthermore, the time of PAF onset influences the autonomic tone at the initiation and termination of PAF.     

Relation between 24-h heart rate variability and blood pressure fluctuation during exercise in stroke patients.

BACKGROUND: In some stroke patients blood pressure (BP) fluctuates extensively during medical rehabilitation, so the present study investigated the influence of autonomic nervous dysfunction on the change in BP during exercise. METHODS AND RESULTS: The subjects consisted of 55 stroke inpatients (males, 29; mean age, 58.8 years old; ischemic/hemorrhagic etiology, 30/25) who were admitted to the Stroke Center within 2 weeks of their first stroke. The control group consisted of 15 age-matched healthy volunteers. The 24-h heart rate (HR) variability (HRV) and BP variability (BPV) were examined, and then the increase and recovery of BP and HR were measured during bicycle ergometer exercise at 4 METs. Components of 24-h HRV (low-frequency power (LF), high-frequency power (HF), LF/HF, and asleep-awake ratio of LF/HF (LF/HF(d-n)) were lower (p < 0.01) and BPV was greater in the stroke group (p < 0.05) than in the control group. There was a negative correlation between BP change during exercise and LF/HF or LF/HF(d-n) (r = -0.43 or r = -0.58, p < 0.01), and a greater increase in systolic BP (102 +/-9.8 mmHg, n = 7) during exercise was observed in stroke patients with lower LF/HF(d-n) (< or = 1.0). CONCLUSIONS: Lower HRV in stroke patients may relate to an increase in BP during exercise. HRV is useful for estimating the risk during medical rehabilitation.     

Circadian change of cardiac autonomic function in correlation with intra-esophageal pH

BACKGROUND AND AIM: Although autonomic alterations are observed in patients with gastroesophageal reflux disease (GERD), the influence of visceral receptor responses on the dynamics of autonomic function remains unknown. The aim of this study was to investigate the autonomic functional changes in association with intra-esophageal pH under ambulation. METHODS: Thirty patients referred for 48 h ambulatory pH monitoring underwent simultaneous 24 h cardiac monitoring for heart rate variability (HRV). We used linear mixed-effects models to estimate the relationship between esophageal acid exposure and power spectral analysis of HRV, including low-frequency power (0.04 < LF < 0.15 Hz), high-frequency power (0.15 < or = HF < 0.4 Hz), and LF/HF power ratio. RESULTS: Over the 24-h period, patients with pathological reflux had lower average LF and HF powers than patients with functional heartburn, but the LF/HF power ratios were similar for the two patient groups. As we stratified the data according to waking and sleeping times, a significantly higher HF power but lower LF/HF power ratio was found during sleeping time regardless of diagnosis. In the regression analysis, esophageal pH was positively associated with change (not basal tone) of both LF and HF powers during waking, but only with change of HF power during sleeping time. The significant associations between pH values and changes in HRV decreased gradually with time. The LF/HF power ratio did not alter significantly with pH. CONCLUSION: Esophageal acid exposure is generally associated with decreases in autonomic tone. A predominant parasympathetic fluctuation during sleeping and a superimposed sympathetic interaction during waking dictate diurnal characteristics of autonomic regulation.     

Autonomic Nerve Tone After an Eastward Transmeridian Flight as Indicated by Heart Rate Variability

Background: Transmeridian flights commonly cause the physical distress and somnolence known as jet lag. Because the influence of jet lag on autonomic nerve tone (ANTi is unclear, we studied its influence by evaluating heart rate variability before versus after a flight from Tokyo to San Francisco. Methods: We recorded the ambulatory electrocardiograms of 12 healthy young men for 11 days, i.e., 3 days in Tokyo before the flight and 8 days in San Francisco following the flight. Heart rate variability was determined by power spectrum analysis. After calculating high frequency power (0.15–0.4 Hz, HF), low frequency power (0.04–0.15 Hz, LF), and LF/HF, we evaluated autonomic nerve tone using HF and LF/HF as indices of the activity of sympathetic and parasympathetic tone, respectively. In addition, we analyzed the circadian rhythm of autonomic nerve tone by the maximum entropy method. Results: Parasympathetic nerve tone was found to increase during the flight. The time required for the ANT to return to preflight levels differed between the waking and sleeping periods, being 5 and 7 days, respectively. Conclusions: ANT varied for 1 week after an eastward transmeridian flight. A.N.E. 2000;5(1):53–59     

Correlations between indices of heart rate variability in healthy children and children with congenital heart disease.

Heart rate variability, as determined from 24-hour Holter recordings, represents a noninvasive parameter for studying the autonomic control of the heart. It decreases with certain disease states characterized by autonomic dysfunction such as congestive heart failure. No study in healthy or cardiac children has been performed to determine the correlations between and within time and frequency domain indices of heart rate variability. We examined five time domain (SDNN, SDNNi, SDANNi, rMSSD and pNN50) and five frequency domain measures (ULF, VLF, LF, HF and balance LF/HF) in 200 healthy children and 200 children with congenital heart disease, aged 3 days to 14 years. All measures were significantly correlated with each other. However, the strength of correlation varied greatly. Our data show that variables strongly dependent on vagal tone (rMSSD, pNN50 and HF) were highly correlated (r value > 0.90), as well as SDNN and SDANNi. We conclude that certain time and frequency domain indices correlate so strongly with each other that they can act as surrogates for each other.     

Change in heart rate variability preceding ST elevation in a patient with vasospastic angina pectoris

Summary A case of vasospastic angina (VSA) in a 62-year-old man with frequent ST elevation throughout the day was reported. His coronary angiogram showed that intracoronary methylergometrine had induced total occlusion due to a vasospasm. Analysis by Holter monitoring suggested that the autonomic nervous system would contribute differently to the initiation of the coronary spasm depending on whether the VSA attacks occurred during the daytime or at night. During the nighttime, the high-frequency power (HF:0.15–0.4 Hz) decreased during the 2 min before ST elevation, and the heart rate increased immediately before ST elevation. The low-frequency power (LF: 0.04–0.15 Hz) and the ratio of LF to HF (LF/HF) did not significantly change before ST elevation. In contrast, each of the heart rate variability components and the heart rate did not significantly change before ST elevation during the daytime. Thus, the pathophysiology of VSA during the daytime and nighttime seems to be differents in its relation to autonomic tone. During the nighttime, vagal with-drawal may be a component of the mechanisms leading to VSA, while during the daytime, a change in autonomic tone may not play a major role in this case.     

Nongenomic cardiovascular effects of triiodothyronine in euthyroid male volunteers

T(3) has been shown to exert cardiovascular effects. These effects have not yet been defined with regard to the mode of action (nongenomic vs. genomic) and with regard to an interaction with the adrenergic system in humans. To address these issues we conducted a randomized, double blind, 6-fold cross-over trial in 18 healthy male volunteers. After pretreatment with the beta-agonist dobutamine, the beta-blocking agent esmolol, or placebo (0.9% NaCl), 100 microg T(3) or placebo were injected. Primary target variables were systemic vascular resistance (SVR) and cardiac output (CO) within 45 min after injection of T(3) vs. placebo after placebo pretreatment. Sympatho-vagal balance was assessed by measurement of heart rate variability. T(3) caused a lower SVR and a higher CO than placebo (P < 0.001) after pretreatment with placebo. An increased low frequency (LF)/high frequency (HF) ratio (power in LF/power in HF band) after T(3) compared with placebo (P = 0.004) suggests an increase in sympathetic tone. After pretreatment with dobutamine, the effects of T(3) on SVR and CO were abolished, and the effect on LF/HF ratio was reversed. After pretreatment with esmolol, the effects on SVR and LF/HF ratio were reversed. Our data show, for the first time, nongenomic cardiovascular effects of T(3) in humans.     

Changes in autonomic nervous activity during endoscopic retrograde cholangiopancreatography: a possible factor in cardiac complications

BACKGROUND AND AIMS: The changes of autonomic nervous activity during endoscopic retrograde cholangiopancreatography (ERCP) are closely related to the development of cardiovascular complications, such as arrhythmias and acute coronary syndrome. In the present study, the correlation between changes in hemodynamics and autonomic nervous activity during ERCP procedures was evaluated by analyzing heart rate variability and blood catecholamine levels. METHODS: Twenty-three patients who underwent ERCP (ERCP group) and 15 control subjects who were only premedicated (C group) were studied. Ambulant ECG, blood pressure, arterial oxygen saturation, and blood level of catecholamine were measured. Autonomic nervous function was assessed by analyzing the spectral analysis and 1/f fluctuation. The low frequency power (LF power; 0.04-0.15 Hz), high frequency power (HF power; 0.15-0.40 Hz, indicator of parasymapathetic tone), the ratio of LF power to HF power (LF/HF ratio, indicator of sympathetic tone), and 1/f fluctuation (indicator of pleasant mood) were calculated. RESULTS: Blood pressure and heart rate were increased and arterial oxygen saturation was decreased in the ERCP group during the endoscopic procedure. Changes in the parameters of autonomic nervous function (LF power, HF power, LF/HF ratio, and 1/f fluctuation) were significantly greater in the ERCP group than in the C group, especially during cholangiography. Moreover, blood levels of catecholamines were significantly increased during the ERCP procedure. In the C group, however, blood levels of catecholamines did not significantly change except directly after premedication. CONCLUSIONS: Autonomic nervous activity varied greatly during cholangiography, demonstrating that ERCP has more than a little influence on the cardiovascular system. The results of the present study indicated that attention should be focused on changes in hemodynamics in patients with cardiovascular complications by monitoring the aforementioned hemodynamic parameters during ERCP.     

Potential risk of beta-blockade withdrawal in congestive heart failure due to abrupt autonomic changes

Beta-Blockers reduce mortality in patients with congestive heart failure and a proposed mechanism has been changes of autonomic tone. Heart rate variability is a non-invasive tool to estimate cardiac autonomic tone. The aim was to study changes of heart rate variability in patients with congestive heart failure on placebo, on the beta1-selective antagonist metoprolol or 24 h after metoprolol withdrawal. Forty-five patients with congestive heart failure were studied with Holter recordings. Heart rate variability measurements were performed before, after 6-12 months of treatment with 150 mg metoprolol/placebo, or 24 h after discontinued metoprolol. After treatment, patients on beta-blockade had a significantly longer mean RR interval and changes of heart rate variability, suggesting elevated vagal tone. Patients monitored in the rebound phase of beta-blocker withdrawal had a significant vagal reduction to the level of the placebo group. There was also a nonsignificant trend towards increased sympathetic tone (LF/HF over 24 h), compared with the beta-blockade group. Heart rate variability indicates an elevated vagal tone during treatment with metoprolol but beta-blockade withdrawal shifts the autonomic balance towards lower vagal and higher sympathetic tone within 24 h. These results could imply a potential risk when abruptly discontinuing beta-blockade medication in these patients.     

Relation between actual heart rate and autonomic effects of beta blockade in healthy men

This study evaluated the effect of beta blockade on cardiac autonomic control and its dependence on heart rate change. The relations between RR interval duration, heart rate variability (HRV), and baroreflex sensitivity (BRS) were studied in 111 healthy men and in 21 male volunteers before and after a 100-mg oral dose of metoprolol. HRV and BRS correlated significantly with mean RR (r = 0.39, r = 0.57). Metoprolol administration increased both mean RR (from 996 to 1,176 ms, p <0.001), BRS from 24 to 36 ms/mm Hg (p = 0.003), and the SD of RR from 61 to 74 ms (p = 0.05). However, metoprolol-induced changes of HRV and BRS became insignificant (p = 0.69 and 0.48) after they were normalized to the same cycle length, suggesting that the improvement of cardiac autonomic control after beta blockade could be explained by a change of heart rate.     

Heart rate variability and circulating catecholamine concentrations during steady state exercise in healthy volunteers.

OBJECTIVES--To assess whether exercise induced suppression of heart rate variability in the low frequency domain (0.06-0.15 Hz) is related to the increase in circulating catecholamine concentrations. DESIGN--Randomised crossover trial of three exercise tests characterised by different workloads. Pharmacological simulation of exercise-induced changes in vagal and sympathetic activity. PARTICIPANTS--Six healthy men with a mean age of 31.2 (SD 3.0) years. INTERVENTIONS--Three different workloads of steady state cycling ergometry: control state without cycling, cycling at a target heart rate of 100 beats/min, and cycling at a target heart rate of 150 beats/min. Intravenous infusion of atropine (target heart rate 100 beats/min) followed by the additional infusion of adrenaline and noradrenaline. MAIN OUTCOME MEASURES--Fast Fourier analysis of heart rate variability; blood pressure; and venous plasma concentrations of lactate, adrenaline, and noradrenaline. RESULTS--During the control exercise period there were no changes in the assessed variables compared with the preceding resting period. During exercise at a heart rate of 100 beats/min systolic blood pressure increased and heart rate variability decreased. During exercise at a heart rate of 150 beats/min systolic blood pressure and lactate, adrenaline, and noradrenaline concentrations increased. In addition, low frequency (LF) was lower than during exercise at 100 beats/min, high frequency (HF 0.15-0.80 Hz) resembled that during exercise at 100 beats/min, and diastolic blood pressure was reduced. Infusion of atropine caused no changes in blood pressure or plasma concentrations of lactate, adrenaline, and noradrenaline and decreased heart rate variability. The additional infusion of adrenaline and noradrenaline completely suppressed heart rate variability and increased blood pressure. CONCLUSIONS--The reduction in LF and HF during exercise at a heart rate of 100 beats/min, which is not characterised by increased plasma catecholamine concentrations, and during atropine infusion suggests that heart rate variability in the supine state is largely influenced by vagal activity. The additional reduction in LF during exercise at 150 beats/min and during catecholamine infusion may reflect a negative feedback of circulating catecholamines on the sympathetic control of heart rate.     

Development of a method to determine autonomic nervous system function in the rat

A noninvasive method to evaluate autonomic nervous system (ANS) function in animals is needed for studies of diabetic autonomic neuropathy. These studies modified the RR-variation test, used to test diabetic ANS function in humans, and applied it to rats. Permanent wire electrodes were implanted in the chest wall of a rat. ECG complexes were obtained by connecting the electrodes to leads going to an impedence pneumograph and high gain coupler. This information was then converted into square waves by a trigger unit and recorded on magnetic tape for subsequent analysis by computer. Recordings were at least 60 seconds long, of which 30 seconds was used for analysis. In order to establish autonomic influence, RR-variation was measured before and after application of pharmacologic agents. Directly decreasing parasympathetic tone with atropine (20 mg/kg, n = 6) increased heart rate (P less than 0.001) and decreased RR-variation (P less than 0.05). Directly decreasing beta adrenergic tone with propranolol (10 mg/kg, n = 7) decreased heart rate (P less than 0.01) but had no effect on RR-variation (NS). Stimulation of the beta adrenergic receptors (isoproterenol, 0.1 mg/kg, n = 5) increased heart rate (P less than 0.01) but decreased RR-variation (P less than 0.01). Increasing parasympathetic tone reflexly with alpha-1 adrenergic receptor stimulation (phenylephrine, 1 mg/kg, n = 7) decreased heart rate (P less than 0.05) and increased RR-variation (P less than 0.025). The responses to phenylephrine could be blocked by parasympathetic blockade. Phentolamine (0.1 mg/kg, n = 7) caused an increase in heart rate (P less than 0.001) and a decrease in RR-variation (P less than 0.01). The responses to phentolamine could be blocked by beta adrenergic receptor blockade.(ABSTRACT TRUNCATED AT 250 WORDS)     

Heart rate variability and the outcome of head-up tilt in syncopal children

OBJECTIVE: This study evaluated autonomic nervous system function in 5 young (6-10 years old) and 5 older (10-15 years) children with recurrent episodes of neurally mediated syncope and a positive tilt-test result, 10 with syncope but a negative test result and 30 age-matched healthy volunteers. METHODS: Time- (SDNN, SDNNi, SDANNi, rMSSD, pNN50) and frequency-domain indices (LF, HF, LF/HF) of heart rate variability (HRV) were measured during a 24-hour Holter recording and for 5 min. segments before and during 90 degrees head-up tilt (tests lasted 30 min. or until syncope occurred). RESULTS: 24-hour HRV-indices were within the normal range for all syncopal patients. Mean RR interval and HRV-indices, except LF/HF, were higher in the older children with a positive test result before they were tilted and during the first 5 min. of head-up tilt. HRV-indices tended to be lower after tilt in the younger children with a positive test result. SDNN and LF in older children with a positive test result and LF/HF in the younger ones increased during the 5 min preceding the syncope. No difference was observed between syncopal children with a negative test result and controls. CONCLUSION: This study confirms that patients with vasovagal syncope have no chronic differences from normal subjects in autonomic nervous system activity. The modulation of the autonomic tone during head-up tilt is abnormal in children who faint during the test, but younger and older patients respond differently to the orthostatic stimulus.     

慢性肺源性心脏病患者24小时心率变异性的研究

目的 :研究男性慢性肺源性心脏病患者的心率变异性。方法 :46例健康男性 ,34例男性慢性肺源性心脏病患者 ,行 2 4h动态心电图记录 ,作时域和频域分析。结果 :慢性肺源性心脏病病人的高频 (HF)、低频 (LF)、NN5 0计数占总R -R间期的百分比 (pNN5 0 )、每 5min正常R -R间期标准差的平均值 (SDANN)均下降 ,其中严重的慢性肺源性心脏病患者下降更为显著。结论 :男性慢性肺源性心脏病患者存在植物神经功能紊乱 ,病情严重程度也与植物神经功能相关。     

Long-term exercise training improves autonomic nervous system profile in professional runners

INTRODUCTION: Moderate-intensity endurance training causes increased parasympathetic activity while very intensive (extreme) exercise loads may lead to persistently elevated sympathetic tone in champion class athletes preparing for competitions. Exercise training loads used by regional class sportsmen are usually somewhat less intensive. AIM: To assess the changes in autonomic nervous system activity in a group of regional class runners during a long-term training cycle preparing them for competitions. METHODS: Twenty-four regional class runners (including 22 males) with a mean age of 24+/-4 years (18 to 34 years) were enrolled in the study. Resting heart rate (mean HR) and autonomic system tone were assessed in the final period of the preparatory training (1) and in the terminal phase of the competition period (2). Additionally, ten-minute long continuous non-invasive acquisitions of systolic arterial blood pressure--SAP (Finapress, Ohmeda) and heart rate period--HP (Mingograf 72oC) were carried out in each subject. Then arterial baroreflex sensitivity by means of spectral analysis (BRS_WBA) and indices of heart rate variability (SDNN, pNN50, RMSSD, TP, LF, LFnu, HF, LF/HF) were calculated from the recorded SAP and HP signals. RESULTS: A statistically significant increase in indices of heart rate variability such as BRS_WBA, SDNN, pNN50, TP and LF in period 2 when compared with period 1 was found. Their values were 17.2+/-8.2 vs 11.5+/-5.1 ms/mmHg (p=0.0001), 91+/-55 vs 70+/-36 ms (p=0.0002), 48+/-24 vs 38+/-23% (p=0.03), 4364+/-2614 vs 3384+/-2298 ms2 (p=0.01), 2262+/-2031 vs 1398+/-1203 ms2 (p=0.002), respectively. Borderline elevation of the RMSSD index (83+/-62 and 67+/-37 ms respectively for period 1 and period 2; p=0.09) was also noted. The other calculated parameters did not differ significantly. CONCLUSIONS: Long-term intensive exercise training, employed by regional class runners preparing for competitions, changes the autonomic profile, promoting parasympathetic dominance. This may be an important argument to encourage many young and healthy people to engage in endurance sports at such intensity.