24-hour ambulatory blood pressure and cryptogenic ischemic stroke in young adults.

BACKGROUND: In young patients, up to 40% of ischemic strokes remain cryptogenic despite modern-day diagnostic work-up. There are limited data on blood pressure (BP) behavior in these patients. Thus, we aimed to compare ambulatory blood pressure (ABP) profiles between young patients with a recent cryptogenic ischemic stroke (CIS) and stroke-free controls. PATIENTS AND METHODS: In this substudy of the international multicenter case-control study SECRETO (NCT01934725), 24-hour ambulatory blood pressure monitoring (ABPM) was performed in consecutive 18-49-year-old CIS patients and stroke-free controls. The inclusion criteria were met by 132 patients (median age, 41.9 years; 56.1% males) and 106 controls (41.9 years; 56.6% males). We assessed not only 24-hour, daytime, and nighttime ABP but also hypertension phenotypes and nocturnal dipping status. RESULTS: 24-hour and daytime ABP were higher among controls. After adjusting for relevant confounders, a non-dipping pattern of diastolic blood pressure (DBP) was associated with CIS in the entire sample (odds ratio, 3.85; 95% confidence interval, 1.20-12.42), in participants without antihypertensives (4.86; 1.07-22.02), and in participants without a patent foramen ovale (PFO) (7.37; 1.47-36.81). After excluding patients in the first tertile of the delay between the stroke and ABPM, a non-dipping pattern of DBP was not associated with CIS, but a non-dipping pattern of both systolic BP and DBP was (4.85; 1.37-17.10). In participants with a PFO and in those without hypertension by any definition, no associations between non-dipping patterns of BP and CIS emerged. CONCLUSIONS: Non-dipping patterns of BP were associated with CIS in the absence of a PFO but not in the absence of hypertension. This may reflect differing pathophysiology underlying CIS in patients with versus without a PFO. Due to limitations of the study, results regarding absolute ABP levels should be interpreted with caution.Key MessagesNocturnal non-dipping patterns of blood pressure were associated with cryptogenic ischemic stroke except in participants with a patent foramen ovale and in those without hypertension by any definition, which may indicate differing pathophysiology underlying cryptogenic ischemic stroke in patients with and without a patent foramen ovale.It might be reasonable to include ambulatory blood pressure monitoring in the diagnostic work-up for young patients with ischemic stroke to detect not only the absolute ambulatory blood pressure levels but also their blood pressure behavior.

Vasomotor hot flashes and cardiac repolarization: a randomized placebo-controlled trial of postmenopausal hormone therapy.

OBJECTIVE: The aim of the study was to compare the effects of different hormone therapies on cardiac repolarization in recently postmenopausal women with and without hot flashes. METHODS: We recruited 150 healthy women: 72 with and 78 without hot flashes. They were randomized and treated for 6 months with transdermal estradiol (1 mg/day), oral estradiol (OE) alone (2 mg/day) or combined with medroxyprogesterone acetate (MPA; 5 mg/day), or placebo. Cardiac repolarization was assessed by measuring QT intervals, rate-dependence of QT-end interval, and T waves from 24-hour electrocardiographic recording before and during hormone therapy, comprising a total of over 20 million QT-interval measurements. RESULTS: Hot flashes were accompanied with shortened median T-peak - T-end interval (at RR interval of 700, 800, and 900 ms; P = 0.040, 0.020, and 0.032; η = 0.35, 0.39, and 0.37; respectively) during the use of OE but not transdermal estradiol. In contrast, the addition of MPA to OE lengthened the maximal QT-end (at RR interval of 500 ms, P = 0.016, η = 0.27) and the maximal T-peak - T-end interval (at RR interval of 500 and 600 ms; P = 0.016 and 0.032; η = 0.25 and 0.22, respectively). These effects were not seen in women without hot flashes. CONCLUSIONS: Hot flashes predict beneficial shortening in cardiac repolarization during OE, but not if MPA is combined with OE. These data may provide one explanation for MPA-related cardiac hazards in epidemiological studies.

Unique Exercise Lactate Profile in Muscle Phosphofructokinase Deficiency (Tarui Disease); Difference Compared with McArdle Disease.

INTRODUCTION: Glycogen storage disease V (GSDV, McArdle disease) and GSDVII (Tarui disease) are the most common of the rare disorders of glycogen metabolism. Both are associated with low lactate levels on exercise. Our aim was to find out whether lactate response associated with exercise testing could distinguish between these disorders. METHODS: Two siblings with Tarui disease, two patients with McArdle disease and eight healthy controls were tested on spiroergometric exercise tests with follow-up of venous lactate and ammonia. RESULTS: A late increase of lactate about three times the basal level was seen 10-30 min after exercise in patients with Tarui disease being higher than in McArdle disease and lower than in the controls. Ammonia was increased in Tarui disease. DISCUSSION: Our results suggest that follow-up of lactate associated with exercise testing can be utilized in diagnostics to distinguish between different GSD diseases.

Cardiac repolarization in recently postmenopausal women with or without hot flushes.

OBJECTIVE: Menopausal hot flushes are associated with elevated activity of the sympathetic nervous system and may be related to increased risk for cardiovascular events. Sympathetic activation may trigger severe arrhythmias by modulating cardiac repolarization. The aim of this study was to evaluate the impact of hot flushes on cardiac repolarization in postmenopausal women with and without hot flushes. METHODS: We assessed 150 recently postmenopausal healthy women-72 with hot flushes and 78 without hot flushes. They underwent 24-hour electrocardiographic recording, comprising a total of over 10,000,000 QT-interval measurements. The cardiac repolarization was assessed by measuring QT-intervals, heat rate dependence of QT-end intervals, and T-waves. RESULTS: The maximal QT-end interval was shorter in women with hot flushes compared with those without hot flushes (481 ±â€Š64 ms vs 493 ±â€Š50 ms; P = 0.046). There were no differences between the rate dependence of QT-end intervals and T-wave measures between the groups. During the night-time hot flush period, we detected a steeper rate-dependence of QT-end intervals and a longer maximal T-peak-T-end interval (117 ±â€Š54 ms vs 111 ±â€Š56 ms; P < 0.001) compared with the control period. CONCLUSIONS: Women with hot flushes did not have clinically significant differences in ambulatory cardiac repolarization measurements compared with asymptomatic women. However, a sudden sympathetic surge occurring during the night-time hot flush may have direct effects on cardiac repolarization.

[Vascular health of the ageing woman]. / Ikääntyvän naisen verisuonten terveys.

Cardiovascular diseases are the leading cause of mortality in both men and women, but in women these diseases manifest at a later age. After menopause, the decline in estrogen levels accelerates key atherogenic processes, including dyslipidemia, endothelial dysfunction and arterial stiffening, increasing the risk for cardiovascular events. In the healthy vasculature, estrogen has several structural and functional protective effects. The primary indication for menopausal hormone therapy is the treatment of climacteric symptoms, in particular hot flashes. With appropriate timing of estrogen treatment, it is possible to improve the ageing women's vascular health.

Premenstrual symptoms in fertile age are associated with impaired quality of life, but not hot flashes, in recently postmenopausal women.

OBJECTIVE: Because premenstrual symptoms in fertile age resemble menopausal symptoms, many women with premenstrual symptoms fear that they have an increased risk for developing vasomotor symptoms in menopause. We investigated the impact of premenstrual symptoms on the occurrence and severity of menopausal vasomotor symptoms and quality of life. METHODS: One hundred fifty recently postmenopausal healthy women recorded hot flashes prospectively (23, none; 34, mild; 30, moderate; 63, severe), and their quality of life was assessed using the Women's Health Questionnaire. We measured the occurrence of premenstrual symptoms in fertile age using the Premenstrual Symptoms Screening Tool and calculated a premenstrual score reflecting symptom severity. RESULTS: One hundred seven women (89.2%) reported premenstrual symptoms (median score, 7.0; range, 0-38), which had impaired work efficiency or social relations in 64 women (53.3%). The occurrence of premenstrual symptoms was similar in women with and without hot flashes of different magnitudes, as the mean (SEM) premenstrual score was 7.8 (1.4) for no hot flashes, 5.0 (1.0) for mild hot flashes, 7.7 (1.3) for moderate hot flashes, and 9.4 (1.2) for severe hot flashes (P = 0.10). The severity of premenstrual symptoms failed to correlate with the severity of postmenopausal hot flashes (r = 0.087, P = 0.346). A history of premenstrual symptoms was associated with impaired memory and concentration capacity (r = -0.448, P < 0.001), depressive mood (r = -0.263, P = 0.02), sleep problems (r = -0.282, P = 0.01), and feeling less attractive (r = -0.260, P = 0.02) during the first menopausal years. CONCLUSIONS: The occurrence of premenstrual symptoms in fertile age is associated with impaired quality of life, but not hot flashes, in recently postmenopausal women.

Menopausal hot flushes do not associate with changes in heart rate variability in controlled testing: a randomized trial on hormone therapy.

OBJECTIVE: To compare in controlled cardiovascular autonomic function tests the effects of hormone therapy (HT) on heart rate variability (HRV) responses in postmenopausal women with and without pretreatment hot flushes. DESIGN: A randomized placebo-controlled trial. SETTING: Finland, Helsinki University Central Hospital. POPULATION: A total of 150 recently postmenopausal and healthy women with prospectively evaluated hot flushes. METHODS: Women (72 with and 78 without hot flushes) were randomized to receive estradiol alone or in combination with medroxyprogesterone acetate or placebo for 6 months. Time and frequency domain measures of HRV were assessed at baseline and after HT with short-term recordings during paced quiet and deep breathing and with active orthostatic tests, both under carefully controlled laboratory conditions to avoid confounding factors present in long-term ambulatory HRV measurements. MAIN OUTCOME MEASURES: Responses of time and frequency domain measures of HRV to HT. RESULTS: At baseline HRV was similar in women with and without hot flushes. Pretreatment hot flushes did not associate with changes in time domain parameters of HRV during controlled quiet or deep breathing or active orthostatic tests after different types of HT. However, HT reduced HRV in very low frequency power in women with pretreatment hot flushes (from 371 ± 40 to 258 ± 28 ms(2) , p = 0.018). HT did not have an effect on other frequency domain measures during quiet breathing or active orthostatic tests. CONCLUSIONS: Hormone therapy did not significantly modify the HRV responses in women with or without hot flushes under controlled short-term measurements of the cardiovascular autonomic nervous system.

Effect of hot flushes on cardiovascular autonomic responsiveness: a randomized controlled trial on hormone therapy.

OBJECTIVES: To compare the responses of heart rate and blood pressure to various autonomic tests in women with and without pre-treatment hot flushes during estradiol and estradiol+medroxyprogesterone acetate (MPA) use. STUDY DESIGN AND MAIN OUTCOME MEASURES: Hundred and fifty recently postmenopausal women (72 with and 78 without hot flushes) were randomized to receive transdermal estradiol (1mg/day), oral estradiol (2 mg/day) alone or in combination with MPA (5mg/day), or placebo for six months. Cardiovascular responsiveness was comprehensively assessed with controlled and deep breathing, active orthostatic test, Valsalva maneuver and handgrip test. RESULTS: Hot flushes were accompanied with a significant reduction (-2.2±0.7 vs. 1.3±1.1 beats/min, p=0.03) in resting heart rate during estradiol-only treatment; the route of estradiol administration was no factor in this regard. This effect was attenuated by the addition of MPA to oral estradiol. Hot flushes were also associated with reduced maximal heart rate in response to handgrip during the use of estradiol-only therapy (-2.2±1.3 vs. 2.8±1.5 beats/min, p=0.038); again, the MPA addition eliminated this effect. Hot flushes were accompanied with lowered resting but augmented blood pressure responses to handgrip test during all hormone regimens, whereas in women without hot flushes estradiol-only regimen tended to elevate diastolic resting blood pressure. CONCLUSIONS: Hot flushes appear as determinants for cardiovascular responses to hormone therapy. Estradiol-only therapy causes beneficial changes in cardiovascular regulation in flushing women, and these are blunted, in part, by the addition of MPA.

Vasomotor hot flashes and heart rate variability: a placebo-controlled trial of postmenopausal hormone therapy.

OBJECTIVE: The aim of the study was to compare the responses of heart rate variability (HRV) with hormone therapy in recently postmenopausal women with and without vasomotor hot flashes. METHODS: Seventy-two women with and 78 women without hot flashes were randomized to receive transdermal estradiol gel (1 g/day), oral estradiol alone (2 mg/day), oral estradiol combined with medroxyprogesterone acetate (MPA; 5 mg/day), or placebo for 6 months. Time- and frequency-domain measures of HRV were assessed using 24-hour electrocardiographic recordings at baseline and after hormone therapy. RESULTS: At baseline, the cardiac variables were similar in women with and without hot flashes. In women with hot flashes, the mean 24-hour heart rate and nighttime heart rate showed a tendency toward reduction in estradiol-only users compared with those taking placebo and those taking estradiol combined with MPA. In women with hot flashes, oral estradiol versus transdermal estradiol reduced nighttime HRV in the time domain (triangular index, -27 ± 36 vs +8 ± 36, P = 0.042). In women without hot flashes, the use of oral estradiol with MPA reduced time-domain HRV (SD of all normal-to-normal intervals; -11 ± 13 ms, P = 0.048, and square root of the mean of the sum of the squares of differences between adjacent normal-to-normal intervals; -6 ± 8 ms, P = 0.036). The women with hot flashes had more supraventricular ectopic beats when using oral estradiol with MPA than when using oral estradiol only (71 ± 128 vs 12 ± 11, P = 0.018). CONCLUSIONS: Oral estrogen, especially when combined with MPA, may have adverse effects on HRV in women with and without hot flashes, whereas transdermal estradiol showed no such effects. Furthermore, women with hot flashes receiving oral estrogen combined with MPA are possibly more prone to cardiac arrhythmias than are women using estrogen only.

Magnetic-stimulation-related physiological artifacts in hemodynamic near-infrared spectroscopy signals.

Hemodynamic responses evoked by transcranial magnetic stimulation (TMS) can be measured with near-infrared spectroscopy (NIRS). This study demonstrates that cerebral neuronal activity is not their sole contributor. We compared bilateral NIRS responses following brain stimulation to those from the shoulders evoked by shoulder stimulation and contrasted them with changes in circulatory parameters. The left primary motor cortex of ten subjects was stimulated with 8-s repetitive TMS trains at 0.5, 1, and 2 Hz at an intensity of 75% of the resting motor threshold. Hemoglobin concentration changes were measured with NIRS on the stimulated and contralateral hemispheres. The photoplethysmograph (PPG) amplitude and heart rate were recorded as well. The left shoulder of ten other subjects was stimulated with the same protocol while the hemoglobin concentration changes in both shoulders were measured. In addition to PPG amplitude and heart rate, the pulse transit time was recorded. The brain stimulation reduced the total hemoglobin concentration (HbT) on the stimulated and contralateral hemispheres. The shoulder stimulation reduced HbT on the stimulated shoulder but increased it contralaterally. The waveforms of the HbT responses on the stimulated hemisphere and shoulder correlated strongly with each other (r = 0.65-0.87). All circulatory parameters were also affected. The results suggest that the TMS-evoked NIRS signal includes components that do not result directly from cerebral neuronal activity. These components arise from local effects of TMS on the vasculature. Also global circulatory effects due to arousal may affect the responses. Thus, studies involving TMS-evoked NIRS responses should be carefully controlled for physiological artifacts and effective artifact removal methods are needed to draw inferences about TMS-evoked brain activity.

Cardiovascular autonomic responsiveness in postmenopausal women with and without hot flushes.

OBJECTIVES: During menopausal transition autonomic balance is known to shift towards sympathetic dominance, but the role of vasomotor hot flushes in this phenomenon is not understood. We compared cardiovascular autonomic responsiveness between women with and without hot flushes. STUDY DESIGN AND MAIN OUTCOME MEASURES: One hundred fifty recently postmenopausal healthy women with varying degree of hot flushes (none, mild, moderate, severe) underwent comprehensive cardiovascular autonomic nervous testing (controlled and deep breathing, active orthostatic test, Valsalva manoeuvre and handgrip test) assessing both sympathetic and parasympathetic activity. The responses of heart rate, heart rate variability and blood pressure in these tests were evaluated. RESULTS: Responses in heart rate showed differences between the study groups only in the Valsalva manoeuvre where the tachycardia ratio in all symptomatic women was lower (p=0.041) than in women without hot flushes. Neither change in the heart rate variability analyses nor the blood pressure responses were affected by hot flush status. However, there was a non-significantly higher maximum systolic (140 (112-182)mmHg vs. 135 (102-208)mmHg) and diastolic blood pressure (94 (72-112)mmHg vs. 90 (66-122)mmHg) following the handgrip test in women without hot flushes vs. all the symptomatic women. CONCLUSIONS: Menopausal hot flushes seem to be associated with a possibly increased sympathetic preponderance without an effect on parasympathetic activity in cardiovascular autonomic responses. This may imply a potentially negative impact on cardiovascular health in women experiencing hot flushes.

Comparison of QT peak and QT end interval responses to autonomic adaptation in asymptomatic LQT1 mutation carriers.

BACKGROUND: LQT1 subtype of long QT syndrome is characterized by defective I(Ks) , which is intrinsically stronger in the epicardium than in the midmyocardial region. Electrocardiographic QT peak and QT end intervals may reflect complete repolarization of epicardium and midmyocardial region of the ventricular wall, respectively. Repolarization abnormalities in LQT1 carriers may therefore be more easily detected in the QT peak intervals. METHODS: Asymptomatic KCNQ1 mutation carriers (LQT1, n=9) and unaffected healthy controls (n=8) were studied during Valsalva manoeuvre, mental stress, handgrip and supine exercise. Global QT peak and QT end intervals derived from 25 simultaneous electrocardiographic leads were measured beat to beat with an automated method. RESULTS: In unaffected subjects, the percentage shortening of QT peak was greater than that of QT end during mental stress and during the recovery phases of Valsalva and supine exercise. In LQT1 carriers, the percentage shortening of the intervals was similar. At the beginning of Valsalva strain under abrupt endogenous sympathetic activation, QT peak shortened in LQT1 but not in control patients yielding increased electrocardiographic transmural dispersion of repolarization in LQT1. CONCLUSIONS: In asymptomatic KCNQ1 mutation carriers, repolarization abnormalities are more evident in the QT peak than in the QT end interval during adrenergic adaptation, possibly related to transmural differences in the degree of I(Ks) block.

Vasomotor hot flushes and 24-hour ambulatory blood pressure in normotensive women: A placebo-controlled trial on post-menopausal hormone therapy.

BACKGROUND: Blood pressure (BP) is one of the most powerful determinants of cardiovascular risk in women. This risk may differ between post-menopausal women with and without vasomotor hot flushes, possibly indicating different vascular responses to hormone therapy (HT). Thus, we compared in a clinical trial the effect of HT on ambulatory BP in normotensive, recently post-menopausal women with or without severe hot flushes. METHODS: A total of 147 women recorded prospectively their hot flushes for 2 weeks; 70 women were symptomatic (>or=7 moderate/severe hot flush episodes/day), whereas 77 women were defined as asymptomatic (

Vasomotor hot flushes and 24-hour ambulatory blood pressure in recently post-menopausal women.

BACKGROUND: Menopausal hot flushes may be a marker for a difference in vascular function. We studied the associations between hot flushes of varying severity and ambulatory blood pressure (BP) and heart rate (HR). METHODS: A total of 147 women with onset of menopause within the preceding 6-36 months reported no hot flushes (n = 23) or mild (n = 33), moderate (n = 30), or severe (n = 61). Ambulatory BP and HR were registered for 24 hours. The variables, analyzed separately for day-time and night-time, were compared among the four study groups. RESULTS: Hot flushes failed to show any relationship to mean day- or night-time BP, nocturnal dipping of BP, or HR. However, severe night-time hot flushes were accompanied by elevations in systolic BP (4.1 +/- 10.5 mmHg, P = 0.061), diastolic BP (3.1 +/- 6.8 mmHg, P = 0.032), and heart rate (3.0 +/- 7.2 beats/minute, P = 0.043). CONCLUSION: Hot flushes are not associated with ambulatory BP or heart rate in normotensive, recently post-menopausal women, although severe night-time hot flush episodes are followed by significant elevations in BP and heart rate. The latter may be of clinical significance.

Association between vasomotor hot flashes and heart rate variability in recently postmenopausal women.

OBJECTIVE: The aim of this study was to investigate whether cardiovascular autonomic reactivity and risk profile are associated with the frequency and severity of hot flashes in recently postmenopausal women. METHODS: A total of 150 postmenopausal women with varying degrees of severity of hot flashes (none, mild, moderate, or severe) underwent 24-hour electrocardiographic recording. The function of the autonomic nervous system was assessed via heart rate variability in time and frequency domains. The effects of hot flashes on cardiac autonomic function were studied by assessing heart rate variability in the presence and absence of symptoms. RESULTS: There were no differences in mean heart rate, heart rate extremes, or total number of ectopic beats between women without and women with mild, moderate, or severe hot flashes. However, most women (14/17, 82%) with frequent ventricular ectopic beats and all women with ventricular runs belonged to the symptomatic groups. Although there were no differences in 24-hour or nighttime heart rate variability between the study groups, the very-low-frequency spectral component of heart rate variability increased by 72% (P < 0.001) during the hot flash period compared with the control period and was accompanied by an increase in heart rate (3%; P < 0.001). CONCLUSIONS: Cardiovascular risk markers based on heart rate variability failed to show an association with the frequency and severity of hot flashes in recently postmenopausal women. However, during a hot flash episode, there were signs of altered autonomic control of heart rate, which may be involved in the regulatory mechanisms of hot flashes.

Effect of hot flushes on vascular function: a randomized controlled trial.

OBJECTIVE: To compare the vascular responses to hormone therapy in women with and without hot flushes. METHODS: We randomly assigned 143 healthy, recently postmenopausal women (mean age 52.4+/-0.2 years, time since menopause 19.5+/-0.9 months) with intolerable hot flushes (more than seven moderate/severe episodes per day) or tolerable hot flushes (fewer than three mild episodes per day) to receive 1 mg of transdermal estradiol gel, oral estradiol (2 mg) with and without daily medroxyprogesterone acetate, or placebo for 6 months. Vascular function was assessed by pulse-wave analysis and endothelial function testing with nitroglycerin and salbutamol challenges. RESULTS: Hot flushes did not affect the changes in arterial or aortic stiffness or endothelial function in response to various forms of hormone therapy. However, in women with tolerable hot flushes, oral estradiol caused a decrease of 13.2% (P=.028) in the time to the first systolic peak (dependent on the rapid phase of ventricular ejection) after nitroglycerin. In addition, the time to the reflected wave (dependent on pulse-wave velocity) after nitroglycerin was decreased by 8.4% (P=.018). These effects were not seen in women with intolerable hot flushes or with the other treatment regimens. CONCLUSION: Women without troublesome hot flushes are susceptible to unfavorable vascular effects after oral estrogen treatment, resulting in less compliant vasculature. CLINICAL TRIAL REGISTRATION: ClinicalTrials.gov, www.clinicaltrials.gov, NCT00668603. LEVEL OF EVIDENCE: I.

Evidence for a role of hot flushes in vascular function in recently postmenopausal women.

OBJECTIVE: Observational studies indicate that postmenopausal hormone therapy (HT) prevents cardiovascular disease, but randomized clinical trials have not confirmed this effect. Hot flushes were more likely to be present in women starting HT in observational studies, whereas these symptoms were mild or absent among women attending randomized clinical trials. We hypothesized that vascular function may differ in women with and without vasomotor hot flushes. METHODS: One hundred forty-three recently postmenopausal women showing a broad range of variation in hot flushes were studied with radial artery tonometry. Pulse wave analyses were assessed at baseline and after nitroglycerin and salbutamol challenges. Wilcoxon signed rank test was used for paired comparisons after challenges with nitroglycerin and salbutamol. RESULTS: Neither baseline arterial stiffness nor endothelial function differed between women without or with mild, moderate, or severe hot flushes. However, after nitroglycerin challenge, the time to the onset of the reflected wave (dependent on pulse wave velocity) was 9.5% longer (P=.014), and the time to the first systolic peak (dependent on the rapid phase of ventricular ejection) was 13.9% longer (P=.025) in women with severe hot flushes as compared with asymptomatic women. CONCLUSION: Women with severe vasomotor hot flushes show greater vascular responsiveness to nitroglycerin than women without hot flushes. This may partially explain the conflicting data between observational and randomized HT studies. CLINICAL TRIAL REGISTRATION: ClinicalTrials.gov, www.clinicaltrials.gov, NCT00668603 LEVEL OF EVIDENCE: II.

Electrocardiographic ventricular repolarization during cardiovascular autonomic function testing in patients with arrhythmogenic right ventricular cardiomyopathy.

OBJECTIVES: Patients with arrhythmogenic right ventricular cardiomyopathy (ARVC) experience exercise-related malignant arrhythmias possibly based on delayed repolarization in the diseased right ventricle (RV). Autonomic interventions might unveil repolarization abnormalities in RV. DESIGN: We recorded 25-lead electrocardiograms from nine symptomatic ARVC patients and nine controls during rest, Valsalva maneuver, mental stress, handgrip and supine exercise. Interventricular repolarization gradient was defined as difference of QT intervals between left ventricular (LV) and RV type leads. T-wave peak to T-wave end interval (TPE) was defined as the electrocardiographic (ECG) equivalent of transmural dispersion of repolarization. RESULTS: ARVC patients showed longer QT and TPE intervals in RV than in LV whereas control subjects showed the opposite. Valsalva strain reversed the interventricular repolarization gradient from -5+/-13 to 4+/-20 ms (p<0.02) and induced fluctuation of TPE in ARVC patients. CONCLUSIONS: ARVC patients show ECG interventricular repolarization gradient from RV to LV and increased ECG transmural dispersion of repolarization in RV. Valsalva strain induces fluctuation of interventricular repolarization gradient and of transmural dispersion of repolarization in RV possibly modifying the substrate for arrhythmias.

Electrocardiographic interventricular dispersion of repolarization during autonomic adaptation in LQT1 subtype of long QT syndrome.

OBJECTIVES: In LQT1 subtype of inherited long QT syndrome, repolarization abnormalities originating from defective I(Ks) render patients vulnerable to ventricular arrhythmia during sudden sympathetic activation. Experimental studies show lower I(Ks) density and longer action potential duration in left (LV) than in right (RV) ventricle. We studied interventricular dispersion of repolarization in patients with I(Ks) defect during autonomic tests. DESIGN: We measured interventricular (difference of QT intervals between LV and RV type leads) and transmural electrocardiographic dispersion of repolarization from 25-lead electrocardiograms in nine asymptomatic KCNQ1 mutation carriers (LQT1) and eight controls during rest, Valsalva maneuver, mental stress, sustained handgrip and supine exercise. RESULTS: LQT1 carriers showed increased interventricular dispersion of repolarization (13+/-9 ms vs. 4+/-4 ms, p=0.03) during all tests. Valsalva strain increased the difference between the study groups. In LQT1 carriers, interventricular dispersion of repolarization correlated weakly with electrocardiographic transmural dispersion of repolarization. CONCLUSIONS: Asymptomatic KCNQ1 mutation carriers exhibit increased and by abrupt sympathetic activation augmented interventricular difference in electrocardiographic repolarization times. Interventricular and transmural repolarization dispersion behave similarly in patients with I(Ks) defect.

Ventricular repolarization and heart rate responses during cardiovascular autonomic function testing in LQT1 subtype of long QT syndrome.

BACKGROUND: In the most prevalent LQT1 form of inherited long QT syndrome symptoms often occur during abrupt physical or emotional stress. Sympathetic stimulation aggravates repolarization abnormalities in experimental LQT1 models. We hypothesized that autonomic function tests might reveal the abnormal repolarization in asymptomatic LQT1 patients. METHODS: We measured heart rates (HRs) and QT intervals in nine asymptomatic carriers of a C-terminal KCNQ1 mutation and 8 unaffected healthy subjects using an approach of global QT values derived from 28 simultaneous electrocardiographic leads on beat-to-beat base during Valsalva maneuver, mental stress, sustained handgrip, and light supine exercise. RESULTS: LQT1 patients exhibited impaired shortening of both QTpeak and QTend intervals during autonomic interventions but exaggerated lengthening of the intervals--a QT overshoot--during the recovery phases. The number of tests with a QT overshoot was 2.4 +/- 1.7 in LQT1 patients and 0.8 +/- 0.7 in unaffected subjects (P = 0.02). Valsalva strain prolonged T wave peak to T wave end interval (TPE) in LQT1 but not in unaffected patients. LQT1 patients showed diminished HR acceleration in response to adrenergic challenge whereas HR responses to vagal stimuli were similar in both groups. CONCLUSIONS: Standard cardiovascular autonomic provocations induce a QT interval overshoot during recovery in asymptomatic KCNQ1 mutation carriers. Valsalva maneuver causes an exaggerated fluctuation of QT and TPE intervals partly explaining the occurrence of cardiac events during abrupt bursts of autonomic activity in LQT1 patients.