Atrial fibrillation as a new independent risk factor for thromboembolic events: hemodynamics and vascular consequence of long ventricular pauses.

BACKGROUND: Atrial fibrillation (AF) is a leading risk factor of arterial thromboembolic events. Aim is to study the main arteries hemodynamics and kinetics in AF and to propose the functional classification of AF. METHODS: We included 188 patients (80 as the control). We performed 24-hours ECG monitoring, blood lipids analysis, echocardiography, stress echocardiography, coronary angiography, renal arteries angiography, ultrasound Doppler of brachiocephalic arteries, abdominal aorta branches, renal arteries, lower extremities arteries, sphygmography. Patients were divided into 3 groups up to the duration of maximum pauses between ventricular complexes in AF: 1) with a pause <1 second (64); 2) with a pause of ≥1, but <2 seconds (62); 3) ≥2 seconds (62). We analyzed the thromboembolic events within 1 year. RESULTS: We observed the increase of linear blood flow velocity and volume flow in patients with AF during the spreading of the wave after a long pause between ventricles' contractions. The longer the pause between the ventricles' contractions, the more increase of arteries kinetics parameters is observed. The most frequent incidence of thromboembolic events within 1 year was in group 3. CONCLUSIONS: We propose a functional classification of AF: 1) AF with the pauses of less than 1 second; 2) more 1, but less than 2 seconds; and 3) 2 or more seconds. The most unfavorable is AF with pauses of 2 seconds or more. We supplemented the CHA2DS2-VASc Score with the new independent risk factor - type of AF - in accordance with the maximum duration of pauses between cardiac cycles.

The operation of carotid endarterectomy: is it an effective method of treatment of arterial hypertension?

BACKGROUND: The aim of this study was to establish the relationship between arterial hypertension (AH) and hemodynamically significant atherosclerotic stenosis of carotid bifurcation and study the effect of carotid endarterectomy (CEA) on the course of AH. METHODS: In our investigation we included 320 patients: 243 (75.9%) men and 77 (24.1%), the mean age - 59.6±8.2. All patients underwent CEA operation. Patients were divided into groups: I (320) - before CEA surgery and AH; II (320) - the same patients after CEA operation. All patients underwent laboratory tests, ECG, chest X-ray, ultrasound of the kidneys, thyroid gland, computer tomography (CT) of adrenal glands, of the brain, echocardiography, ultrasound or angiography of the renal arteries. Before and after the CEA, there were made Doppler ultrasound of brachiocephalic arteries, 24 hours blood pressure (BP) monitoring. Additional visits were made by 73 patients in 3, 6 and 12 months after the CEA. RESULTS: Most of the patients had significant decrease of BP in the postoperative period, which was observed in 257 (80.3%) patients on days 2-7, in 58 (18.1%) - did not change significantly, and only 5 (1.6%) had the increasing of BP. In 29 (39.7%) patients 1 year after CEA, there was no need to use antihypertensive therapy due for the normalization of BP after the surgery. CONCLUSIONS: It is necessary to highlight the cerebrovascular AH into a separate form of the secondary AH. The CEA has prominent, stable antihypertensive effect on these patients.

Extrasystolic arrhythmia: is it an additional risk factor of atherosclerosis?

BACKGROUND: Extrasystolic arrhythmia is not included in the list of risk factors of atherosclerosis. The aim of this investigation was to determine the relationship between atherosclerosis of main arteries and extrasystolic arrhythmia. METHODS: We included 286 patients in our investigation. We performed 24-hours ECG monitoring, blood lipids analysis, transthoracic echocardiography, ultrasound Doppler of brachiocephalic arteries, abdominal aorta branches, lower extremities arteries, renal arteries. If prescribed we performed stress echocardiography, transesophageal echocardiography, coronary angiography, renal arteries angiography, pancerebral angiography. So, the investigation was made for the active revealing of atherosclerotic signs. The main parameters of heart biomechanics and main arteries kinetics we calculated using apexcardiography and sphygmography and included: speed, acceleration, power, work in each phase of the cardiocycle by apexcardiography, as well as in period of prevalence of inflow over outflow and in period of prevalence of outflow over inflow in sphygmography. All the patients were divided into two main groups according to the quantity of extrasystoles per 24 hours: 1 group - less than 3000, 2 group -3000 extrasystoles and more per 24 hours. RESULTS: We determined that the atherosclerotic process was more advanced and more often the group 2. The atherosclerosis was more severe in patients with extrasystoles before the mitral valve opening and in fast ventricles' filling phase in cardiocycle. The main parameters of heart biomechanics and main arteries kinetics (speed, acceleration, power, work) calculated by apexcardiography and sphygmography increased with the further tendency: if earlier extrasystole appears in cardiocycle, than more changes were observed. Analyzing the methods of physics for fluid movement - Newton equation for liquids and Reynold number - we demonstrated that in extrasystolic arrhythmia in first post-extrasystolic wave there are the conditions for the turbulent blood flow that can cause the onset and progressing of atherosclerotic process. CONCLUSIONS: Extrasystolic arrhythmia is an additional risk factor of main arteries atherosclerosis. Especially this thesis is fair for the extrasystoles that appear in cardiocycle before the mitral valve opening and in fast ventricles' filling phase.

Hemodynamic arterial changes in heart failure: a proposed new paradigm of "heart and vessels failure".

BACKGROUND: Although heart failure (HF) is one of the most common conditions affecting the heart, little attention has been placed on the role of arteries in contributing to the progression of this disease. We sought to determine the hemodynamic change of arteries in HF patients subdivided according to left ventricular ejection fraction. The major goal was to establish the active compensatory role of arteries in HF. METHODS: Using sphygmography, we systematically studied a cohort of 228 HF patients and 52 healthy controls. We focused on the common carotid as the main elastic artery and the posterior tibial as the main muscular artery. Moreover, we categorized the three HF groups, HFrEF, HFmrEF, HFpEF, into two subgroups (A and B) according to the presence or absence of HF signs at baseline. RESULTS: We discovered that all the parameters of measured arterial kinetics, i.e., work, power, acceleration, and speed, were significantly increased (P<0.001 by one-way ANOVA) in the groups without HF signs. In contrast, all the arterial kinetics parameters were significantly reduced (P<0.001) in the groups exhibiting HF signs. Similar results were obtained in both types of arteries and were consistently observed across all the three different types of HF, although with some differences in magnitude. Finally, we discovered that HFpEF patients exhibited more compromised arterial function vis-à-vis HFrEF patients. CONCLUSIONS: We provide the first documentation of an active compensatory role of arteries during HF. Mechanistically, we explain these findings by a dual activity of large arteries accomplished via an active propulsive work and a concurrent hemodynamic suction. These underestimated arterial functions partially compensate for the heart dysfunction in HF, underlining a key interplay between the heart and the vessels. We propose a new paradigm that we define as "heart and vessels failure" that explicitly focuses on both heart and vessels' interaction during the progression of HF.