Change of cardiodynamic parameters and the heart rhythm in students under influence of the academic load

Dynamics psychological and cadriohemodynamical parameters and activity regulators mechanisms of a rhythm of heart of students in current of academic year is studied. It is shown, that process of adaptation of students to an academic load is accompanied by the periods of recession and a pressure parameters of hemodynamic, activity regulators mechanisms of a rhythm of heart and parameters of state of health, activity and mood. The periods of the highest pressure of physiological systems of an organism of students are the beginning of the first semester and the examination period. The adaptive changes of investigated parameters occurred in the course the academic year.     

Parasympathetic Stimuli on Bronchial and Cardiovascular Systems in Humans

Background

It is not known whether parasympathetic outflow simultaneously acts on bronchial tone and cardiovascular system waxing and waning both systems in parallel, or, alternatively, whether the regulation is more dependent on local factors and therefore independent on each system. The aim of this study was to evaluate the simultaneous effect of different kinds of stimulations, all associated with parasympathetic activation, on bronchomotor tone and cardiovascular autonomic regulation.

Methods

Respiratory system resistance (Rrs, forced oscillation technique) and cardio-vascular activity (heart rate, oxygen saturation, tissue oxygenation index, blood pressure) were assessed in 13 volunteers at baseline and during a series of parasympathetic stimuli: O₂ inhalation, stimulation of the carotid sinus baroreceptors by neck suction, slow breathing, and inhalation of methacholine.

Results

Pure cholinergic stimuli, like O₂ inhalation and baroreceptors stimulation, caused an increase in Rrs and a reduction in heart rate and blood pressure. Slow breathing led to bradycardia and hypotension, without significant changes in Rrs. However slow breathing was associated with deep inhalations, and Rrs evaluated at the baseline lung volumes was significantly increased, suggesting that the large tidal volumes reversed the airways narrowing effect of parasympathetic activation. Finally inhaled methacholine caused marked airway narrowing, while the cardiovascular variables were unaffected, presumably because of the sympathetic activity triggered in response to hypoxemia.

Conclusions

All parasympathetic stimuli affected bronchial tone and moderately affected also the cardiovascular system. However the response differed depending on the nature of the stimulus. Slow breathing was associated with large tidal volumes that reversed the airways narrowing effect of parasympathetic activation.     

Hemodynamic and autonomic changes induced by Ironman: prediction of competition time by blood pressure variability.

We hypothesized that the extreme endurance exercise of an Ironman competition would lead to long-standing hemodynamic and autonomic changes. We investigated also the possibility of predicting competition performance from baseline hemodynamic and autonomic parameters. We have investigated 27 male athletes before competition, 1 h after, and then for the following week after the competition. The Task Force monitor was used to measure beat-to-beat hemodynamic and autonomic parameters during supine rest and active standing. Heart rate (P < 0.001) was increased, and stroke index (P = 0.011), systolic blood pressure (P = 0.004), diastolic blood pressure (P < 0.001), total peripheral resistance index (P < 0.001), and baroreceptor reflex sensitivity (P < 0.001) were decreased after the competition. The 0.05- to 0.17-Hz band of heart rate and blood pressure variability was increased (P < 0.001 and P < 0.001, respectively), the 0.17- to 0.40-Hz band of heart rate interval variability was decreased after the competition (P < 0.001). All parameters returned to baseline values 3 days after the competition. After the competition, the autonomic response to orthostasis was significantly impaired. The 0.05- to 0.17-Hz band of diastolic blood pressure variability before competition and weekly net exercise training, but not the other hemodynamic and autonomic parameters, were related to competition time in multivariate regression analysis (multiple r = 0.70, P < 0.001). The marked hemodynamic and autonomic changes after an ultraendurance race, which are compatible with myocardial depression in the face of sympathetic activation and reduction of afterload, return to baseline after only 1-3 days. Because the 0.05- to 0.17-Hz band of diastolic blood pressure variability contributes to the prediction of competition time, the analysis of blood pressure variability in the frequency domain deserves further study for the prediction of endurance capacity.     

High dose propranolol in the treatment of angina pectoris: relationship of dose to blood levels and hemodynamic consequences

Propranolol blood levels and the effect of these levels on hemodynamic parameters were evaluated in 25 patients with coronary artery disease undergoing cardiac catheterization and coronary angiography. Fifteen patients were receiving high doses of propranolol (320--1920 mg/day) while ten patients were receiving conventional doses (80--240 mg/day). The high dose propranolol group had significantly higher plasma propranolol levels than the conventional dose group (788 +/- 134 SD vs. 43 +/- 7.2 ng/ml SD), and there was a direct linear relationship between propranolol dose and plasma drug levels (r = 0.85, P < 0.001). There were no significant differences between high and conventional dose propranolol groups in terms of all hemodynamic parameters measured, namely ejection fraction, ventricular volume, cardiac index, or peripheral vascular resistance. Despite high drug dosage and blood levels, only mild side effects were seen.     

Characteristics of the blood oxygen transport function in angina pectoris patients receiving treatment aimed at correcting the L-arginine-NO pathway

The oxygen transport function of the blood was studied in angina pectoris patients treated with nitrosorbide to correct the L-arginine-NO pathway. A series of parameters (the O₂ content of venous blood, blood oxygen capacity, blood oxygenation level, methemoglobin content, oxygen affinity of methemoglobin, and central hemodynamic parameters) were determined. The oxygen affinity of hemoglobin in patients with functional class I and II stable exertional angina decreased according to the severity of the disease and, therefore, can be considered a criterion of an unfavorable course of the disease. Nitrosorbide therapy resulted in an increase in the oxygen affinity of hemoglobin.     

Physiological,emotional, and professional adaptation of medical students

Female medical students were examined. The somatic health index (HI) according to Apanasenko and state-trait anxiety according to Spielberger were determined. The professional adaptation was estimated by academic performance (the average marks during a semester). Cluster analysis (the k-mean method) was used to distinguish four classes of students differing in their adaptation profiles: (1) good professional adaptation (academic performance), moderate anxiety, and a high HI; (2) poor academic performance and good psychophysiological adaptation; (3) moderate academic performance, a satisfactory psychological and emotional state, and a low HI; and (4) an academic performance lower than the sample average, high anxiety, and a low HI. Methods for correcting maladaptation based on the data obtained are suggested.     

Autonomic contribution to endothelin-1 increase during laboratory anger-recall stress in patients with coronary artery disease

In coronary artery disease (CAD), endothelin-1 (ET-1) is released by activated macrophages and thereby contributes to coronary plaque rupture and triggered cardiac events. The multifactorial regulation of ET-1 includes stimulated release by cytokines and autonomic factors. Laboratory stress provokes alteration in autonomic tone and prolonged ET-1 mediated endothelial dysfunction. The objective of the study is to determine the autonomic contribution to an increase in ET-1 in response to laboratory stress in patients with CAD. Patients (n = 88) with chronic stable CAD instrumented with hemodynamic monitor, digital electrocardiogram (ECG) monitor and indwelling catheter for blood sampling completed a laboratory protocol that included initial rest (30 min), baseline (BL: 10 min), and anger recall stress (AR: 8 min). Change from BL to AR was determined for (a) parasympathetic activity (by spectral analysis of ECG); (b) sympathetic activity (by circulating catecholamines); and (c) ET-1. AR provoked increases from BL in catecholamines, and a decrease in parasympathetic activity. Multivariate analysis with change in parasympathetic activity and catecholamines, while controlling for age and use of β-blockers, revealed a significant odds ratio (OR = 3.27, 95% CI 1.03, 10.41 P = 0.04) for an increase in ET-1 associated with parasympathetic withdrawal; no other variables were significant. The predominant influence of parasympathetic activity on anger/stress-provoked increase in ET-1 is consistent with the cholinergic antiinflammatory pathway. Future examination of autonomic influences on atherosclerotic leukocytes, endothelial cell function and the dynamics of ET-1 are warranted.     

Central and peripheral mechanisms underlying gastric distention inhibitory reflex responses in hypercapnic-acidotic rats

We have observed that in chloralose-anesthetized animals, gastric distension (GD) typically increases blood pressure (BP) under normoxic normocapnic conditions. However, we recently noted repeatable decreases in BP and heart rate (HR) in hypercapnic-acidotic rats in response to GD. The neural pathways, central processing, and autonomic effector mechanisms involved in this cardiovascular reflex response are unknown. We hypothesized that GD-induced decrease in BP and HR reflex responses are mediated during both withdrawal of sympathetic tone and increased parasympathetic activity, involving the rostral (rVLM) and caudal ventrolateral medulla (cVLM) and the nucleus ambiguus (NA). Rats anesthetized with ketamine and xylazine or α-chloralose were ventilated and monitored for HR and BP changes. The extent of cardiovascular inhibition was related to the extent of hypercapnia and acidosis. Repeated GD with both anesthetics induced consistent falls in BP and HR. The hemodynamic inhibitory response was reduced after blockade of the celiac ganglia or the intraabdominal vagal nerves with lidocaine, suggesting that the decreased BP and HR responses were mediated by both sympathetic and parasympathetic afferents. Blockade of the NA decreased the bradycardia response. Microinjection of kainic acid into the cVLM reduced the inhibitory BP response, whereas depolarization blockade of the rVLM decreased both BP and HR inhibitory responses. Blockade of GABA(A) receptors in the rVLM also reduced the BP and HR reflex responses. Atropine methyl bromide completely blocked the reflex bradycardia, and atenolol blocked the negative chronotropic response. Finally, α(1)-adrenergic blockade with prazosin reversed the depressor. Thus, in the setting of hypercapnic-acidosis, a sympathoinhibitory cardiovascular response is mediated, in part, by splanchnic nerves and is processed through the rVLM and cVLM. Additionally, a vagal excitatory reflex, which involves the NA, facilitates the GD-induced decreases in BP and HR responses. Efferent chronotropic responses involve both increased parasympathetic and reduced sympathetic activity, whereas the decrease in BP is mediated by reduced α-adrenergic tone.     

Features of endocrine and cardiovascular response to emotional stress in subjects with different types of temperament

Functional features of endocrine and cardiovascular response to examination stress were investigated in 105 students of the Medical Academy who were divided into three groups according to their temperament types. Subjects with the “Apollon” type of temperament were found to have an adequate response to emotional stress. Subjects with the “Epimetei” type of temperament were characterized by the inert response of the regulatory and effector body systems, which was a prerequisite for the development of endocrine and cardiovascular disturbances. The prevalence of parasympathetic activity in the dynamics of emotional stress in subjects of the “Dionisii” type of temperament is indicative of their resistance to the harmful effect of stress. The preliminary psychological evaluation of the type of temperament makes possible the prognosis of adaptive reactions to stress or dysadaptation.     

A mathematical model for the distribution of hemodynamic parameters in the human retinal microvascular network

To quantitatively assess the arteriovenous distribution of hemodynamic parameters throughout the microvascular network of the human retina, we constructed a retinal microcirculatory model consisting of a dichotomous symmetric branching system. This system is characterized by a diameter exponent of 2.85, instead of 3 as dictated by Murray’s law, except for the capillary networks. The value of 2.85 was the sum of a fractal dimension (1.70) and a branch exponent (1.15) of the retinal vasculature. Following the feeding artery (central retinal artery), each bifurcation was recursively developed at a distance of an individual branch length [L(r) = 7.4r ^1.15] by a centrifugal scheme. The venular tree was formed in the same way. Using this model, we evaluated hemodynamic parameters, including blood pressure, blood flow, blood velocity, shear rate, and shear stress, within the retinal microcirculatory network as a function of vessel diameter. The arteriovenous distributions of blood pressure and velocity in the simulation were consistent with in vivo measurements in the human retina and other vascular beds of small animals. We therefore conclude that the current theoretical model was useful for quantifying hemodynamics as a function of vessel diameter within the retinal microvascular network.     

RETRACTED ARTICLE: Changes in parameters of biochemical and oxidative stress in university students during and after examinations

The study aimed to evaluate the parameters of lipid peroxidation and antioxidant protection, biochemical parameters, and cortisol and adrenaline content in the blood of students depending on the effect of exam stress. A total of 135 healthy students (72 female (53.3%) and 63 male (46.7%)) aged from 19 to 21 years (mean age 20.16 ± 0.42 years) of the experimental group underwent detailed medical screening and examination before the inclusion in the study. The control group consisted of 30 healthy students (17 female (56.7%) and 13 male (43.3%)) of corresponding age (mean age 20.23 ± 0.54 years), whose medical examination was performed during breaks in the absence of any stress factors. The blood parameters of the experimental group were investigated 1 h before, 1 h after, and 24 h after the exam. The cortisol content in the blood of experimental group students significantly increased 1.37 times (p < 0.05) an hour before the exam and 1.32 times (p < 0.05) an hour after; adrenalin content in blood increased 1.76 times (p < 0.05) and 1.49 times (p < 0.05), respectively. Compared to the control group, intensification of lipid peroxidation processes with a 1.51-fold (p < 0.05) increase in erythrocyte malonic aldehyde content in blood 1 h before and 1.42-fold (p < 0.05) increase an hour after the exam was observed in students due to the effect of exam stress.. Changes in hormonal homeostasis, activation of lipoperoxidation processes with the development of oxidative stress, and the disintegration of antioxidant protection factors are typical for academic stress in students.     

Functional characteristics of hemodynamics in adolescents under the conditions of different motor activities

The formation of functional systems in correspondence with the conditions of natural activity is the most important issue of developmental physiology. In this study, data on the assessment of the state of central and cerebral hemodynamics, as well as indices of spectral analysis of the heart rate’s variability (HRV) in adolescents depending on the level of motor activity has been collected and systematized. The possibility of integration of methods of rheoencephallography and cardiorythmography for the assessment of the characteristics of the ontogenetic formation of the cardiovascular system has been studied. Analysis of the formation of indices of hemodynamics during an academic year and the training cycle in swimmers and healthy adolescents who do not enroll in sports classes has been made. Changes in, and correlations between, the parameters of central hemodynamics and cerebral circulation, as well as parameters of HRV, have been detected. Analysis of the changes in the statistical indices of the cardiac rhythm in adolescents during an academic year on the basis of the qualitative and quantitative characteristics of the state of regulatory systems, as well as the determination of the direction of the response to the combination of academic loads and the factor of physical training, permitted a detailed study of changes that take place in some hemodynamic parameters in athletes and students, which is of particular importance for the diagnosis of their functional state.     

Adaptive Changes in the Indicators of Systemic Hemodynamics and Energy Consumption by Young Men during Passive Hyperthermia Procedures

Human Physiology - Adaptive shifts in systemic hemodynamic parameters and energy consumption were evaluated in 15 healthy young men in response to a single procedure of passive hyperthermia (PH)...     

Antihypertensive effect of passion fruit peel extract and its major bioactive components following acute supplementation in spontaneously hypertensive rats

Extracts from leaves, peels or flowers of Passiflora are noted for their medicinal effects. Passiflora edulis peel extract (PFPE) has been proposed to lower blood pressure (BP); however, only indirect measurement techniques have been employed. To more accurately measure the effect of PFPE on hemodynamic parameters and determine the minimal effective dose, hemodynamic parameters were directly measured in spontaneously hypertensive rats (SHR) implanted with radiotelemeters. PFPE was given orally at 0, 2.5, 50 or 200 mg/kg body weight (BW) to determine the minimal effective dose. Once this dose was determined, the potential active components, edulilic acid (EA), anthocyanin fraction (AF) or γ-aminobutyric acid (GABA), were tested to determine which may contribute to the reductions in BP. The 50 mg PFPE/kg BW dose was the lowest dose that significantly reduced all hemodynamic parameters from baseline when compared to control. When the potential actives were provided at equivalent doses to those found in 50 mg PFPE/kg BW, the EA and AF significantly reduced all measured hemodynamic parameters from baseline when compared to control. GABA did not significantly affect any hemodynamic parameters compared to control and significantly increased heart rate. These direct measurements indicate that PFPE can decrease hemodynamic parameters in SHR and indicate that EA and AF are active compounds that contribute to the antihypertensive effects of PFPE supplementation. While these results are encouraging, detailed mechanistic studies are needed to determine the putative value of PFPE for blood pressure control in humans.     

Studies Upon the Toxicity of Polyethylene Glycol Coated Lipid Vesicles: Acute Hemodynamic Effects,Pyrogenicity and Complement Activation

Abstract

The toxicity of PEG-coated liposomes has been examined by testing the ability of such vesicles to (a) initiate a fever response, (b) activate complement and (c) alter various hemodynamic parameters in rabbits. The results indicate that DSPC/Chol/DMPG/Vit.E/ PE-PEG (45.5:40:9:1:4.5) vesicles injected I.V. in rabbits at a lipid dose of ～4 μmole/kg do not elicit a fever response either due to the presence of bacterial contamination, or by activating the release of endogenous pyrogens and, in addition, cause no statistically significant (Mann-Whitney p >0.05) changes in various hemodynamic parameters compared to injection of saline. An in-vitro hemolytic assay indicated that these same vesicles cause no activation of complement over the lipid concentration range 0.06–64 mM. These results are discussed in terms of the potential use of PEG-coated vesicles as blood pool imaging agents in nuclear medicine.     

The morphological features and functional state of the adolescent organism under conditions of adaptation to the north

Features of physical development and constitution, functional parameters of the cardiorespiratory system (PWC₁₇₀ and maximal oxygen consumption), and sympathetic and parasympathetic influences on the regulation of blood circulation were studied in 12–16-year-old children of newcomers under conditions of adaptation to the Tyumen North. The percentage of adolescents with an excessive or a deficient body weight, growth lag, and delayed puberty was increased. The girls had a decreased efficiency. Age- and sex-related differences of the morphological and physiological parameters of subjects under study were found.     

Parasympathetic reflex vasodilation in the cerebral hemodynamics of rats

We investigated the role of parasympathetic reflex vasodilation in the regulation of the cerebral hemodynamics, and whether GABA_A receptors modulate the response. We examined the effects of activation of the parasympathetic fibers through trigeminal afferent inputs on blood flow in the internal carotid artery (ICABF) and the cerebral blood vessels (rCBF) in parietal cortex in urethane-anesthetized rats. Electrical stimulation of the central cut end of the lingual nerve (LN) elicited intensity- and frequency-dependent increases in ICABF that were independent of changes in external carotid artery blood flow. Increases in ICABF were elicited by LN stimulation regardless of the presence or absence of sympathetic innervation. The ICABF increases evoked by LN stimulation were almost abolished by the intravenous administration of hexamethonium (10 mg kg^?1) and were reduced significantly by atropine administration (0.1 mg kg^?1). Although the LN stimulation alone had no significant effect on rCBF, LN stimulation in combination with a blocker of the GABA_A receptor pentylenetetrazole increased the rCBF markedly. This increase in rCBF was reduced significantly by the administration of hexamethonium and atropine. These observations indicate that the increases in both ICABF and rCBF are evoked by parasympathetic activation via the trigeminal-mediated reflex. The rCBF increase evoked by LN stimulation is thought to be limited by the GABA_A receptors in the central nervous system. These results suggest that the parasympathetic reflex vasodilation and its modulation mediated by GABA receptors within synaptic transmission in the brainstem are involved in the regulation of the cerebral hemodynamics during trigeminal afferent inputs.     

VIP and noncholinergic vasodilatation in rabbit submandibular gland

The effect of parasympathetic nerve activation on rabbit submandibular gland (SMG) blood flow and saliva secretion were studied before and after systemic administration of atropine or hexamethonium. The parasympathetic fibers were stimulated electrically (2 and 15 Hz, 10 V, 1 msec) at the plexus around the submandibular salivary duct or at the chorda lingual nerve. In untreated animals, stimulation of parasympathetic fibers caused a frequency-dependent increase of salivary secretion and blood flow in the SMG. Atropine treatment completely abolished saliva secretion at 2 Hz and 15 Hz and the increase in SMG blood flow during stimulation at 2 Hz. Although atropine significantly reduced the vasodilatory response at 15 Hz, the highest blood flow measured under such circumstances was still about 2.5 times the prestimulation value. After hexamethonium administration no blood flow increase or saliva secretion was seen upon chorda lingual stimulation. The concentration of vasoactive intestinal polypeptide (VIP)-like immunoreactivity in the venous effluent of the SMG increased during nerve stimulation. Atropine significantly reduced, and hexamethonium abolished this VIP-output elicited by parasympathetic nerve stimulation. Local infusion of VIP, peptide histidine isoleucine (PHI) and substance P all caused atropine-resistant vasodilation but no salivation. The present data suggest that VIP and possibly PHI play a role in the atropine-resistant vasodilatation in rabbit submandibular gland elicited by parasympathetic nerve stimulation. The contribution of sensory mediators such as substance P released by stimulation of afferent nerves in the chorda lingual nerve to the salivary and vasodilatory responses seems to be of minor importance in the rabbit submandibular gland.     

New approaches to an understanding of hemodynamic norms]

Tetrapolar rheography was used to investigate central hemodynamics parameters in a group of 80 healthy subjects aged 25-68. Hyperkinetic, eukinetic and hypokinetic types of circulation were determined by interval distribution according to cardiac index. The proportion of the examinees by their hemodynamic type was: 16.3:63.7:20.0%. In hyperkinetic type the optimal level of average blood pressure was provided by a relatively high cardiac output (CO) and low total and specific peripheral resistance (TPR, SPR). The hypokinetic type of hemodynamics was characterized by a low level of CO and a high value of TPR and SPR. Subjects with eukinetic hemodynamic type were in an intermediate position. It is suggested to take into consideration the hemodynamic type in hypertensive subjects for drug selection and treatment control.     

Submandibular responses to stimulation of the parasympathetic innervation in anesthetized sheep.

Submandibular secretory and vascular responses to stimulation of the parasympathetic innervation and the output of vasoactive intestinal peptide (VIP) were investigated in anaesthetized sheep in the presence and absence of atropine (>/=0.5 mg/kg). In the absence of atropine, parasympathetic stimulation caused an increase in the flow of saliva and a decrease in submandibular vascular resistance; the latter response persisted after the administration of atropine and was then significantly reduced at the lowest but not at the higher frequencies tested. The output of VIP from the gland was frequency dependent over the range of 10-20 Hz (continuously) and significantly increased after atropine (P < 0.02). Furthermore, the fall in vascular resistance was linearly related to log VIP output after total muscarinic blockade. Intracarotid infusions of synthetic VIP produced dose-dependent falls in submandibular vascular resistance, together with a corresponding increase in submandibular blood flow. It is concluded that the atropine-resistant vasodilatation that occurs in this gland during parasympathetic stimulation is likely to be due largely, if not entirely, to the release of VIP.