E. Stupnicka scite author profile

Diurnal variations in the plasma cortisol level were studied in anoestrous, pro-oestrous and pregnant ewes subjected to weak electric stimulation of the forelimbs 9 h daily for 3 consecutive days. In non-pregnant ewes the cortisol level rose on each of the 3 days when the stimulation was applied and then decreased on the day following the stimulation. A similar decrease in plasma cortisol concentrations in pregnant ewes appeared on the second day of footshocking. The acrophase of the circadian rhythm on electrostimulation days was synchronous with the time of application of footshocks; therefore, in stimulated ewes it was significantly accelerated compared to the prestimulatory day. A decrease in the plasma cortisol level in pro-oestrous and pregnant ewes was accompanied by disappearance of its normal rhythmicity. Since a normal plasma cortisol response to exogenous corticotrophin was noted after 3 days of foot\x=req-\ shocking it seems unlikely that the decrease in the cortisol level after prolonged stress was caused by exhaustion of the adrenal cortex. Some central mechanisms which could account for the biphasic changes in the plasma cortisol level and for disturbances of the hormone diurnal rhythmicity under conditions of prolonged stress are discussed.Although considerable attention has been given to the effect of acute stress on the secretion of hvpophvsial and adrenal hormones, the influence of prolonged or chronic stress has been studied much less extensively, and contradictory results are re¬ ported in the literature. Dallman & Jones (1973) described, in immobilized male rats, a biphasic Requests for reprints to Dr. E. Domanski. variation of the plasma corticosterone level consist¬ ing of a rise during the first hour of restraint and a decrease after 4 h. On the other hand, Mikulaj et al. (1974) andTaché et al. (1976) showed that longterm stressing procedures increased adrenocortical activity in rats when applied for several days. In particular. Taché et al. (1976) found a progressive elevation of the plasma corticosterone level in male rats which were immobilized 8 h daily for 6 days.In previous studies we found that prolonged footshock disturbed oestrous cycles when admini¬ stered during 24 h to female rats (Chomicka et al., unpublished data) or during 9 h dailv up to 4 days in sheep (Przekop et al. 1984). The effect of stress on reproductive function was found to depend on the oestrous phase of its administration. These results prompted us to compare the effect of prolonged footshock on plasma cortisol levels, the classical index of responsiveness to stress, in anoestrous, pro-oestrous and pregnant ewes. Materials and Methods AnimahTwenty-six Polish Merino ewes 2.5-3.5 years old were used in this study. Thev were kept singly in 2 x 2 m compartments under natural light conditions, fed hay and concentrates and water ad libitum. In winter ambient temperature was maintained at 14 ± 2°C. Each animal bore an indwelling catheter in the jugular vein for drawing blood samples

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Physiological characteristics and hormonal profile of young normotensive men with exaggerated blood pressure response to exercise

Nazar

Kaciuba-Uściłko

Ziemba

et al. 1997

Clinical Physiology

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Exaggerated blood pressure (BP) response to exercise in normotensive subjects is considered as a predictor of future hypertension. The aim of the study was to find out whether elevated BP response to exercise is associated with any other haemodynamic, metabolic or hormonal abnormalities. Abnormal BP response to exercise, i.e. systolic BP (SBP) > 200 mmHg at 150 W or lower workload, was found in 37 out of 180 normotensive, male students, aged 20-24 years. Fifteen students with elevated exercise BP (group E) volunteered for further examinations. Their resting and ambulatory BP showed high normal values. Eight of them had a family history of hypertension. Four subjects met the criteria of cardiac hypertrophy. Significant correlations were found between exercise SBP and left ventricular mass index, average 24 h and daytime SBP recordings. In comparison with normal subjects of the same age (group N, n = 13), those from group E did not differ in body mass index, plasma lipid profile, fasting glucose, insulin and catecholamine (CA) concentrations, but had increased erythrocyte sodium content, slightly elevated plasma renin activity and cortisol level. During exercise, E subjects showed greater cardiac output (CO) increases with normal heart rate, total peripheral resistance (TPR) and plasma CA. There were no significant differences between groups in haemodynamic and plasma CA responses to posture change from supine to standing. Glucose ingestion (75 g) caused smaller increases in CO and smaller decreases in TPR in E than in N subjects without differences in BP, blood glucose plasma insulin and CA. It is concluded that young normotensive men with exaggerated BP response to exercise show some other characteristics that may be considered as markers of predisposition to hypertension or factors promoting the development of hypertension.

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Metabolic, body temperature and hormonal responses to repeated periods of prolonged cycle-ergometer exercise in men

Kaciuba-Uściłko

Kruk

Szczypaczewska

et al. 1992

Europ. J. Appl. Physiol.

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This study was designed to find out whether rest intervals and prevention of dehydration during prolonged exercise inhibit a drift in metabolic rate, body temperature and hormonal response typically occurring during continuous work. For this purpose in ten healthy men the heart rate (fc), rectal temperature (Tre), oxygen uptake (VO2), as well as blood metabolite and some hormone concentrations were measured during 2-h exercise at approximately 50% maximal oxygen uptake split into four equal parts by 30-min rest intervals during which body water losses were replaced. During each 30-min exercise period there was a rapid change in Tre and fc superimposed on which, these values increased progressively in consecutive exercise periods (slow drift). The VO2 showed similar changes but there were no significant differences in the respiratory exchange ratio, pulmonary ventilation, mechanical efficiency and plasma osmolality between successive periods of exercise. Blood glucose, insulin and C-peptide concentrations decreased in consecutive exercise periods, whereas plasma free fatty acid, glycerol, catecholamine, growth hormone and glucagon concentrations increased. Blood lactate concentrations did not show any regular drift and the plasma cortisol concentration decreased during the first two exercise periods and then increased. In conclusion, in spite of the relatively long rest intervals between the periods of prolonged exercise and the prevention of dehydration several physiological and hormonal variables showed a distinct drift with time. It is suggested that the slow drift in metabolic rate could have been attributable in the main to the increased concentrations of heat liberating hormones.

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Cardiovascular and sympatho-adrenal responses to static handgrip performed with one and two hands

Grucza

Kahn

Cybulski

et al. 1989

Europ. J. Appl. Physiol.

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12 healthy men aged 21-25 years performed, in the sitting position, a sustained handgrip at 25% of their maximum voluntary contraction, first with each hand separately and then with both hands simultaneously. Heart rate (HR), systolic blood pressure (SBP), stroke volume (determined reographically) and plasma catecholamine concentration were measured during each handgrip test. The HR and SBP increased consistently during each handgrip test while stroke volume decreased by approximately 20% of the initial value. Cardiac output did not change significantly. There were no significant differences in the magnitude and dynamics of the cardiovascular responses between the tests with one and with both hands. Plasma noradrenaline and adrenaline levels showed similar elevations in response to handgrip performed with the right hand and with both hands, while during the exercise performed with the left hand the increase in the plasma catecholamine concentration was less pronounced. It was concluded that: (1) during sustained handgrip, performed in the sitting position by young healthy subjects, the stroke volume markedly decreases and cardiac output does not change significantly in spite of the increased HR; (2) the cardiovascular and sympatho-adrenal responses to static handgrip do not depend on the mass of contracting muscle when the same relative tension is developed.

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E. Stupnicka

The transformation of testosterone into dihydrotestosterone by the brain and the anterior pituitary

Changes in circadian rhythm and suppression of the plasma cortisol level after prolonged stress in the sheep

Physiological characteristics and hormonal profile of young normotensive men with exaggerated blood pressure response to exercise

Metabolic, body temperature and hormonal responses to repeated periods of prolonged cycle-ergometer exercise in men

Cardiovascular and sympatho-adrenal responses to static handgrip performed with one and two hands

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