Maria-Cláudia Irigoyen scite author profile

Abstract-The protection from coronary events that young women have is sharply reduced at menopause. Oxidative stress and baroreflex sensitivity impairment of the circulation have been demonstrated to increase cardiovascular risk. On the other hand, exercise training has been indicated as a nonpharmacological treatment for many diseases. The aim of the present study was to test the hypothesis that exercise training can improve baroreflex sensitivity associated with reduction in oxidative stress in ovariectomized rats, an experimental model of menopause. Exercise training was performed on a treadmill for 8 weeks. Arterial pressure and baroreflex sensitivity, which were evaluated by tachycardic and bradycardic responses to changes in arterial pressure, were monitored. Oxidative stress was evaluated by chemiluminescence and superoxide dismutase and catalase antioxidant enzyme activities. Exercise training reduced resting mean arterial pressure (112Ϯ2 vs 122Ϯ3 mm Hg in the sedentary group) and heart rate (325Ϯ4 vs 356Ϯ12 bpm in the sedentary group) and also improved baroreflex sensitivity (tachycardic response, 63% and bradycardic response, 58%). Myocardium (25%) and gastrocnemius muscle (48%) chemiluminescence were reduced, and myocardial superoxide dismutase (44%) and gastrocnemius catalase (97%) activities were enhanced in trained rats in comparison with sedentary rats. Myocardium chemiluminescence was positively correlated with systolic arterial pressure (rϭ0.6) and inversely correlated with baroreflex sensitivity (tachycardic response, rϭϪ0.8 and bradycardic response, rϭϪ0.7). These results indicate that exercise training in ovariectomized rats improves resting hemodynamic status and reflex control of the circulation, probably associated with oxidative stress reduction, suggesting a homeostatic role for exercise training in reducing cardiovascular risk in postmenopausal women. Key Words: exercise Ⅲ baroreflex Ⅲ oxidative stress Ⅲ rat Ⅲ estrogen Ⅲ menopause M enopause has been associated with impairment of aerobic fitness, muscle strength, and bone mineral density, as well as an increase in body weight, type 2 diabetes, osteoporotic fractures, and cardiovascular disease (CVD). 1 Many CVD states are associated with baroreflex impairment, the most important short-term regulator of arterial blood pressure. Moreover, the baroreflex has been recognized as a marker of autonomic control and as a predictor of CV mortality. 2 Estrogen deprivation induces endothelial dysfunction and autonomic impairment and increases oxidative stress in fertile young women 3 and postmenopausal women, 4,5 thus increasing the CV risk. Oxidative stress has been implicated in the pathophysiology of a large number of diseases, and it plays a possible mechanistic role in baroreflex dysfunction, because antioxidant substances seem to improve baroreflex sensitivity (BRS) in different species. 6 -9 However, the role of oxidative stress on CV autonomic dysfunction during estrogen deprivation is not well understood.Since the Women's Health Initiative...

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Role of Exercise Training in Cardiovascular Autonomic Dysfunction and Mortality in Diabetic Ovariectomized Rats

Souza

Flues²,

Paulini³

et al. 2007

Hypertension

131

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Abstract-Diabetes and menopause markedly increase the risk of cardiovascular disease in women. The objective of the present study was to investigate the effects of exercise training on cardiovascular autonomic dysfunction and on total mortality in diabetic female rats undergoing ovarian hormone deprivation. Female Wistar rats were divided into ovariectomized groups: sedentary and trained controls and sedentary and trained diabetic rats (streptozotocin, 50 mg/kg IV). Trained groups were submitted to an exercise training protocol on a treadmill (8 weeks). The baroreflex sensitivity was evaluated by heart rate responses to arterial pressure changes. Heart rate variability was determined using the SD of the basal heart rate. Vagal and sympathetic tonus were evaluated by pharmacological blockade. Diabetes impaired baroreflex sensitivity (Ϸ55%), vagal tonus (Ϸ68%), and heart rate variability (Ϸ38%). Exercise training improved baroreflex sensitivity and heart rate variability in control and diabetic groups in relation to their sedentary groups. Trained control rats presented increased vagal tonus compared with that of sedentary ones. The sympathetic tonus was reduced in the trained diabetic group as compared with that of other studied groups. Significant correlations were obtained between heart rate variability and vagal tonus with baroreflex sensitivity. Mortality, assessed during the training period, was reduced in trained diabetic (25%) rats compared with mortality in sedentary diabetic rats (60%). Together, these findings suggest that decreases in baroreflex sensitivity and heart rate variability may be related to increased mortality in female diabetic subjects and that improved autonomic regulation induced by exercise training may contribute to decreased mortality in this population.

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Autonomic Dysfunction in Short-term Experimental Diabetes

et al. 1995

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Previous data showed that diabetes induced by streptozotocin for 5 days causes changes in arterial pressure control and baroreflex regulation of heart rate in male Wistar rats. The impairment of baroreflex may be related to autonomic neuropathy as described by several investigators. The aim of this study was to identify autonomic changes in short-term experimental diabetes in rats (induced for 5 days with streptozotocin 65 mg IP). Intra-arterial blood pressure signals were obtained from 6 control group and 7 diabetic group rats and processed in a data acquisition system (CODAS, 1 kHz). Both vagal and sympathetic function were assessed through intravenous injections of methylatropine and propranolol. Streptozotocin induced hyperglycemia (18.9 +/- 1.8 versus 5.8 +/- 0.2 mmol/L) and reductions in mean arterial pressure (102 +/- 2 versus 117 +/- 3 mm Hg) and resting heart rate (298 +/- 14 versus 332 +/- 2 beats per minute). Sodium and potassium levels were not different between groups. The intrinsic heart rate was reduced in the diabetic group (302 +/- 10 versus 398 +/- 6 beats per minute). This group also exhibited depressed vagal and sympathetic tone (50% and 22%, respectively), reduction of vagal effect (42%), and no change in sympathetic effect. In conclusion, early autonomic dysfunction in short-term streptozotocin-induced diabetes seems to be related to changes in arterial pressure and baroreflex control.

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Maximal exercise test is a useful method for physical capacity and oxygen consumption determination in streptozotocin-diabetic rats

Rodrigues

Figueroa

Mostarda

et al. 2007

Cardiovasc Diabetol

150

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Parasympathetic dysfunction is associated with insulin resistance in fructose-fed female rats

Brito

Ponciano

Figueroa

et al. 2008

Braz J Med Biol Res

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The objective of the present study was to identify metabolic, cardiovascular and autonomic changes induced by fructose overload administered in the drinking water of rats for 8 weeks. Female Wistar rats (200-220 g) were divided into 2 groups: control (N = 8) and fructose-fed rats (N = 5; 100 mg/L fructose in drinking water for 8 weeks). The autonomic control of heart rate was evaluated by pharmacological blockade using atropine (3 mg/kg) and propranolol (4 mg/kg). The animals were submitted to an intravenous insulin tolerance test (ITT) and to blood glucose measurement. The fructose overload induced a significant increase in body weight (~10%) and in fasting glycemia (~28%). The rate constant of glucose disappearance (KITT) during ITT was lower in fructose-fed rats (3.25 ± 0.7%/min) compared with controls (4.95 ± 0.3%/min, P < 0.05) indicating insulin resistance. The fructose-fed group presented increased arterial pressure compared to controls (122 ± 3 vs 108 ± 1 mmHg, P < 0.05) and a reduction in vagal tonus (31 ± 9 vs 55 ± 5 bpm in controls, P < 0.05). No changes in sympathetic tonus were observed. A positive correlation, tested by the Pearson correlation, was demonstrable between cardiac vagal tonus and KITT (r = 0.8, P = 0.02). These data provided new information regarding the role of parasympathetic dysfunction associated with insulin resistance in the development of early metabolic and cardiovascular alterations induced by a high fructose diet.

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