A Brief Review of Chronic Exercise Intervention to Prevent Autonomic Nervous System Changes During the Aging Process

The aging process is associated with alterations in the cardiovascular and autonomic nervous systems. Autonomic changes related to aging involve parasympathetic and sympathetic alterations leading to a higher incidence of cardiovascular disease morbidity and mortality. Several studies have suggested that physical exercise is effective in preventing deleterious changes. Chronic exercise in geriatrics seems to be associated with improvement in the cardiovascular system and seems to promote a healthy lifestyle. In this review, we address the major effects of aging on the autonomic nervous system in the context of cardiovascular control. We examine the use of chronic exercise to prevent cardiovascular changes during the aging process

Monosodium glutamate neonatal treatment induces cardiovascular autonomic function changes in rodents

OBJECTIVES: The aim of this study was to evaluate cardiovascular autonomic function in a rodent obesity model induced by monosodium glutamate injections during the first seven days of life. METHOD: The animals were assigned to control (control, n = 10) and monosodium glutamate (monosodium glutamate, n = 13) groups. Thirty-three weeks after birth, arterial and venous catheters were implanted for arterial pressure measurements, drug administration, and blood sampling. Baroreflex sensitivity was evaluated according to the tachycardic and bradycardic responses induced by sodium nitroprusside and phenylephrine infusion, respectively. Sympathetic and vagal effects were determined by administering methylatropine and propranolol. RESULTS: Body weight, Lee index, and epididymal white adipose tissue values were higher in the monosodium glutamate group in comparison to the control group. The monosodium glutamate-treated rats displayed insulin resistance, as shown by a reduced glucose/insulin index (-62.5%), an increased area under the curve of total insulin secretion during glucose overload (39.3%), and basal hyperinsulinemia. The mean arterial pressure values were higher in the monosodium glutamate rats, whereas heart rate variability (>;7 times), bradycardic responses (>;4 times), and vagal (~38%) and sympathetic effects (~36%) were reduced as compared to the control group. CONCLUSION: Our results suggest that obesity induced by neonatal monosodium glutamate treatment impairs cardiac autonomic function and most likely contributes to increased arterial pressure and insulin resistance

Association between anabolic steroids and aerobic physical training leads to cardiac morphological alterations and loss of ventricular function in rats

INTRODUÇÃO: O esteroide anabolizante (EA) associado ao treinamento físico induz mudança da hipertrofia cardíaca (HC) fisiológica para patológica. Entretanto, esses trabalhos foram realizados com atletas de força, sendo os efeitos do EA associados ao treinamento aeróbio poucos conhecidos. Com isso, o objetivo do estudo foi avaliar os efeitos do treinamento aeróbio e dos EA sobre a estrutura e função cardíaca. MÉTODOS: Foram utilizados 28 ratos Wistar divididos em quatro grupos: sedentários controle (SC), sedentários anabolizante (SA), treinados controle (TC) e treinado anabolizante (TA). O EA foi administrado duas vezes por semana (10mg/kg/ semana). O treinamento físico de natação foi realizado durante 10 semanas, cinco sessões semanais. Foram avaliadas a pressão arterial e frequência cardíaca por pletismografia de cauda, função ventricular por ecocardiografia, diâmetro dos cardiomiócitos e fração volume de colágeno por métodos histológicos. RESULTADOS: Não foram observadas diferenças na PA. O grupo TC apresentou redução da frequência cardíaca de repouso após o período experimental, o que não ocorreu no grupo TA. Foram observadas HC de 38% no grupo SA, 52% no grupo TC e de 64% no grupo TA em relação ao grupo SC. O grupo TA apresentou diminuição da função diastólica em relação aos outros grupos. Os grupos treinados apresentaram aumentos significantes no diâmetro dos cardiomiócitos. Os grupos SA e TA apresentaram aumento na fração volume de colágeno em relação aos grupos SC e TC. CONCLUSÃO: Os resultados apresentados mostram que o treinamento físico de natação induz a HC, principalmente pelo aumento do colágeno intersticial, o que pode levar a prejuízos da função diastólica.INTRODUCTION: Anabolic-androgen steroids (AAS) associated with physical training induce changes from physiological cardiac hypertrophy (CH) to pathological hypertrophy. However, these studies were performed with strength athletes, and the AAS effects associated with aerobic training are still poorly understood. Thus, the aim of this study was to evaluate the effects of aerobic training and AAS on the cardiac structure and function. METHODS: 28 Wistars rats divided in 4 groups were used: sedentary control (SC), sedentary anabolic (SA), trained control (TC) and trained anabolic (TA). The AAS was administered twice a week (10mg/Kg/week). The swimming training was conducted 5 sessions per week during 10 weeks. We evaluated blood pressure and heart rate by tail plethysmography, ventricular function by echocardiography, cardiomyocyte diameter and collagen volumetric fraction by histological methods. RESULTS: There were no differences in BP. TC group showed reduction in rest heart rate after the experimental period, which did not occur in TA group. CH of 38% in SA group; 52% in TC group and 64% in TA group compared to SC group was observed. TA group presented decrease in diastolic function in relation to other groups. The trained groups showed significant increases in cardiomyocytes diameter. SA and TA groups showed increase in collagen volumetric fraction in relation to SC and TC groups. CONCLUSION: The results show that AAS treatment associated to swimming training induces CH, mainly by the increase in interstitial collagen, which can lead to loss of diastolic function.Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES

Effects of a Competitive Season on Autonomic Heart Rate Modulation in Field Soccer Athletes

International Journal of Exercise Science 12(2): 1198-1205, 2019. The physical demands of soccer combined with the rigor of the competitive season may have a substantial impact on autonomic modulation in field soccer athletes. The number of sudden death cases associated with soccer may be related to the physical training required to maintain performance and fitness, minimal time for recovery, and recurrent game participation. It is possible to identify individuals at risk of cardiovascular events by measuring heart rate variability (HRV), which is an indirect method for assessing autonomic activity. Therefore, the objective of this study was to analyze HRV before and after a period of field soccer competition. We evaluated 17 healthy male professional field soccer athletes and 12 untrained controls. The HRV was analyzed during supine rest before and after a period of field soccer competition. The following parameters were evaluated: interval R wave variation (RR), standard deviation of normal–normal intervals (SDNN), Root-mean-square successive difference (RMSSD), low frequency component (LF), high-frequency component (HF) and sympathovagal balance (LF/HF). Results indicated that the RR (p\u3c .05, ES: 2.77), SDNN (p \u3c .05, ES: 1.70), LF (p\u3c .05, ES: 1.86), HF (pp\u3c .05, ES: 0.89) all decreased after the competition in the professional athletes with no change observed in the control group. In conclusion, the data suggest that a soccer competition negatively influences the autonomic regulation of heart rate

Monosodium glutamate neonatal treatment induces cardiovascular autonomic function changes in rodents

OBJECTIVES: The aim of this study was to evaluate cardiovascular autonomic function in a rodent obesity model induced by monosodium glutamate injections during the first seven days of life. METHOD: The animals were assigned to control (control, n = 10) and monosodium glutamate (monosodium glutamate, n = 13) groups. Thirty-three weeks after birth, arterial and venous catheters were implanted for arterial pressure measurements, drug administration, and blood sampling. Baroreflex sensitivity was evaluated according to the tachycardic and bradycardic responses induced by sodium nitroprusside and phenylephrine infusion, respectively. Sympathetic and vagal effects were determined by administering methylatropine and propranolol. RESULTS: Body weight, Lee index, and epididymal white adipose tissue values were higher in the monosodium glutamate group in comparison to the control group. The monosodium glutamate-treated rats displayed insulin resistance, as shown by a reduced glucose/insulin index (-62.5%), an increased area under the curve of total insulin secretion during glucose overload (39.3%), and basal hyperinsulinemia. The mean arterial pressure values were higher in the monosodium glutamate rats, whereas heart rate variability (.7 times), bradycardic responses (.4 times), and vagal (,38%) and sympathetic effects (,36%) were reduced as compared to the control group. CONCLUSION: Our results suggest that obesity induced by neonatal monosodium glutamate treatment impairs cardiac autonomic function and most likely contributes to increased arterial pressure and insulin resistance