Effects of physical training and potassium supplementation on blood pressure, glucose metabolism and albuminuria of spontaneously hypertensive rats.

INTRODUCTION: It is still controversial whether there are synergistic effects among different non-pharmacological interventions used in the treatment of hypertension. OBJECTIVES: To evaluate the effect of aerobic exercise, oral supplementation of potassium and their combination on blood pressure, glucose metabolism, urinary albumin excretion and glomerular morphology in spontaneously hypertensive rats (SHR). METHODS: SHR were divided into groups: Control Group (SHR; standard diet and sedentary, n = 10), Exercise Group (SHR + E; trained on a treadmill, standard diet, n = 10), Potassium Group (SHR + K; sedentary, potassium supplementation, n = 10) and Group Exercise + Potassium (SHR + E + K, exercise, potassium supplementation n = 10). Weekly, body weight (BW) and tail blood pressure (TAP) were measured. At the end of 16 weeks, a Oral Glucose Tolerance Test was performed. Albuminuria was determined in the baseline period, at 8th and at 16th week. After sacrifice, the analysis of glomerular sclerosis index and visceral fat weight was performed. RESULTS: The TAP and BW did not change significantly. There was improvement in insulin sensitivity in SHR + E and SHR + K, but not in SHR + E + K. At week 16, albuminuria in all groups was significantly lower than the SHR control. The glomerular sclerosis index and visceral fat content were also significantly lower in all groups compared to control. CONCLUSION: An oral supplementation of potassium and exercise led to an improvement in glucose metabolism, in albuminuria and glomerular morphology, however, the overlap of the treatments did not show synergism.

Efeito do exercício físico e suplementação de potássio sobre a pressão arterial, metabolismo glicídico e albuminúria de ratos hipertensos / Effects of physical training and potassium supplementation on blood pressure, glucose metabolism and albuminuria of spontaneously hypertensive rats

Introdução: Ainda é controverso se ocorre sinergismo entre as diferentes medidas não farmacológicas utilizadas no tratamento da hipertensão arterial. Objetivo: Avaliar o efeito do exercício físico aeróbico, da sobrecarga oral de potássio e da sua associação sobre a pressão arterial, metabolismo glicídico, excreção urinária de albumina e morfologia glomerular de ratos espontaneamente hipertensos (SHR). Métodos: SHRs foram divididos em: Grupo Controle (SHR; dieta padrão e sedentário, n = 10); Grupo Exercício (SHR + E; treinado em esteira rolante, dieta padrão, n = 10), Grupo Potássio (SHR + K; sedentário, dieta rica em potássio, n = 10) e Grupo Exercício + Potássio (SHR + E + K; exercitado, dieta rica em potássio, n = 10). Semanalmente, foi aferido o peso corporal (PC) e a pressão arterial de cauda (PAC). Ao final de 16 semanas, foi realizado o Teste de Tolerância oral a Glicose. A albuminúria foi determinada nos períodos basal, na 8ª e 16ª semana. Após o sacrifício, foi realizada a análise do índice de esclerose glomerular e a pesagem da gordura visceral. Resultados: A PAC e o PC não variaram significativamente. Houve melhora da sensibilidade à insulina no Grupo Exercício e Grupo Potássio, mas não no Grupo Exercício + Potássio. Na 16ª semana, a albuminúria de todos os grupos foi significativamente menor que o grupo SHR Controle. O índice de esclerose glomerular e o peso da gordura visceral também foram significativamente menores em todos os grupos tratados quando comparados ao controle. Conclusão: A dieta rica em potássio e o exercício físico determinaram melhora no metabolismo glicídico, na albuminúria e na morfologia glomerular, porém, a sobreposição ...

Introduction: It is still controversial whether there are synergistic effects among different non-pharmacological interventions used in the treatment of hypertension. Objetives: To evaluate the effect of aerobic exercise, oral supplementation of potassium and their combination on blood pressure, glucose metabolism, urinary albumin excretion and glomerular morphology in spontaneously hypertensive rats (SHR). Methods: SHR were divided into groups: Control Group (SHR; standard diet and sedentary, n = 10), Exercise Group (SHR + E; trained on a treadmill, standard diet, n = 10), Potassium Group (SHR + K; sedentary, potassium supplementation, n = 10) and Group Exercise + Potassium (SHR + E + K, exercise, potassium supplementation n = 10). Weekly, body weight (BW) and tail blood pressure (TAP) were measured. At the end of 16 weeks, a Oral Glucose Tolerance Test was performed. Albuminuria was determined in the baseline period, at 8th and at 16th week. After sacrifice, the analysis of glomerular sclerosis index and visceral fat weight was performed. Results: The TAP and BW did not change significantly. There was improvement in insulin sensitivity in SHR + E and SHR + K, but not in SHR + E + K. At week 16, albuminuria in all groups was significantly lower than the SHR control. The glomerular sclerosis index and visceral fat content were also significantly lower in all groups compared to control. Conclusion: An oral supplementation of potassium and exercise led to an improvement in glucose metabolism, in albuminuria and glomerular morphology, however, the overlap of the treatments did not show synergism. .

[Effects of the overlapping between an experimental model of neuroendocrine obesity with arterial hypertension under blood pressure, body weight and metabolic and renal parameters in rats]. / Efeito da sobreposição de um modelo de obesidade neuroendócrina experimental e hipertensão arterial sobre a pressão arterial, peso corporal e parâmetros metabólicos e renais de ratos.

INTRODUCTION: Increased body mass index and the metabolic syndrome are associated with decreased renal function and the development of end-stage kidney disease. OBJECTIVE: To evaluate the effect of the overlap between an experimental model of obesity and genetic hypertension on the blood pressure, body weight and metabolic and kidney parameters of rats. METHODS: We studied male rats of the Wistar (WST) and spontaneously hypertensive rats (SHR) strains. Monosodium glutamate (MSG) was administered in the neonatal period to both strains, to make up two groups: WST + MSG and SHR + MSG. Animals in the control groups (WST and SHR) received saline. After completing three months of life, a 12-week follow-up period ensued, during which bi-weekly measurements of body weight (BW) and tail-cuff blood pressure (TCBP) were obtained. Microalbuminuria was analyzed at weeks 0, 4, 8 and 12. At the end of the follow-up period, blood was obtained for fasting glucose, plasma creatinine, and lipid profile determinations. The kidneys were removed, stained, and the glomerular sclerosis index was calculated. RESULTS: The administration of MSG produced higher percentage body weight gain, higher fasting blood glucose and a higher degree of glomerular injury in WST-MSG and MSG-SHR rats, compared to their controls. Greater urinary albumin excretion was observed in SHR + MSG rats, when compared to SHR. There was no statistical difference in the TCBP, creatinine, and lipid profile. CONCLUSIONS: The association of neuroendocrine obesity and arterial hypertension promoted morphological and functional changes in the glomerulus. These changes were more severe than those observed in hypertensive-only rats.

Efeito da sobreposição de um modelo de obesidade neuroendócrina experimental e hipertensão arterial sobre a pressão arterial, peso corporal e parâmetros metabólicos e renais de ratos / Effects of the overlapping between an experimental model of neuroendocrine obesity with arterial hypertension under blood pressure, body weight and metabolic and renal parameters in rats

INTRODUÇÃO: A elevação do índice de massa corporaleapresençadesíndromemetabólica se associam com diminuição da função renal e o aparecimento de doença renal terminal. OBJETIVO: Avaliar o efeito da sobreposição de um modelo de obesidade experimental e hipertensão arterial sobre a pressão arterial, peso corporal e parâmetros metabólicos e renais de ratos. MÉTODOS: Foram estudados ratos machos das cepas Wistar e espontaneamente hipertensos (SHR). Os grupos MSG receberam glutamato monossódico no período neonatal (WST + MSG e SHR + MSG). Os animais controles receberam salina no período neonatal (WST e SHR). Após completarem três meses de vida, por 12 semanas foram pesados e tiveram a pressão arterial de cauda aferida semanalmente. A determinação de microalbuminúria foi realizada nas semanas 0, 4, 8 e 12. Ao final do período de acompanhamento, coletou-se sangue para glicemia de jejum, creatinina e perfil lipídico. Os rins foram retirados, corados e o índice de esclerose glomerular foi calculado. RESULTADOS: A administração de MSG produziu maior ganho percentual de peso corporal, elevação da glicemia de jejum e maior grau de lesão glomerular nos ratos WST -MSG e SHR -MSG quando comparados aos seus controles. Houve maior excreção urinária de albumina nos ratos do Grupo SHR + MSG quando comparados aos SHR. Não houve diferença estatística na pressão arterial de cauda, creatinina e parâmetros do metabolismo lipídico. CONCLUSÕES: A associação de obesidade neuroendócrina e a hipertensão arterial promoveram alterações morfológicas e funcionais no glomérulo mais severas do que aquelas observadas nos ratos somente hipertensos.

INTRODUCTION: Increased body mass index and the metabolic syndrome are associated with decreased renal function and the development of end-stage kidney disease. OBJECTIVE: To evaluate the effect of the overlap between an experimental model of obesity and genetic hypertension on the blood pressure, body weight and metabolic and kidney parameters of rats. METHODS: We studied male rats of the Wistar (WST) and spontaneously hypertensive rats (SHR) strains. Monosodium glutamate (MSG) was administered in the neonatal period to both strains, to make up two groups: WST + MSG and SHR + MSG. Animals in the control groups (WST and SHR) received saline. After completing three months of life, a 12-week follow-up period ensued, during which bi-weekly measurements of body weight (BW) and tail-cuff blood pressure (TCBP) were obtained. Microalbuminuria was analyzed at weeks 0, 4, 8 and 12. At the end of the follow-up period, blood was obtained for fasting glucose, plasma creatinine, and lipid profile determinations. The kidneys were removed, stained, and the glomerular sclerosis index was calculated. RESULTS: The administration of MSG produced higher percentage body weight gain, higher fasting blood glucose and a higher degree of glomerular injury in WST-MSG and MSG-SHR rats, compared to their controls. Greater urinary albumin excretion was observed in SHR + MSG rats, when compared to SHR. There was no statistical difference in the TCBP, creatinine, and lipid profile. CONCLUSIONS: The association of neuroendocrine obesity and arterial hypertension promoted morphological and functional changes in the glomerulus. These changes were more severe than those observed in hypertensive-only rats.

Hemodinâmica sistêmica e função ventricular esquerda de ratos hipertensos tornados diabéticos / Systemic hemodynamic and left ventricular function of diabetic-induced hypertensive rats

OBJETIVO: Avaliar a indução do diabetes melito tipo 1 (DM1) na hemodinâmica sistêmica e função ventricular de ratos normotensos e hipertensos. MATERIAIS E MÉTODOS: O DM1 foi induzido por estreptozotocina em ratos Wistar (WST), borderline hypertensive rats (BHR) e spontaneously hypertensive rats (SHR). A hemodinâmica sistêmica foi avaliada por termodiluição e a função ventricular, pela preparação de Langendorff. RESULTADOS: A indução de DM1 produziu aumento na pressão arterial de WST e BHR. O DM1 determinou aumento na resistência periférica total no grupo WST e diminuição do débito cardíaco e do volume sistólico nos grupos WST e BHR. Índices de função sistólica foram reduzidos e a rigidez ventricular, apenas nos ratos WST diabéticos. Todos esses efeitos foram mais proeminentes nos ratos WST diabéticos. CONCLUSÃO: O DM1 foi acompanhado por importantes alterações nas funções sistólica e diastólica, levando a uma diminuição nos valores hemodinâmicos sistêmicos que não foram alterados pela hipertensão arterial.

OBJECTIVE: To analyze the effects of type-1 diabetes mellitus (DM1) induction on systemic hemodynamic and ventricular function of normotensive and hypertensive rats. MATERIALS AND METHODS: DM1 was induced by streptozotocin in Wistar rats (WST), borderline hypertensive rats (BHR) and spontaneously hypertensive rats (SHR). The systemic hemodynamic was evaluated by thermodilution and ventricular function by Langendorff preparation. RESULTS: DM1-induction increased tail arterial pressure of WST and BHR. DM1 also increased total peripheral resistance in WST and decrease in cardiac output stroke volume in WST and BHR. Systolic function indexes were reduced and ventricular stiffness increased in all WST-diabetic rats. All of these effects were more prominent on diabetic WST rats. CONCLUSION: The DM1 in rats was accompanied by important changes in both systolic and diastolic heart function leading to significant changes in the systemic hemodynamics that were not significantly enhanced by hypertension.

Effects of the association of experimental neuroendocrine and exocrine obesity on tail blood pressure and glucose metabolism in Wistar rats.

OBJECTIVE: To study two different models of obesity, exocrine and endocrine, and its association on tail arterial pressure (TAP), body weight (BW), glucose metabolism and visceral fat content. METHODS: Male Wistar rats were studied. The MSG group was composed by rats that received of MSG in neonatal period. At the 3rd month of life, part of these animals received cafeteria diet. Animals received saline control in the neonatal period. In the 12 weeks of study, body weight and blood pressure were measured twice a week. In the end of this period on, Oral Glucose Tolerance Test (OGTT) was performed and the Insulin Sensitivity Index (ISI) was calculated, also the left Relative Ventricular Weight (RLW) and Relative Epididimal Fat Weight (REFW) were obtained. RESULTS: No changes on BW and TAP were verified. The obesity induced by MSG and CAF, individually, let to increases on insulin resistance (WST = 23,25 ± 9,31; CAF = 15,92 ± 9,10*; MSG = 13,41 ± 3,84* mg-1mU-1, p < 0,05 vs WST) and relative epididimal fat content (WST = 6,20 ± 0,57; CAF = 8,27 ± 1,53*; MSG = 8,23 ± 1,98* g/100 g, *p < 0,05) when these rats were compared to control rats. An enhanced effect upon these parameters was observed with the association of both obesity models (MSG+CAF = 9,34 ± 5,77 mg-1mU-1, p < 0,05 vs MSG and CAF) and visceral fat content (MSG+CAF = 11,12 ± 3,85 g/100g, p < 0,05 vs MSG and CAF). CONCLUSION: The association of these two experimental models of obesity aggravates insulin resistance that probably is due at least in part to the increase of visceral fat content.

Efeito da associação entre obesidade neuroendócrina e exócrina experimental sobre a pressão arterial de cauda e o metabolismo de glicose de ratos Wistar / Effects of the association of experimental neuroendocrine and exocrine obesity on tail blood pressure and glucose metabolism in Wistar rats

OBJETIVO: Estudar dois modelos de obesidade, exócrina e endócrina, e sua associação sobre a pressão arterial de cauda (PAC), o peso corporal (PC), o metabolismo glicídico (ISI) e gordura epididimal relativa (GER). MÉTODOS: Foram estudados ratos machos da cepa Wistar. O grupo MSG recebeu glutamato monossódico no período neonatal. Aos 3 meses de idade parte desses animais passou a receber dieta cafeteria (CAF). Os animais receberam controle salina no período neonatal. Durante 12 semanas foram pesados (PC) e tiveram a pressão arterial de cauda (PAC) aferida. O Teste de Tolerância Oral à Glicose foi realizado e o Índice de Sensibilidade à Insulina (ISI), calculado. O peso ventricular relativo (PVR) e a gordura epididimal relativa (GER) também foram calculados. RESULTADOS: Não se verificou alterações no PC e na PAC. A obesidade induzida pela administração de MSG e CAF, isoladamente, promoveu aumento da resistência à insulina (WST = 23,25 ± 9,31; CAF = 15,92 ± 9,10*; MSG = 13,41 ± 3,84* mg-1mU-1, p < 0,05 vs WST) e da gordura visceral (WST = 6,20 ± 0,57; CAF = 8,27 ± 1,53*; MSG = 8,23 ± 1,98* g/100 g, *p < 0,05), quando esses animais foram comparados com os controles. A associação de ambos os modelos de obesidade produziu um efeito sinérgico sobre a resistência à insulina (MSG+CAF = 9,34 ± 5,77 mg-1mU-1, p<0,05 vs MSG e CAF) e sobre o conteúdo de gordura visceral (MSG+CAF = 11,12 ± 3,85 g/100g, p < 0,05 vs MSG e CAF). CONCLUSÃO : A associação de dois modelos de obesidade agrava a resistência à insulina e esse fato pode ser atribuído pelo menos em parte ao aumento da GER.

OBJECTIVE: To study two different models of obesity, exocrine and endocrine, and its association on tail arterial pressure (TAP), body weight (BW), glucose metabolism and visceral fat content. METHODS: Male Wistar rats were studied. The MSG group was composed by rats that received of MSG in neonatal period. At the 3rd month of life, part of these animals received cafeteria diet. Animals received saline control in the neonatal period. In the 12 weeks of study, body weight and blood pressure were measured twice a week. In the end of this period on, Oral Glucose Tolerance Test (OGTT) was performed and the Insulin Sensitivity Index (ISI) was calculated, also the left Relative Ventricular Weight (RLW) and Relative Epididimal Fat Weight (REFW) were obtained. RESULTS: No changes on BW and TAP were verified. The obesity induced by MSG and CAF, individually, let to increases on insulin resistance (WST = 23,25 ± 9,31; CAF = 15,92 ± 9,10*; MSG = 13,41 ± 3,84* mg-1mU-1, p < 0,05 vs WST) and relative epididimal fat content (WST = 6,20 ± 0,57; CAF = 8,27 ± 1,53*; MSG = 8,23 ± 1,98* g/100 g, *p < 0,05) when these rats were compared to control rats. An enhanced effect upon these parameters was observed with the association of both obesity models (MSG+CAF = 9,34 ± 5,77 mg-1mU-1, p < 0,05 vs MSG and CAF) and visceral fat content (MSG+CAF = 11,12 ± 3,85 g/100g, p < 0,05 vs MSG and CAF). CONCLUSION: The association of these two experimental models of obesity aggravates insulin resistance that probably is due at least in part to the increase of visceral fat content.

[Systemic hemodynamic and left ventricular function of diabetic-induced hypertensive rats]. / Hemodinâmica sistêmica e função ventricular esquerda de ratos hipertensos tornados diabéticos.

OBJECTIVE: To analyze the effects of type-1 diabetes mellitus (DM1) induction on systemic hemodynamic and ventricular function of normotensive and hypertensive rats. MATERIALS AND METHODS: DM1 was induced by streptozotocin in Wistar rats (WST), borderline hypertensive rats (BHR) and spontaneously hypertensive rats (SHR). The systemic hemodynamic was evaluated by thermodilution and ventricular function by Langendorff preparation. RESULTS: DM1-induction increased tail arterial pressure of WST and BHR. DM1 also increased total peripheral resistance in WST and decrease in cardiac output stroke volume in WST and BHR. Systolic function indexes were reduced and ventricular stiffness increased in all WST-diabetic rats. All of these effects were more prominent on diabetic WST rats. CONCLUSION: The DM1 in rats was accompanied by important changes in both systolic and diastolic heart function leading to significant changes in the systemic hemodynamics that were not significantly enhanced by hypertension.

[Experimental models of insulin resistance and obesity: lessons learned]. / Modelos experimentais de resistência à insulina e obesidade: lições aprendidas.

For better understanding the role of each element involved in the physiopathology of obesity and insulin resistance, researchers can use experimental models, which may in controlled manner evaluate the participation of each element on the obesity and insulin resistance and provide information for better understanding the physiopathology and treatment of obesity and insulin resistance. Experimental obesity and insulin resistance can be due to a deficient response to leptin, secondary to hypoleptinemia and/or mutations on leptin receptor, by modifications on insulin receptor, deletion or diminished insulin signal transduction, enhancement of the effects of orexigen peptides and/or diminution of anorexigen peptides actions on hypothalamus, as well as secondary to arterial hypertension, as in the spontaneously hypertension. Obesity and insulin resistance can also be induced by glucocorticoid excess, frutose enriched and cafeteria diet and due to hypothalamus lesions induced by neonatal administration of monossodium glutamate.

Modelos experimentais de resistência à insulina e obesidade: lições aprendidas / Experimental models of insulin resistance and obesity: lessons learned

Para melhor compreender o papel de cada um dos elementos envolvidos na fisiopatologia da obesidade e da resistência à insulina, pesquisadores utilizam-se de modelos experimentais, que podem determinar de maneira controlada o papel de cada um dos componentes da resistência à insulina e obesidade e, desta maneira, fornecer subsídios para a melhor compreensão da fisiopatolologia e tratamento da resistência à insulina e obesidade. A obesidade e a resistência à insulina experimentais podem ser verificadas quando ocorre diminuição da resposta à leptina, seja por menor produção ou alteração no seu receptor, modificações no receptor de insulina, por deleção do receptor ou alteração da transdução dos seu sinal, exacerbação do efeito de peptídeos orexígenos e/ou menor ação de peptídeos anorexígenos no hipotálamo, ou ainda secundária à hipertensão arterial, como nos ratos espontaneamente hipertensos. O excesso de glicocorticóides, a adição de uma dieta rica em frutose, ou ainda uma dieta hipercalórica, além da lesão hipotalâmica induzida pela administração neonatal de monoglutamato de sódio, são exemplos de obesidade e resistência à insulina induzidos.

For better understanding the role of each element involved in the physiopathology of obesity and insulin resistance, researchers can use experimental models, which may in controlled manner evaluate the participation of each element on the obesity and insulin resistance and provide information for better understanding the physiopathology and treatment of obesity and insulin resistance. Experimental obesity and insulin resistance can be due to a deficient response to leptin, secondary to hypoleptinemia and/or mutations on leptin receptor, by modifications on insulin receptor, deletion or diminished insulin signal transduction, enhancement of the effects of orexigen peptides and/or diminution of anorexigen peptides actions on hypothalamus, as well as secondary to arterial hypertension, as in the spontaneously hypertension. Obesity and insulin resistance can also be induced by glucocorticoid excess, frutose enriched and cafeteria diet and due to hypothalamus lesions induced by neonatal administration of monossodium glutamate.

Hemodinâmica e funçäo cardíaca no diabete melito experimental isolado ou associado à hipertensäo genética / Systemic hemodynamics and heart function in experimental diabetes mellitus alone or associated with genetic hypertension

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