Author: "Paulo Roberto Dos Santos Amorim" / Journal: arquivos brasileiros de cardiologia - Searchworks@Jio Institute Digital Library Search Results

1. Treinamento em natação atenua a disfução contrátil de cardiomiócitos de ratos diabéticos Entrenamiento en natación atenúa la disfunción contráctil de cardiomiocitos de ratones diabéticos Swimming training attenuates contractile dysfunction in diabetic rat cardiomyocytes

Author: Márcia Ferreira da Silva, Maria do Carmo Gouveia Pelúzio, Paulo Roberto dos Santos Amorim, Vitor Neiva Lavorato, Natália Pereira do Santos, Luiz Henrique Marchesi Bozi, Arlete Rita Penitente, Daniel Luciano Falkoski, Felipe Gomes Berfort, and Antonio Jose Natali
Subjects: Natación, esfuerzo físico, miocitos cardíacos, ratones, diabetes mellitus, Natação, esforço físico, miócitos cardíacos, ratos, diabete melito, Swimming, physical exertion, myocytes, cardiac, rats, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract: FUNDAMENTO: O diabete experimental promove disfunção contrátil em cardiomiócitos, mas os efeitos do treinamento em natação nesta disfunção não são conhecidos. OBJETIVO: Testar os efeitos de um programa de treino em natação (PTN) sobre a disfunção contrátil de cardiomiócitos de ratos com diabete experimental. MÉTODOS: Ratos Wistar (idade: 30 dias; peso corporal médio: 84,19 g) com diabete induzida por estreptozotocina (60 mg/kg de peso corporal; glicemia > 300 mg/dl) foram alocados em diabéticos sedentários (DS, n = 10) e diabéticos exercitados (DE, n = 13). Animais da mesma idade e peso serviram de controles sedentários (CS, n = 10) e controles exercitados (CE, n = 06). Os animais DE e CE foram submetidos a um PTN (05 dias/semana, 90 min/dia), por 08 semanas. Os miócitos do ventrículo esquerdo (VE) foram isolados e estimulados eletricamente a 3,0 Hz em temperatura ambiente (∼ 25º C). RESULTADOS: O diabete reduziu a função contrátil nos cardiomiócitos dos animais em relação aos controles (i.e., menor amplitude de contração, maior tempo de contração e relaxamento). O PTN atenuou a redução na amplitude de contração (CS, 11 ± 0,2% vs DE, 11,6 ± 0,2%), o tempo para o pico de contração (CS, 319 ± 5,8 ms vs DE, 333 ± 4,8 ms) e o tempo para 50% de relaxamento (CS, 619 ± 22,2 ms vs DE, 698 ± 18,6 ms) dos cardiomiócitos dos animais diabéticos. O diabete reduziu as dimensões dos cardiomiócitos, porém, o PTN minimizou a redução da largura e volume celular, sem alterar o comprimento. CONCLUSÃO: O programa de treino em natação atenuou a disfunção contrátil dos miócitos do VE de ratos com diabete experimental.FUNDAMENTO: La diabetes experimental promueve el trastorno contráctil de los cardiomiocitos, pero los efectos del entrenamiento en natación en este trastorno no se conocen. OBJETIVO: Probar los efectos de un programa de capacitación en natación (PTN) sobre el trastorno contráctil de cardiomiocitos de ratas con diabetes experimental. MÉTODOS: Ratas Wistar (edad: 30 días, peso corporal medio: 84,19 g) con diabetes inducida por estreptozotocina (60 mg/kg de peso corporal, glucosa > 300 mg/dl) fueron divididos en diabéticos sedentarios (DS, n = 10) y diabéticos ejercitados (DE, n = 13). Animales de la misma edad y peso sirvieron de controles sedentarios (CS, n = 10) y controles ejercitados (CE, n = 06). Los animales DE y CE se sometieron a un PTN (05 días/semana, 90 min/día), por 08 semanas. Los miocitos del ventrículo izquierdo (VI) fueron aislados y estimulados eléctricamente a 3,0 Hz en temperatura ambiente (~ 25º C). RESULTADOS: La diabetes disminuyó la función contráctil de los cardiomiocitos de los animales en comparación con los controles (es decir, menor amplitud de la contracción, la duración de la contracción y relajación). El PTN atenuó la reducción de la amplitud de la contracción (CS, 11 ± 0,2% frente a la DE, 11,6 ± 0,2%), el tiempo para la contracción máxima (CS, 319 ± 5,8 ms vs DE, 333 ± 4,8 ms) y el tiempo para el 50% de relajación (CS, 619 ± 22,2 ms vs DE, 698 ± 18,6 ms) de los cardiomiocitos de los animales diabéticos. La diabetes redujo las dimensiones de los cardiomiocitos, sin embargo, el PTN minimizó la reducción de la anchura y volumen celular, sin cambiar la longitud. CONCLUSIÓN: El programa de entrenamiento de natación atenuó la disfunción contráctil de los miocitos del VI de las ratas con diabetes experimental.BACKGROUND: Experimental diabetes promotes contractile dysfunction in cardiomyocytes, but the effects of swimming in this disorder are not known. OBJECTIVE: To test the effects of a swimming training program (STP) on cardiomyocyte contractile dysfunction in rats with experimental diabetes. METHODS: Wistar rats (age: 30 days; mean body weight: 84.19 g) with diabetes induced by streptozotocin (60 mg/kg body weight; glucose > 300 mg/dl) were divided into sedentary diabetic rats (SD, n = 10) and exercised diabetic rats (ED, n = 13). Animals of same age and weight served as sedentary controls (SC, n = 10) and exercised controls (EC, n = 06). Animals and ED and EC underwent a STP (05 days/week, 90 min/day) for 08 weeks. Left ventricular (LV) myocytes were isolated and electrically stimulated at 3.0 Hz at room temperature (∼ 25º C). RESULTS: Diabetes reduced contractile function in cardiomyocytes of animals compared to controls (i.e., lower amplitude of contraction, longer duration of contraction and relaxation). The STP attenuated the reduced amplitude of contraction (SC, 11 ± 0.2% vs ED, 11.6 ± 0.2%), time to peak contraction (SC, 319 ± 5.8 ms vs ED, 333 ± 4.8 ms) and time to 50.0% of relaxation (SC, 619 ± 22.2 ms vs ED 698 ± 18.6 ms) of cardiomyocytes of diabetic rats. Diabetes reduced the size of cardiomyocytes, however, the STP minimized the reduction of cell volume and width, without changing length. CONCLUSION: The swimming training program attenuated the contractile dysfunction of the LV myocytes of rats with experimental diabetes.
Published: 2011

2. Swimming training attenuates contractile dysfunction in diabetic rat cardiomyocytes

Author: Márcia Ferreira da, Silva, Maria do Carmo Gouveia, Pelúzio, Paulo Roberto dos Santos, Amorim, Vitor Neiva, Lavorato, Natália Pereira do, Santos, Luiz Henrique Marchesi, Bozi, Arlete Rita, Penitente, Daniel Luciano, Falkoski, Felipe Gomes, Berfort, and Antonio Jose, Natali
Subjects: Time Factors, Physical Conditioning, Animal, Animals, Myocytes, Cardiac, Rats, Wistar, Myocardial Contraction, Swimming, Ventricular Function, Left, Diabetes Mellitus, Experimental, Rats
Abstract: Experimental diabetes promotes contractile dysfunction in cardiomyocytes, but the effects of swimming in this disorder are not known.To test the effects of a swimming training program (STP) on cardiomyocyte contractile dysfunction in rats with experimental diabetes.Wistar rats (age: 30 days; mean body weight: 84.19 g) with diabetes induced by streptozotocin (60 mg/kg body weight; glucose300 mg/dl) were divided into sedentary diabetic rats (SD, n = 10) and exercised diabetic rats (ED, n = 13). Animals of same age and weight served as sedentary controls (SC, n = 10) and exercised controls (EC, n = 06). Animals and ED and EC underwent a STP (05 days/week, 90 min/day) for 08 weeks. Left ventricular (LV) myocytes were isolated and electrically stimulated at 3.0 Hz at room temperature (∼ 25º C).Diabetes reduced contractile function in cardiomyocytes of animals compared to controls (i.e., lower amplitude of contraction, longer duration of contraction and relaxation). The STP attenuated the reduced amplitude of contraction (SC, 11 ± 0.2% vs ED, 11.6 ± 0.2%), time to peak contraction (SC, 319 ± 5.8 ms vs ED, 333 ± 4.8 ms) and time to 50.0% of relaxation (SC, 619 ± 22.2 ms vs ED 698 ± 18.6 ms) of cardiomyocytes of diabetic rats. Diabetes reduced the size of cardiomyocytes, however, the STP minimized the reduction of cell volume and width, without changing length.The swimming training program attenuated the contractile dysfunction of the LV myocytes of rats with experimental diabetes.
Published: 2010

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1. Treinamento em natação atenua a disfução contrátil de cardiomiócitos de ratos diabéticos Entrenamiento en natación atenúa la disfunción contráctil de cardiomiocitos de ratones diabéticos Swimming training attenuates contractile dysfunction in diabetic rat cardiomyocytes

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