Testosterone deficiency increases hospital readmission and mortality rates in male patients with heart failure.

BackgroundTestosterone deficiency in patients with heart failure (HF) is associated with decreased exercise capacity and mortality; however, its impact on hospital readmission rate is uncertain. Furthermore, the relationship between testosterone deficiency and sympathetic activation is unknown.ObjectiveWe investigated the role of testosterone level on hospital readmission and mortality rates as well as sympathetic nerve activity in patients with HF.MethodsTotal testosterone (TT) and free testosterone (FT) were measured in 110 hospitalized male patients with a left ventricular ejection fraction < 45% and New York Heart Association classification IV. The patients were placed into low testosterone (LT; n = 66) and normal testosterone (NT; n = 44) groups. Hypogonadism was defined as TT < 300 ng/dL and FT < 131 pmol/L. Muscle sympathetic nerve activity (MSNA) was recorded by microneurography in a subpopulation of 27 patients.ResultsLength of hospital stay was longer in the LT group compared to in the NT group (37 ± 4 vs. 25 ± 4 days; p = 0.008). Similarly, the cumulative hazard of readmission within 1 year was greater in the LT group compared to in the NT group (44% vs. 22%, p = 0.001). In the single-predictor analysis, TT (hazard ratio [HR], 2.77; 95% confidence interval [CI], 1.58-4.85; p = 0.02) predicted hospital readmission within 90 days. In addition, TT (HR, 4.65; 95% CI, 2.67-8.10; p = 0.009) and readmission within 90 days (HR, 3.27; 95% CI, 1.23-8.69; p = 0.02) predicted increased mortality. Neurohumoral activation, as estimated by MSNA, was significantly higher in the LT group compared to in the NT group (65 ± 3 vs. 51 ± 4 bursts/100 heart beats; p < 0.001).ConclusionThese results support the concept that LT is an independent risk factor for hospital readmission within 90 days and increased mortality in patients with HF. Furthermore, increased MSNA was observed in patients with LT

Comportamiento cardiorrespiratorio en niños saludables durante el ejercicio progresivo máximo

FUNDAMENTO: Pouco se sabe sobre a resposta cardiorrespiratória e metabólica em crianças saudáveis durante teste de esforço progressivo máximo. OBJETIVO: Testar a hipótese de que as crianças apresentam respostas diferentes nos parâmetros cardiorrespiratórios e metabólicos durante teste de esforço progressivo máximo em comparação aos adultos. MÉTODOS: Vinte e cinco crianças saudáveis (sexo, 15M/10F; idade, 10,2 ± 0,2) e 20 adultos saudáveis (sexo, 11M/9F; idade, 27,5 ± 0,4) foram submetidos a um teste cardiopulmonar progressivo em esteira ergométrica até a exaustão para determinar a capacidade aeróbia máxima e limiar anaeróbio ventilatório (LAV). RESULTADOS: A carga de pico (5,9 ± 0,1 vs 5,6 ± 0,1 mph, respectivamente; p > 0,05), tempo de exercício (9,8 ± 0,4 vs 10,2 ± 0,4 min, respectivamente, p > 0,05), e aptidão cardiorrespiratória (VO2pico, 39,4 ± 2,1 vs 39,1 ± 2,0 ml.kg-1.min-1, respectivamente, p > 0,05) foram semelhantes em crianças e adultos. No limiar anaeróbio ventilatório, a frequência cardíaca, VO2 ml.kg-1.min-1, a frequência respiratória (FR), o espaço morto funcional estimado (VD/VT), o equivalente ventilatório de oxigênio (VE/VO2) e a pressão expiratória final do oxigênio (PETO2) foram maiores nas crianças, enquanto o volume corrente (VC), pulso de O2 e a pressão expiratória final do dióxido de carbono (PETCO2) foram menores. No pico do exercício, as crianças apresentaram FR e VD/VT superiores. No entanto, o pulso de O2, o VC, a ventilação pulmonar, o PETCO2 e a razão de troca respiratória foram menores nas crianças do que em adultos. CONCLUSÃO: Respostas cardiorrespiratórias e metabólicas durante o teste de esforço progressivo são diferentes em crianças em comparação aos adultos. Especificamente, essas diferenças sugerem que as crianças têm menor eficiência cardiovascular e respiratória. No entanto, as crianças apresentaram maior eficiência metabólica durante o teste de esforço. Em resumo, apesar das diferenças observadas, as crianças mostraram níveis semelhantes de capacidade de esforço, quando comparadas aos adultos.BACKGROUND: Little is known about cardiorespiratory and metabolic response in healthy children during progressive maximal exercise test. OBJECTIVE: To test the hypothesis that children show different responses in cardiorespiratory and metabolic parameters during progressive maximal exercise test when compared with adults. METHODS: Twenty-five healthy children (gender, 15M/10F; age, 10.2 ± 0.2) and 20 healthy adults (gender, 11M/9F; age, 27.5 ± 0.4) underwent a progressive treadmill cardiopulmonary test until exhaustion to determine the maximal aerobic capacity and ventilatory anaerobic threshold (VAT). RESULTS: The peak workload (5.9±0.1 vs 5.6±0.1 mph, respectively; p>0.05), exercise time (9.8±0.4 vs 10.2±0.4 min, respectively; p>0.05), and relative aerobic fitness (VO2peak, 39.4±2.1 vs 39.1±2.0 ml.kg-1.min-1, respectively; p>0.05) were similar in children and adults. At ventilatory anaerobic threshold, the heart rate, VO2 ml.kg-1.min-1, respiratory rate (RR), functional estimate of dead space (VD/VT), ventilatory equivalent for oxygen (VE/VO2) and end-tidal pressure for oxygen (PETO2) were higher in children, while tidal volume (VT), O2 pulse and end-tidal pressure for carbon dioxide (PETCO2) were lower. At peak of exercise, children showed higher RR and VD/VT. However, O2 pulse, VT, pulmonary ventilation, PETCO2 and respiratory exchange ratio were lower in children than adults. CONCLUSION: Cardiorespiratory and metabolic responses during progressive exercise test are different in children as compared to adults. Specifically, these differences suggest that children have lower cardiovascular and ventilatory efficiency. However, children showed higher metabolic efficiency during exercise. In summary, despite the differences observed, children showed similar levels of exercising capacity when compared with adults.Fundamento: Poco se sabe acerca de la respuesta cardiorrespiratoria y metabólica en niños saludables durante prueba de esfuerzo progresivo máximo. OBJETIVO: Probar la hipótesis de que los niños presentan respuestas diferentes en los parámetros cardiorrespiratorios y metabólicos durante la prueba de esfuerzo progresivo máximo en comparación con los adultos. MÉTODOS: Veinticinco niños saludables (sexo, 15M/10F; edad, 10,2 ± 0,2) y 20 adultos saludables (sexo, 11M/9F; edad, 27,5 ± 0,4) fueron sometidos a una prueba cardiopulmonar progresiva en cinta ergométrica hasta el agotamiento para determinar la capacidad aeróbica máxima y el umbral anaeróbico ventilatorio (Uan). RESULTADOS: La carga de pico (5,9 ± 0,1 vs 5,6 ± 0,1 mph, respectivamente; P > 0,05), tiempo de ejercicio (9,8 ± 0,4 vs 10,2 ± 0,4 min, respectivamente, P > 0,05), y aptitud cardiorrespiratoria (VO2pico, 39,4 ± 2,1 vs 39,1 ± 2,0 ml.kg-1.min-1, respectivamente, P > 0,05) fueron similares en niños y adultos. En el umbral anaeróbico ventilatorio, la frecuencia cardíaca, VO2 ml.kg-1.min-1, la frecuencia respiratoria (FR), el espacio muerto funcional estimado (VD/VT), el equivalente ventilatorio para el oxígeno (VE/VO2) y presión espiratoria final de oxígeno (PETO2) fueron mayores en los niños, mientras que el volumen corriente (VC), pulso de O2 y la presión espiratoria final de dióxido de carbono (PETCO2) fueron menores. En el pico del ejercicio, los niños presentaron FR y VD/VT superiores. Con todo, el pulso de O2, el VC, la ventilación pulmonar, el PETCO2 y la cociente de intercambio respiratorio fueron menores en niños que en adultos. CONCLUSIÓN: Respuestas cardiorrespiratorias y metabólicas durante la prueba de esfuerzo progresivo son diferentes en niños en comparación con los adultos. Específicamente, estas diferencias sugieren que los niños tienen menor eficiencia cardiovascular y respiratoria. Con todo, los niños presentaron mayor eficiencia metabólica durante la prueba de esfuerzo. En resumen, a pesar de las diferencias observadas, los niños mostraron niveles similares de capacidad de esfuerzo, al compararlos con los adultos

Comportamento cardiorrespiratório em crianças saudáveis durante o exercício progressivo máximo Comportamiento cardiorrespiratorio en niños saludables durante el ejercicio progresivo máximo Cardiorespiratory responses during progressive maximal exercise test in healthy children

FUNDAMENTO: Pouco se sabe sobre a resposta cardiorrespiratória e metabólica em crianças saudáveis durante teste de esforço progressivo máximo. OBJETIVO: Testar a hipótese de que as crianças apresentam respostas diferentes nos parâmetros cardiorrespiratórios e metabólicos durante teste de esforço progressivo máximo em comparação aos adultos. MÉTODOS: Vinte e cinco crianças saudáveis (sexo, 15M/10F; idade, 10,2 ± 0,2) e 20 adultos saudáveis (sexo, 11M/9F; idade, 27,5 ± 0,4) foram submetidos a um teste cardiopulmonar progressivo em esteira ergométrica até a exaustão para determinar a capacidade aeróbia máxima e limiar anaeróbio ventilatório (LAV). RESULTADOS: A carga de pico (5,9 ± 0,1 vs 5,6 ± 0,1 mph, respectivamente; p > 0,05), tempo de exercício (9,8 ± 0,4 vs 10,2 ± 0,4 min, respectivamente, p > 0,05), e aptidão cardiorrespiratória (VO2pico, 39,4 ± 2,1 vs 39,1 ± 2,0 ml.kg-1.min-1, respectivamente, p > 0,05) foram semelhantes em crianças e adultos. No limiar anaeróbio ventilatório, a frequência cardíaca, VO2 ml.kg-1.min-1, a frequência respiratória (FR), o espaço morto funcional estimado (VD/VT), o equivalente ventilatório de oxigênio (VE/VO2) e a pressão expiratória final do oxigênio (PETO2) foram maiores nas crianças, enquanto o volume corrente (VC), pulso de O2 e a pressão expiratória final do dióxido de carbono (PETCO2) foram menores. No pico do exercício, as crianças apresentaram FR e VD/VT superiores. No entanto, o pulso de O2, o VC, a ventilação pulmonar, o PETCO2 e a razão de troca respiratória foram menores nas crianças do que em adultos. CONCLUSÃO: Respostas cardiorrespiratórias e metabólicas durante o teste de esforço progressivo são diferentes em crianças em comparação aos adultos. Especificamente, essas diferenças sugerem que as crianças têm menor eficiência cardiovascular e respiratória. No entanto, as crianças apresentaram maior eficiência metabólica durante o teste de esforço. Em resumo, apesar das diferenças observadas, as crianças mostraram níveis semelhantes de capacidade de esforço, quando comparadas aos adultos.<br>Fundamento: Poco se sabe acerca de la respuesta cardiorrespiratoria y metabólica en niños saludables durante prueba de esfuerzo progresivo máximo. OBJETIVO: Probar la hipótesis de que los niños presentan respuestas diferentes en los parámetros cardiorrespiratorios y metabólicos durante la prueba de esfuerzo progresivo máximo en comparación con los adultos. MÉTODOS: Veinticinco niños saludables (sexo, 15M/10F; edad, 10,2 ± 0,2) y 20 adultos saludables (sexo, 11M/9F; edad, 27,5 ± 0,4) fueron sometidos a una prueba cardiopulmonar progresiva en cinta ergométrica hasta el agotamiento para determinar la capacidad aeróbica máxima y el umbral anaeróbico ventilatorio (Uan). RESULTADOS: La carga de pico (5,9 ± 0,1 vs 5,6 ± 0,1 mph, respectivamente; P > 0,05), tiempo de ejercicio (9,8 ± 0,4 vs 10,2 ± 0,4 min, respectivamente, P > 0,05), y aptitud cardiorrespiratoria (VO2pico, 39,4 ± 2,1 vs 39,1 ± 2,0 ml.kg-1.min-1, respectivamente, P > 0,05) fueron similares en niños y adultos. En el umbral anaeróbico ventilatorio, la frecuencia cardíaca, VO2 ml.kg-1.min-1, la frecuencia respiratoria (FR), el espacio muerto funcional estimado (VD/VT), el equivalente ventilatorio para el oxígeno (VE/VO2) y presión espiratoria final de oxígeno (PETO2) fueron mayores en los niños, mientras que el volumen corriente (VC), pulso de O2 y la presión espiratoria final de dióxido de carbono (PETCO2) fueron menores. En el pico del ejercicio, los niños presentaron FR y VD/VT superiores. Con todo, el pulso de O2, el VC, la ventilación pulmonar, el PETCO2 y la cociente de intercambio respiratorio fueron menores en niños que en adultos. CONCLUSIÓN: Respuestas cardiorrespiratorias y metabólicas durante la prueba de esfuerzo progresivo son diferentes en niños en comparación con los adultos. Específicamente, estas diferencias sugieren que los niños tienen menor eficiencia cardiovascular y respiratoria. Con todo, los niños presentaron mayor eficiencia metabólica durante la prueba de esfuerzo. En resumen, a pesar de las diferencias observadas, los niños mostraron niveles similares de capacidad de esfuerzo, al compararlos con los adultos.<br>BACKGROUND: Little is known about cardiorespiratory and metabolic response in healthy children during progressive maximal exercise test. OBJECTIVE: To test the hypothesis that children show different responses in cardiorespiratory and metabolic parameters during progressive maximal exercise test when compared with adults. METHODS: Twenty-five healthy children (gender, 15M/10F; age, 10.2 ± 0.2) and 20 healthy adults (gender, 11M/9F; age, 27.5 ± 0.4) underwent a progressive treadmill cardiopulmonary test until exhaustion to determine the maximal aerobic capacity and ventilatory anaerobic threshold (VAT). RESULTS: The peak workload (5.9±0.1 vs 5.6±0.1 mph, respectively; p>0.05), exercise time (9.8±0.4 vs 10.2±0.4 min, respectively; p>0.05), and relative aerobic fitness (VO2peak, 39.4±2.1 vs 39.1±2.0 ml.kg-1.min-1, respectively; p>0.05) were similar in children and adults. At ventilatory anaerobic threshold, the heart rate, VO2 ml.kg-1.min-1, respiratory rate (RR), functional estimate of dead space (VD/VT), ventilatory equivalent for oxygen (VE/VO2) and end-tidal pressure for oxygen (PETO2) were higher in children, while tidal volume (VT), O2 pulse and end-tidal pressure for carbon dioxide (PETCO2) were lower. At peak of exercise, children showed higher RR and VD/VT. However, O2 pulse, VT, pulmonary ventilation, PETCO2 and respiratory exchange ratio were lower in children than adults. CONCLUSION: Cardiorespiratory and metabolic responses during progressive exercise test are different in children as compared to adults. Specifically, these differences suggest that children have lower cardiovascular and ventilatory efficiency. However, children showed higher metabolic efficiency during exercise. In summary, despite the differences observed, children showed similar levels of exercising capacity when compared with adults

Testosterone Deficiency Increases Hospital Readmission and Mortality Rates in Male Patients with Heart Failure

Background: Testosterone deficiency in patients with heart failure (HF) is associated with decreased exercise capacity and mortality; however, its impact on hospital readmission rate is uncertain. Furthermore, the relationship between testosterone deficiency and sympathetic activation is unknown. Objective: We investigated the role of testosterone level on hospital readmission and mortality rates as well as sympathetic nerve activity in patients with HF. Methods: Total testosterone (TT) and free testosterone (FT) were measured in 110 hospitalized male patients with a left ventricular ejection fraction < 45% and New York Heart Association classification IV. The patients were placed into low testosterone (LT; n = 66) and normal testosterone (NT; n = 44) groups. Hypogonadism was defined as TT < 300 ng/dL and FT < 131 pmol/L. Muscle sympathetic nerve activity (MSNA) was recorded by microneurography in a subpopulation of 27 patients. Results: Length of hospital stay was longer in the LT group compared to in the NT group (37 ± 4 vs. 25 ± 4 days; p = 0.008). Similarly, the cumulative hazard of readmission within 1 year was greater in the LT group compared to in the NT group (44% vs. 22%, p = 0.001). In the single-predictor analysis, TT (hazard ratio [HR], 2.77; 95% confidence interval [CI], 1.58–4.85; p = 0.02) predicted hospital readmission within 90 days. In addition, TT (HR, 4.65; 95% CI, 2.67–8.10; p = 0.009) and readmission within 90 days (HR, 3.27; 95% CI, 1.23–8.69; p = 0.02) predicted increased mortality. Neurohumoral activation, as estimated by MSNA, was significantly higher in the LT group compared to in the NT group (65 ± 3 vs. 51 ± 4 bursts/100 heart beats; p < 0.001). Conclusion: These results support the concept that LT is an independent risk factor for hospital readmission within 90 days and increased mortality in patients with HF. Furthermore, increased MSNA was observed in patients with LT

Testosterone Deficiency Increases Hospital Readmission and Mortality Rates in Male Patients with Heart Failure

Background: Testosterone deficiency in patients with heart failure (HF) is associated with decreased exercise capacity and mortality; however, its impact on hospital readmission rate is uncertain. Furthermore, the relationship between testosterone deficiency and sympathetic activation is unknown. Objective: We investigated the role of testosterone level on hospital readmission and mortality rates as well as sympathetic nerve activity in patients with HF. Methods: Total testosterone (TT) and free testosterone (FT) were measured in 110 hospitalized male patients with a left ventricular ejection fraction < 45% and New York Heart Association classification IV. The patients were placed into low testosterone (LT; n = 66) and normal testosterone (NT; n = 44) groups. Hypogonadism was defined as TT < 300 ng/dL and FT < 131 pmol/L. Muscle sympathetic nerve activity (MSNA) was recorded by microneurography in a subpopulation of 27 patients. Results: Length of hospital stay was longer in the LT group compared to in the NT group (37 ± 4 vs. 25 ± 4 days; p = 0.008). Similarly, the cumulative hazard of readmission within 1 year was greater in the LT group compared to in the NT group (44% vs. 22%, p = 0.001). In the single-predictor analysis, TT (hazard ratio [HR], 2.77; 95% confidence interval [CI], 1.58–4.85; p = 0.02) predicted hospital readmission within 90 days. In addition, TT (HR, 4.65; 95% CI, 2.67–8.10; p = 0.009) and readmission within 90 days (HR, 3.27; 95% CI, 1.23–8.69; p = 0.02) predicted increased mortality. Neurohumoral activation, as estimated by MSNA, was significantly higher in the LT group compared to in the NT group (65 ± 3 vs. 51 ± 4 bursts/100 heart beats; p < 0.001). Conclusion: These results support the concept that LT is an independent risk factor for hospital readmission within 90 days and increased mortality in patients with HF. Furthermore, increased MSNA was observed in patients with LT

Muscle sympathetic nervous activity in depressed patients before and after treatment with sertraline

Background Sympathetic hyperactivity is one of the mechanisms involved in the increased cardiovascular risk associated with depression, and there is evidence that antidepressants decrease sympathetic activity. Objectives We tested the following two hypotheses: patients with major depressive disorder with high scores of depressive symptoms (HMDD) have augmented muscle sympathetic nervous system activity (MSNA) at rest and during mental stress compared with patients with major depressive disorder with low scores of depressive symptoms (LMDD) and controls; sertraline decreases MSNA in depressed patients. Methods Ten HMDD, nine LMDD and 11 body weight-matched controls were studied. MSNA was directly measured from the peroneal nerve using microneurography for 3 min at rest and 4 min during the Stroop color word test. For the LMDD and HMDD groups, the tests were repeated after treatment with sertraline (103.3 +/- 40 mg). Results Resting MSNA was significantly higher in the HMDD [29.1 bursts/min (SE 2.9)] compared with LMDD [19.9 (1.6)] and controls [22.2 (2.0)] groups (P=0.026 and 0.046, respectively). There was a significant positive correlation between resting MSNA and severity of depression. MSNA increased significantly and similarly during stress in all the studied groups. Sertraline significantly decreased resting MSNA in the LMDD group and MSNA during mental stress in LMDD and HMDD groups. Sertraline significantly decreased resting heart rate and heart rate response to mental stress in the HMDD group. Conclusion Moderate-to-severe depression is associated with increased MSNA. Sertraline treatment reduces MSNA at rest and during mental challenge in depressed patients, which may have prognostic implications in this group. J Hypertens 27:2429-2436 (c) 2009 Wolters Kluwer Health vertical bar Lippincott Williams & Wilkins.FAPESP[2002/02419-4]CNPq[304304/2004-2]CNPq[305159/2005-4]CNPq[306931/2006-0]American Heart AssociationAmerican Physiological SocietyEspirito Santo Science and Technology Foundation[06-15709Z