Effects of exercise training on endothelial and diastolic age-related dysfunctions: a new view of an old problem

Coordination for the Improvement of Higher Level Personnel (CAPES)Fed Univ Sao Paulo UNIFESP EPM, Paulista Sch Med, Pulm Funct & Clin Exercise Physiol Unit, Resp Div, Sao Paulo, BrazilFed Univ Sao Paulo UNIFESP EPM, Paulista Sch Med, Pulm Funct & Clin Exercise Physiol Unit, Resp Div, Sao Paulo, BrazilCAPESWeb of Scienc

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

Cardiovascular rehabilitation in patients with endomyocardial fibrosis in functional class II and III

INTRODUÇÃO: Endomiocardiofibrose (EMF) é uma cardiomiopatia restritiva (CMR), caracterizada por uma disfunção diastólica, mas com a função sistólica e a fração de ejeção preservadas ou, em fases avançadas da doença, pouco prejudicadas. O consumo máximo de oxigênio (VO2) é um marcador de mortalidade na insuficiência cardíaca sistólica (ICS). Apesar da mortalidade ser semelhante entre a CMR e ICS, ainda não é conhecido se o treinamento físico pode melhorar o VO2 pico em pacientes com EMF. O objetivo deste estudo foi verificar se 4 meses de treinamento combinado podem melhorar a capacidade funcional e qualidade de vida em pacientes com EMF. MÉTODOS: Vinte e um pacientes com EMF (classe funcional II e III, NYHA) foram divididos em 2 grupos: treinamento físico (EMF-TF, n = 9) e sedentários (EMF-Sed, n = 12). Foram avaliados: VO2 pico, pulso de O2, relação deltaFC/deltaVO2 e relação deltaVO2/deltaW, pelo teste cardiopulmonar (TECP); volume diastólico final (VDF), volume sistólico (VS) e volume diastólico do átrio esquerdo (AE), pela ecocardiografia (Simpson); e qualidade de vida, pelo questionário Minnesota Living With Heart Failure Questionnaire (MLWHFQ). Os resultados do TECP dos pacientes com EMF foram comparados com os resultados de indivíduos controle saudáveis sedentários (CSS). Foi considerado significativo P < 0,05. RESULTADOS: Idade não foi diferente entre EMF-Sed, EMF-TF e CSS (58±9 vs. 55±8 vs. 53±6 anos, P = 0,31; respectivamente). O grupo EMF-TF apresentou um aumento do VO2 pico pós-intervenção, comparado com o momento pré e comparado com o grupo EMF-Sed, mas esse valor foi menor, comparado ao CSS (17,4 ± 3,0 para 19,7 ± 4,4 vs. 15,3 ± 3,0 para 15,0±2.0 vs. 24,5 ± 4,6 ml/kg/min, P < 0,001; respectivamente). O pulso de O2 do grupo EMF-TF no momento pós-intervenção foi maior, comparado ao momento pré e ao grupo EMF-Sed, mas foi semelhante, quando comparado ao grupo CSS (9,3 ± 2,6 para 11,1 ± 2,8 vs. 8,6 ± 2,2 para 8,6 ± 1 vs. 11,2 ± 2,9 ml/batimentos; P < 0,05; respectivamente). A relação deltaFC/deltaVO2 diminuiu no momento pós-intervenção no grupo EMF-TF, comparado ao momento pré e ao grupo EMF-Sed, igualando-se ao grupo CSS (75 ± 36 para 57 ± 14 vs. 68 ± 18 para 73 ± 14 vs. 56±17 bpm/L; P < 0,05; respectivamente). O grupo EMF-TF reduziu significativamente a relação deltaVO2/deltaW, após o período de treinemento, comparado ao momento pré e ao grupo EMF-Sed, igualando-se ao grupo CSS (12,3 ± 2.8 para 10,2 ± 1.9 vs. 12,6±1.7 para 12,4 ± 1.7 vs. 10,0 ± 0,9 ml/min/Watts; P = 0,002; respectivamente). O treinamento físico também aumentou o VDF do grupo EMF-TF, quando comparado ao grupo EMF-Sed (102,1 ± 64,6 para 136,2 ± 75,8 vs. 114,4 ± 55,0 para 100,4 ± 49,9 ml; P < 0,001; respectivamente) e o VS (57,5±31,9 para 72,2 ± 27,4 vs. 60,1 ± 25,2 para 52,1 ± 18,1 ml; P = 0,01; respectivamente), e diminuiu o volume diastólico do AE [69,0 (33,3- 92,7) para 34,9 (41,1-60,9) vs. 44,6 (35,8-73,3) para 45,6 (27,0-61,7) ml; P < 0,001; respectivamente). A qualidade de vida dos pacientes EMF-TF, quando comparados com o grupo EMF-Sed também melhorou após o período de treinamento físico (45±17 para 27±15 vs. 47±20 para 45 ± 23 pontos; P < 0,05; respectivamente). CONCLUSÃO: Esses resultados esclarecem que os pacientes com EMF se beneficiaram com o treinamento físico combinado, enfatizando a importância dessa ferramenta não farmacológica no tratamento clínico habitual desses pacientesBACKGROUND: Endomyocardial fibrosis (EMF) is a restrictive cardiomyopathy (RCM), characterized by a diastolic dysfunction, but with preserved systolic function and preserved ejection fraction, except in severe cases, in which these two present mild reduction. Maximal oxygen consumption (VO2) is a marker of mortality in systolic heart failure (SHF). Although mortality in RCM can be similar to SHF, it is still unknown if physical training can improve peak VO2 in patients with EMF. The aim of the present study was to evaluate if 4 months of combined physical training could improve functional capacity and quality of life in patients with EMF. METHODS: Twenty one EMF patients (functional class II and III, NYHA) were divided into 2 groups: physical training (EMF-PT, n = 9) and sedentary (EMF-Sed, n = 12). Peak VO2, O2 pulse, deltaFC/deltaVO2 relation and deltaVO2/deltaW relation were evaluated by cardiopulmonary exercise test (CPX); end diastolic volume (EDV), stroke volume (SV) and left atrium diastolic volume were evaluated by echocardiography (Simpson); and quality of life was evaluated by Minnesota Living With Heart Failure Questionnaire (MLWHFQ). CPX results from EMF patients were compared to a healthy sedentary (HS) control group. Significance was considered P < 0,05. RESULTS: Age was not different between EMF-PT, EMF-Sed and HS (58 ± 9 vs. 55±8 vs. 53 ± 6 years, P = 0,31; respectively). EMF-PT group presented an increase in peak VO2 after training compared to EMF-Sed group, but was lower compared to HS (17,4 ± 3,0 to 19,7 ± 4,4 vs. 15,3 ± 3,0 to 15,0 ± 2.0 vs. 24,5 ± 4,6 ml/kg/min, P < 0,001; respectively). O2 pulse in EMF-PT group increased after training compared to EMFSed group, and was similar compared to HS (9,3 ± 2,6 to 11,1±2,8 vs. 8,6±2,2 to 8,6 ± 1 vs. 11,2±2,9 ml/betas; P < 0,05; respectively). deltaFC/deltaVO2 relation decreased after training in EMF-PT group compared to EMF-Sed group, and was similar compared to HS (75 ± 36 to 57 ± 14 vs. 68 ± 18 to 73 ± 14 vs. 56 ± 17 bpm/L; P < 0,05; respectively). deltaVO2/deltaW relation decreased after training in EMF-PT group compared to EMF-Sed group, and was similar compared to HS (12,3 ± 2.8 to 10,2 ± 1.9 vs. 12,6 ± 1.7 to 12,4 ± 1.7 vs. 10,0 ± 0,9 ml/min/Watts; P = 0,002; respectively). Physical training also increased EDV in EMF-PT compared to EMFSed (102,1±64,6 to 136,2±75,8 vs. 114,4±55,0 to 100,4±49,9 ml; P < 0,001; respectively) and SV (57,5±31,9 to 72,2±27,4 vs. 60,1±25,2 to 52,1±18,1 ml; P = 0,01; respectively), and decreased left atrium diastolic volume [69,0 (33,3-92,7) to 34,9 (41,1-60,9) vs. 44,6 (35,8- 73,3) to 45,6 (27,0-61,7) ml; P < 0,001; respectively). Quality of life in EMF-PT group improved after training when compared to EMF-Sed group (45±17 to 27±15 vs. 47 ± 20 to 45 ± 23 points; P < 0,05; respectively). CONCLUSION: These results point out that patients with EMF benefit from combined physical training emphasizing the importance of this nonpharmacological tool in the clinical treatment of these patient

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

Impact of pericardiectomy on exercise capacity and sleep of patients with chronic constrictive pericarditis.

BackgroundHeart failure is associated with exercise intolerance and sleep- disordered breathing; however, studies in patients with chronic constrictive pericarditis are scarce. The purpose of our study was to assess exercise capacity and sleep in patients with chronic constrictive pericarditis (CCP) undergoing a pericardiectomy.MethodsWe studied consecutive patients scheduled for pericardiectomy due to symptomatic CCP. Were performed quality of life (Minnesota Living with Heart Failure Questionnaire-MLHFQ) and sleep questionnaires (Epworth, Pittsburgh Sleep Quality Index-PSQI), serum B-type natriuretic peptide (BNP), serum C-reactive protein, transthoracic echocardiography, cardiopulmonary exercise test and overnight polysomnography immediately before and six months after pericardiectomy.ResultsTwenty-five patients (76% males, age: 45.5±13.8 years, body mass index: 24.9±3.7 kg/m2, left ventricular ejection fraction: 60±6%) with CCP (76% idiopathic, 12% tuberculosis) were studied. As compared to the preoperative period, pericardiectomy resulted in reduction in BNP (143 (83.5-209.5) vs 76 (40-117.5) pg/mL, p = 0.011), improvement in VO2 peak (18.7±5.6 vs. 25.2±6.3 mL/kg/min, pConclusionPatients with symptomatic CCP showed reduced exercise capacity and sleep-disordered breathing. After pericardiectomy, there was improvement in exercise capacity and neutral effect on sleep-disordered breathing