ANA MARIA FONSECA WANDERLEY BRAGA

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Instituto do Coração, Hospital das Clínicas, Faculdade de Medicina - Médico

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  • article 17 Citação(ões) na Scopus
    Obstructive Sleep Apnea Impairs Postexercise Sympathovagal Balance in Patients with Metabolic Syndrome
    (2015) CEPEDA, Felipe X.; TOSCHI-DIAS, Edgar; MAKI-NUNES, Cristiane; RONDON, Maria Urbana P. B.; ALVES, Maria Janieire N. N.; BRAGA, Ana Maria F. W.; MARTINEZ, Daniel G.; DRAGER, Luciano F.; LORENZI-FILHO, Geraldo; NEGRAO, Carlos E.; TROMBETTA, Ivani C.
    Study Objectives: The attenuation of heart rate recovery after maximal exercise (Delta HRR) is independently impaired by obstructive sleep apnea (OSA) and metabolic syndrome (MetS). Therefore, we tested the hypotheses: (1) MetS + OSA restrains Delta HRR; and (2) Sympathetic hyperactivation is involved in this impairment. Design: Cross-sectional study. Participants: We studied 60 outpatients in whom MetS had been newly diagnosed (ATP III), divided according to apnea-hypopnea index (AHI) >= 15 events/h in MetS + OSA (n = 30, 49 +/- 1.7 y) and AHI < 15 events/h in MetS - OSA (n = 30, 46 +/- 1.4 y). Normal age-matched healthy control subjects (C) without MetS and OSA were also enrolled (n = 16, 46 +/- 1.7 y). Interventions: Polysomnography, microneurography, cardiopulmonary exercise test. Measurements and Results: We evaluated OSA (AHI - polysomnography), muscle sympathetic nerve activity (MSNA - microneurography) and cardiac autonomic activity (LF = low frequency, HF = high frequency, LF/HF = sympathovagal balance) based on spectral analysis of heart rate (HR) variability. Delta HRR was calculated (peak HR minus HR at first, second, and fourth minute of recovery) after cardiopulmonary exercise test. MetS + OSA had higher MSNA and LF, and lower HF than MetS - OSA and C. Similar impairment occurred in MetS - OSA versus C (interaction, P < 0.01). MetS + OSA had attenuated Delta HRR at first, second, and at fourth minute than did C, and attenuated Delta HRR at fourth minute than did MetS - OSA (interaction, P < 0.001). Compared with C, MetS - OSA had attenuated Delta HRR at second and fourth min (interaction, P < 0.001). Further analysis showed association of the Delta HRR (first, second, and fourth minute) and AHI, MSNA, LF and HF components (P < 0.05 for all associations). Conclusions: The attenuation of heart rate recovery after maximal exercise is impaired to a greater degree where metabolic syndrome (MetS) is associated with moderate to severe obstructive sleep apnea (OSA) than by MetS with no or mild or no OSA. This is at least partly explained by sympathetic hyperactivity.
  • article
    Exaggerated Exercise Blood Pressure as a Marker of Baroreflex Dysfunction in Normotensive Metabolic Syndrome Patients
    (2021) DUTRA-MARQUES, Akothirene C.; RODRIGUES, Sara; CEPEDA, Felipe X.; TOSCHI-DIAS, Edgar; RONDON, Eduardo; CARVALHO, Jefferson C.; ALVES, Maria Janieire N. N.; BRAGA, Ana Maria F. W.; RONDON, Maria Urbana P. B.; TROMBETTA, Ivani C.
    Introduction Exaggerated blood pressure response to exercise (EEBP = SBP >= 190 mmHg for women and >= 210 mmHg for men) during cardiopulmonary exercise test (CPET) is a predictor of cardiovascular risk. Sympathetic hyperactivation and decreased baroreflex sensitivity (BRS) seem to be involved in the progression of metabolic syndrome (MetS) to cardiovascular disease. Objective To test the hypotheses: (1) MetS patients within normal clinical blood pressure (BP) may present EEBP response to maximal exercise and (2) increased muscle sympathetic nerve activity (MSNA) and reduced BRS are associated with this impairment. Methods We selected MetS (ATP III) patients with normal BP (MetS_NT, n = 27, 59.3% males, 46.1 +/- 7.2 years) and a control group without MetS (C, n = 19, 48.4 +/- 7.4 years). We evaluated BRS for increases (BRS+) and decreases (BRS-) in spontaneous BP and HR fluctuations, MSNA (microneurography), BP from ambulatory blood pressure monitoring (ABPM), and auscultatory BP during CPET. Results Normotensive MetS (MetS_NT) had higher body mass index and impairment in all MetS risk factors when compared to the C group. MetS_NT had higher peak systolic BP (SBP) (195 +/- 17 vs. 177 +/- 24 mmHg, P = 0.007) and diastolic BP (91 +/- 11 vs. 79 +/- 10 mmHg, P = 0.001) during CPET than C. Additionally, we found that MetS patients with normal BP had lower spontaneous BRS- (9.6 +/- 3.3 vs. 12.2 +/- 4.9 ms/mmHg, P = 0.044) and higher levels of MSNA (29 +/- 6 vs. 18 +/- 4 bursts/min, P < 0.001) compared to C. Interestingly, 10 out of 27 MetS_NT (37%) showed EEBP (MetS_NT+), whereas 2 out of 19 C (10.5%) presented (P = 0.044). The subgroup of MetS_NT with EEBP (MetS_NT+, n = 10) had similar MSNA (P = 0.437), but lower BRS+ (P = 0.039) and BRS- (P = 0.039) compared with the subgroup without EEBP (MetS_NT-, n = 17). Either office BP or BP from ABPM was similar between subgroups MetS_NT+ and MetS_NT-, regardless of EEBP response. In the MetS_NT+ subgroup, there was an association of peak SBP with BRS- (R = -0.70; P = 0.02), triglycerides with peak SBP during CPET (R = 0.66; P = 0.039), and of triglycerides with BRS- (R = 0.71; P = 0.022). Conclusion Normotensive MetS patients already presented higher peak systolic and diastolic BP during maximal exercise, in addition to sympathetic hyperactivation and decreased baroreflex sensitivity. The EEBP in MetS_NT with apparent well-controlled BP may indicate a potential depressed neural baroreflex function, predisposing these patients to increased cardiovascular risk.
  • article 14 Citação(ões) na Scopus
    Impaired Post Exercise Heart Rate Recovery in Anabolic Steroid Users
    (2013) SANTOS, M. R. dos; DIAS, R. G.; LATERZA, M. C.; RONDON, M. U. P. B.; BRAGA, A. M. F. W.; MOREAU, R. L. de Moraes; NEGRAO, C. E.; ALVES, M. -J. N. N.
    Previous study showed that muscle sympathetic nerve activity (MSNA) was augmented in anabolic steroids users (AASU). In the present study, we tested the hypothesis that the heart rate (HR) responses after maximal exercise testing would be reduced in AASU. 10 male AASU and 10 AAS nonusers (AASNU) were studied. Cardiopulmonary exercise was performed to assess the functional capacity and heart rate recovery. MSNA was recorded directly from the peroneal nerve by microneurography technique. Peak oxygen consumption (VO2) was lower in AASU compared to AASNU (43.66 +/- 2.24 vs. 52.70 +/- 1.68 ml/kg/min, P=0.005). HR recovery (HRR) at first and second minute was lower in AASU than AASNU (21 +/- 2 vs. 27 +/- 2 bpm, P=0.02 and 37 +/- 4 vs. 45 +/- 2 bpm, P=0.05, respectively). MSNA was higher in AASU than AASNU (29 +/- 3 vs. 20 +/- 1 bursts/min, P=0.01). Further analysis showed a correlation between HRR and MSNA (r=- 0.64, P=0.02), HRR at first minute and peak VO2 (r=0.70, P=0.01) and HRR at second minute and peak VO2 (r=0.62, P=0.02). The exacerbated sympathetic outflow associated with a lower parasympathetic activation after maximal exercise, which impairs heart rate recovery, strengthens the idea of autonomic imbalance in AASU.
  • article 3 Citação(ões) na Scopus
    Exercise Training Improves Heart Rate Recovery after Exercise in Hypertension
    (2019) AMARO-VICENTE, Graziela; LATERZA, Mateus C.; MARTINEZ, Daniel G.; ALVES, Maria Janieire N. N.; TROMBETTA, Ivani C.; BRAGA, Ana Maria F. W.; TOSCHI-DIAS, Edgar; RONDON, Maria Urbana P. B.
    Abstract Aim: This study tested the hypothesis that: 1- the exercise training would improve the heart rate recovery (HRR) decline after maximal exercise test in hypertensive patients and; 2- the exercise training would normalize HRR decline when compared to normotensive individuals. Methods: Sixteen hypertensive patients were consecutively allocated into two groups: Exercise-trained (n = 9, 47±2 years) and untrained (n = 7, 42±3 years). An exercise-trained normotensive group (n = 11, 41±2 years) was also studied. Heart rate was evaluated by electrocardiogram. The autonomic function was evaluated based on heart rate changes on the first and the second min of recovery after the maximal exercise test. Exercise training consisted of three 60-minute exercise sessions/week for 4 months. Results: In hypertensive patients, exercise training significantly increased the HRR decline in the first (-19±2 vs. -34±3 bpm, P = 0.001) and second (-33±3 vs. -49±2 bpm, P = 0.006) minutes after the maximal exercise test. In addition, after exercise training, the initial differences in the HRR decline after exercise between hypertensive patients and normotensive individuals were no longer observed (first minute: -34±3 vs. -29±3 bpm, P = 0.52, and second minute: -49±2 vs. -47±4 bpm, P = 0.99). Conclusion: Hypertension causes a delay in HRR after the maximal exercise test yet the exercise training normalizes HRR during the post-exercise period in hypertensive patients.
  • bookPart
    Avaliação cardiopulmonar
    (2019) BRAGA, Ana Maria Fonseca Wanderley; SILVA JUNIOR, Natan Daniel da; NUNES, Newton; OLIVEIRA, Patricia Alves de
  • article 48 Citação(ões) na Scopus
    Obstructive Sleep Apnea is Associated with Increased Chemoreflex Sensitivity in Patients with Metabolic Syndrome
    (2013) TROMBETTA, Ivani C.; MAKI-NUNES, Cristiane; TOSCHI-DIAS, Edgar; ALVES, Maria-Janieire N. N.; RONDON, Maria Urbana P. B.; CEPEDA, Felipe X.; DRAGER, Luciano F.; BRAGA, Ana Maria F. W.; LORENZI-FILHO, Geraldo; NEGRAO, Carlos E.
    Study Objectives: Obstructive sleep apnea (OSA) is often observed in patients with metabolic syndrome (MetS). In addition, the association of MetS and OSA substantially increases sympathetic nerve activity. However, the mechanisms involved in sympathetic hyperactivation in patients with MetS + OSA remain to be clarified. We tested the hypothesis that chemoreflex sensitivity is heightened in patients with MetS and OSA. Design: Prospective clinical study. Participants: Forty-six patients in whom MetS was newly diagnosed (ATP-III) were allocated into: (1) MetS + OSA (n = 24, 48 +/- 1.8 yr); and (2) MetS -OSA (n = 22, 44 +/- 1.7 yr). Eleven normal control subjects were also studied (C, 47 +/- 2.3 yr). Measurements: OSA was defined as an apnea-hypopnea index >= 15 events/hr (polysomnography). Muscle sympathetic nerve activity (MSNA) was measured by microneurography technique. Peripheral chemoreflex sensitivity was assessed by inhalation of 10% oxygen and 90% nitrogen (carbon dioxide titrated), and central chemoreflex sensitivity by 7% carbon dioxide and 93% oxygen. Results: Physical characteristics and MetS measures were similar between MetS + OSA and MetS - OSA. MSNA was higher in MetS + OSA patients compared with MetS - OSA and C (33 +/- 1.3 versus 28 +/- 1.2 and 18 +/- 2.2 bursts/min, P < 0.05). Isocapnic hypoxia caused a greater increase in MSNA in MetS + OSA than MetS -OSA and C (P = 0.03). MSNA in response to hyperoxic hypercapnia was greater in MetS + OSA compared with C (P = 0.005). Further analysis showed a significant association between baseline MSNA and peripheral (P < 0.01) and central (P < 0.01) chemoreflex sensitivity. Min ventilation in response to hyperoxic hypercapnia was greater in MetS + OSA compared with C (P = 0.001). Conclusion: OSA increases sympathetic peripheral and central chemoreflex response in patients with MetS, which seems to explain, at least in part, the increase in sympathetic nerve activity in these patients. In addition, OSA increases ventilatory central chemoreflex response in patients with MetS.
  • conferenceObject
    Oxygen uptake efficiency slope in patients with metabolic syndrome and obstructive sleep apnea
    (2016) CARVALHO, Jefferson Cabral; CEPEDA, Felipe Xerez; RODRIGUES, Sara; DUTRA-MARQUES, Akothirene Cristhina Brisolla; TOSCHI-DIAS, Edgar; RONDON, Maria Urbana Pinto Brandao; ALVES, Maria-Janieire Nazare Nunes; BRAGA, Ana Maria Fonseca Wanderley; LORENZI-FILHO, Gerald; TROMBETTA, Ivani Credidio
  • article 27 Citação(ões) na Scopus
    Diet and exercise improve chemoreflex sensitivity in patients with metabolic syndrome and obstructive sleep apnea
    (2015) MAKI-NUNES, Cristiane; TOSCHI-DIAS, Edgar; CEPEDA, Felipe X.; RONDON, Maria Urbana P. B.; ALVES, Maria-Janieire N. N.; FRAGA, Raffael F.; BRAGA, Ana Maria F. W.; AGUILAR, Adriana M.; AMARO, Aline C.; DRAGER, Luciano F.; LORENZI-FILHO, Geraldo; NEGRAO, Carlos E.; TROMBETTA, Ivani C.
    ObjectiveChemoreflex hypersensitity was caused by obstructive sleep apnea (OSA) in patients with metabolic syndrome (MetS). This study tested the hypothesis that hypocaloric diet and exercise training (D+ET) would improve peripheral and central chemoreflex sensitivity in patients with MetS and OSA. MethodsPatients were assigned to: (1) D+ET (n=16) and (2) no intervention control (C, n=8). Minute ventilation (VE, pre-calibrated pneumotachograph) and muscle sympathetic nerve activity (MSNA, microneurography) were evaluated during peripheral chemoreflex sensitivity by inhalation of 10% O-2 and 90% N-2 with CO2 titrated and central chemoreflex by 7% CO2 and 93% O-2 for 3 min at study entry and after 4 months. ResultsPeak VO2 was increased by D+ET; body weight, waist circumference, glucose levels, systolic/diastolic blood pressure, and apnea-hypopnea index (AHI) (345.1 vs. 18 +/- 3.2 events/h, P=0.04) were reduced by D+ET. MSNA was reduced by D+ET at rest and in response to hypoxia (8.6 +/- 1.2 vs. 5.4 +/- 0.6 bursts/min, P=0.02), and VE in response to hypercapnia (14.8 +/- 3.9 vs. 9.1 +/- 1.2 l/min, P=0.02). No changes were found in the C group. A positive correlation was found between AHI and MSNA absolute changes (R=0.51, P=0.01) and body weight and AHI absolute changes (R=0.69, P<0.001). ConclusionsSympathetic peripheral and ventilatory central chemoreflex sensitivity was improved by D+ET in MetS+OSA patients, which may be associated with improvement in sleep pattern.
  • article 42 Citação(ões) na Scopus
    Exercise training improves neurovascular control and functional capacity in heart failure patients regardless of age
    (2012) ANTUNES-CORREA, Ligia M.; KANAMURA, Bianca Y.; MELO, Ruth C.; NOBRE, Thais S.; UENO, Linda M.; FRANCO, Fabio G. M.; ROVEDA, Fabiana; BRAGA, Ana Maria; RONDON, Maria U. P. B.; BRUM, Patricia C.; BARRETTO, Antonio C. P.; MIDDLEKAUFF, Holly R.; NEGRAO, Carlos E.
    Background: Exercise training is a non-pharmacological strategy for treatment of heart failure. Exercise training improves functional capacity and quality of life in patients. Moreover, exercise training reduces muscle sympathetic nerve activity (MSNA) and peripheral vasoconstriction. However, most of these studies have been conducted in middle-aged patients. Thus, the effects of exercise training in older patients are much less understood. The present study was undertaken to investigate whether exercise training improves functional capacity, muscular sympathetic activation and muscular blood flow in older heart failure patients, as it does in middle-aged heart failure patients. Design: Fifty-two consecutive outpatients with heart failure from the database of the Unit of Cardiovascular Rehabilitation and Physiology Exercise were divided by age (middle-aged, defined as 45-59 years, and older, defined as 60-75 years) and exercise status (trained and untrained). Methods: MSNA was recorded directly from the peroneal nerve using the microneurography technique. Forearm Blood Flow (FBF) was measured by venous occlusion plethysmography. Functional capacity was evaluated by cardiopulmonary exercise test. Results: Exercise training significantly and similarly increased FBF and peak VO2 in middle-aged and older heart failure patients. In addition, exercise training significantly and similarly reduced MSNA and forearm vascular resistance in these patients. No significant changes were found in untrained patients. Conclusion: Exercise training improves neurovascular control and functional capacity in heart failure patients regardless of age.
  • article 16 Citação(ões) na Scopus
    Exercise intensity optimization for men with high cardiorespiratory fitness
    (2011) AZEVEDO, Luciene F.; PERLINGEIRO, Patricia S.; BRUM, Patricia C.; BRAGA, Ana Maria W.; NEGRAO, Carlos E.; MATOS, Luciana D. N. J. de
    Exercise intensity is a key parameter for exercise prescription but the optimal range for individuals with high cardiorespiratory fitness is unknown. The aims of this study were (1) to determine optimal heart rate ranges for men with high cardiorespiratory fitness based on percentages of maximal oxygen consumption (%VO2max) and reserve oxygen consumption (%VO2reserve) corresponding to the ventilatory threshold and respiratory compensation point, and ( 2) to verify the effect of advancing age on the exercise intensities. Maximal cardiorespiratory testing was performed on 210 trained men. Linear regression equations were calculated using paired data points between percentage of maximal heart rate (%HRmax) and %VO2max and between percentage of heart rate reserve (%HRR) and %VO2reserve attained at each minute during the test. Values of %VO2max and %VO2reserve at the ventilatory threshold and respiratory compensation point were used to calculate the corresponding values of %HRmax and %HRR, respectively. The ranges of exercise intensity in relation to the ventilatory threshold and respiratory compensation point were achieved at 78-93% of HRmax and 70-93% of HRR, respectively. Although absolute heart rate decreased with advancing age, there were no age-related differences in %HRmax and %HRR at the ventilatory thresholds. Thus, in men with high cardiorespiratory fitness, the ranges of exercise intensity based on %HRmax and %HRR regarding ventilatory threshold were 78-93% and 70-93% respectively, and were not influenced by advancing age.