José Nascimento scite author profile

To date no published data exist regarding the effects of chronic high-dose anabolic-androgenic steroid administration on tonic cardiac autonomic control. The aim of this study was to evaluate, by power spectral analysis of heart rate variability (HRV), the effects of chronic treatment with supraphysiological doses of nandrolone decanoate (DECA) on tonic cardiac autonomic regulation in sedentary rats. Male Wistar rats were treated weekly with 10 mg kg(-1) of DECA (n=7) or vehicle (CONTROL, n=7) for 10 weeks. At the 8th week of treatment, electrocardiogram was recorded in the conscious state, for time- and frequency-domain HRV analysis. Parasympathetic indexes were reduced in DECA group: high-frequency power (CONTROL=11.1+/-3.0 ms2 vs. DECA=3.8+/-0.6 ms2, P<0.05), RMSSD (CONTROL=5.9+/-0.9 ms vs. DECA 3.5+/-0.3 ms; P<0.05) and pNN5 (CONTROL=31.5+/-7.5 ms vs. DECA=13.2+/-2.6 ms; P<0.05). The sympathetic index LF/HF tended to be higher in DECA group (CONTROL=0.65+/-0.15 vs. DECA=1.17+/-0.26, P=0.0546). In conclusion, chronic treatment with DECA, in rats, impairs tonic cardiac autonomic regulation, which may provide a key mechanism for anabolic steroid-induced arrhythmia and sudden cardiac death.

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Cellular mechanism of the conduction abnormalities induced by serum from anti-Ro/SSA-positive patients in rabbit hearts.

Garcia

Nascimento²,

Bonfá³

et al. 1994

J. Clin. Invest.

141

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In this study, IgG fractions from sera of SLE patients with anti-Ro/SSA or anti-Ro/ SSA and anti-La/SSB activity were tested in Langendorff preparations of adult rabbit hearts, aiming to reproduce the cardiac manifestations observed in neonatal lupus in an experimental model. The hearts were perfused with normal Tyrode's solution for 30 min, followed by perfusion with Tyrode's containing 0.3 mg/ml of anti-Ro / SSA-(or antiRo/La-) positive IgG (nine sera), anti-ribonucleoprotein (RNP)-positive IgG (five sera), or IgG fractions from normal donors (five sera). In one third of the experiments done with anti-Ro/La-positive IgG, heart block was observed. With the remaining fractions, a decrease in heart rate of 17.1% was observed, but normal sinus rhythm was maintained. The IgG fractions with anti-RNP activity (five experiments) and from normal sera (six experiments) reduced heart rates by 12.9 and 3.3%, respectively, but heart block was not observed.To further characterize the cellular mechanisms involved in the conduction disturbances observed in the whole rabbit hearts, we conducted experiments with ventricular myocytes isolated from young rabbit hearts, studied by whole cell patchclamp technique. In these experiments, the slow inward currents were analyzed during the superfusion of the cell with normal Tyrode's solution and 5 min after superfusion with Tyrode's solution containing 0.3 mg/ml of anti-Ro/SSA-(or anti-Ro/La-) positive IgG (five sera), anti-RNP-positive IgG (three sera), or IgG from normal donors (four sera). Resting and action potential amplitudes were not affected by any of the sera used. The anti-Ro/SSA IgG fraction induced a mean reduction in the peak slow inward current of 31.6%. IgG fractions with anti-RNP activity reduced slow inward current by 4.4%, whereas IgG fractions from normal donors increased this current by 3.3%. IgG-free fractions from sera of patients with anti-Ro/SSA activity did not alter the peak slow inward current. These results show, for the first time, that the presence of anti-Ro/SSA or anti-Ro/SSA and anti-La/SSB antibody activity in IgG fractions from lupus patients' sera can induce cardiac conduction disorders similar to those observed in neonatal lupus. (J. Clin. Invest. 1994.93:718-724.)

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Possible refinement of clinical thromboembolism assessment in patients with atrial fibrillation using echocardiographic parameters

et al. 2011

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Cardioprotective Properties of Humoral Factors Released From Rat Hearts Subject to Ischemic Preconditioning

Serejo

Rodrigues

Tavares

et al. 2007

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Myocardial protection can be achieved by transfer of coronary effluent from ischemically preconditioned to non-preconditioned hearts. This study was designed to test the hypothesis that preconditioned effluent from rat hearts purified by Sep-Pak C-18 cartridges could induce remote cardioprotection against ischemia/reperfusion (I/R) injury through the activation of protein kinase C signaling pathway. Buffer-perfused rat hearts were subject to 30 min ischemia and 60 min reperfusion. The myocardial I/R injury was assessed by postischemic contractile function recovery and infarct size. The protective effect of coronary effluent collected during ischemic preconditioning (IPC) was tested in non-preconditioned hearts in presence or absence of a PKC inhibitor, chelerythrine. Infarct size was 17 +/- 2% in preconditioned versus 37 +/- 1% in control hearts (P < 0.001). Hearts perfused with fresh preconditioned effluent had infarct sizes of 16 +/- 3% versus 36 +/- 1% in hearts treated with non-preconditioned effluent. The cardioprotective effect was lost when the effluent was left at room temperature during 24 h (infarct size, 40 +/- 3%) or heated to 70 degrees C (26 +/- 4%, P < 0.05) or 100 degrees C (39 +/- 1%, P < 0.001). The lyophilized effluent was stable for 30 days, and its purification in a Sep-Pak C-18 column resulted in a hydrophobic fraction that reduced the infarct size to 17 +/- 2% versus 38 +/- 2% for the hydrophilic fraction. Chelerythrine (100 microM) inhibited the reduction of infarct size induced by IPC (35 +/- 4%) or hydrophobic fraction (37 +/- 3%). Recovery of the contractile function at reperfusion was higher in preconditioned group (74 +/- 6% versus 17 +/- 7% in control, P < 0.001) and hydrophobic fraction (66 +/- 7% versus 8 +/- 4% in hydrophilic fraction, P < 0.001). Similarly, chelerythrine was able to abrogate the contractile function recovery (12 +/- 6%, P < 0.001 versus preconditioned group and 19 +/- 7%, P < 0.001 versus hydrophobic fraction). In conclusion, the cardioprotective factors released in the coronary effluent by IPC are thermolabile hydrophobic substances with molecular weights higher than 3.5 kDa and acting through PKC activation.

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