The latency to awake from induced-obstructive sleep apnea is reduced in rats with chronic epilepsy.

OSA is known to increase the risk for SUDEP in persons with epilepsy, but the relationship between these two factors is not clear. Also, there is no study showing the acute responses to obstructive apnea in a chronic epilepsy model. Therefore, this study aimed to characterize cardiorespiratory responses to obstructive apnea and chemoreceptor stimulation in rats. In addition, we analyzed respiratory centers in the brain stem by immunohistochemistry. Epilepsy was induced with pilocarpine. About 30-60 days after the first spontaneous seizure, tracheal and thoracic balloons, and electrodes for recording the electroencephalogram, electromyogram, and electrocardiogram were implanted. Intermittent apneas were made by inflation of the tracheal balloon during wakefulness, NREM sleep, and REM sleep. During apnea, respiratory effort increased, and heart rate fell, especially with apneas made during wakefulness, both in control rats and rats with epilepsy. Latency to awake from apnea was longer with apneas made during REM than NREM, but rats with epilepsy awoke more rapidly than controls with apneas made during REM sleep. Rats with epilepsy also had less REM sleep. Cardiorespiratory responses to stimulation of carotid chemoreceptors with cyanide were similar in rats with epilepsy and controls. Immunohistochemical analysis of Phox2b, tryptophan hydroxylase, and NK1 in brain stem nuclei involved in breathing and sleep (retrotrapezoid nucleus, pre-Bötzinger complex, Bötzinger complex, and caudal raphe nuclei) revealed no differences between control rats and rats with epilepsy. In conclusion, our study showed that rats with epilepsy had a decrease in the latency to awaken from apneas during REM sleep, which may be related to neuroplasticity in some other brain regions related to respiratory control, awakening mechanisms, and autonomic modulation.

BR-bombesin: a novel bombesin-related peptide from the skin secretion of the Chaco tree frog (Boana raniceps) with physiological gastric effects.

Bombesin mediates several biological activities in the gastrointestinal (GI) tract and central nervous system in mammals, including smooth muscle contraction, secretion of GI hormones and regulation of homeostatic mechanisms. Here, we report a novel bombesin-like peptide isolated from Boana raniceps. Its amino acid sequence, GGNQWAIGHFM-NH2, was identified and structurally confirmed by HPLC, MS/MS and 454-pyrosequencing; the peptide was named BR-bombesin. The effect of BR-bombesin on smooth muscle contraction was assessed in ileum and esophagus, and its anti-secretory activity was investigated in the stomach. BR-bombesin exerted significant contractile activity with a concentration-response curve similar to that of commercially available bombesin in ileum strips of Wistar rats. In esophageal strips, BR-bombesin acted as an agonist, as many other bombesin-related peptides act, although with different behavior compared to the muscarinic agonist carbachol. Moreover, BR-bombesin inhibited stomach secretion by approximately 50% compared to the untreated control group. This novel peptide has 80% and 70% similarity with the 10-residue C-terminal domain of human neuromedin B (NMB) and human gastrin releasing peptide (GRP10), respectively. Molecular docking analysis revealed that the GRP receptor had a binding energy equal to - 7.3 kcal.mol-1 and - 8.5 kcal.mol-1 when interacting with bombesin and BR-bombesin, respectively. Taken together, our data open an avenue to investigate BR-bombesin in disorders that involve gastrointestinal tract motility and acid gastric secretion.

The number and periodicity of seizures induce cardiac remodeling and changes in micro-RNA expression in rats submitted to electric amygdala kindling model of epilepsy.

Generalized tonic-clonic seizures (GTCS) are the main risk factor for sudden unexpected death in epilepsy (SUDEP). Also, among the several mechanisms underlying SUDEP there is the cardiac dysfunction. So, we aimed to evaluate the impact of the number of seizures on heart function and morphology in rats with epilepsy. Rats were randomized into three groups: Sham (without epilepsy), 5 S, and 10 S groups, referred as rats with epilepsy with a total of 5 or 10 GTCS, respectively. Epilepsy was induced by electrical amygdala kindling. The ventricular function was analyzed by the Langendorff technique and challenged by ischemia/reperfusion protocol. Cardiac fibrosis and hypertrophy were analyzed by histology. We also analyzed cardiac metalloproteinases (MMP2 and MMP9), ERK 1/2 and phosphorylated ERK1/2 (P-ERK) by western blot; microRNA-21 and -320 by RT-PCR; and oxidative stress (TBARS, catalase activity and nitrite) by biochemical analysis. Only the 5S group presented decreased values of ventricular function at before ischemia/reperfusion (baseline): intraventricular systolic pressure, developed intraventricular pressure, positive and negative dP/dt. During ischemia/reperfusion protocol, the variation of the ventricular function did not differ among groups. Both 5S and 10S groups had increased cardiomyocyte hypertrophy and fibrosis compared to Sham, but in the 5S group, these alterations were higher than in the 10S group. The 5S group increased in microRNA-21 and decreased in microRNA-320 expression compared to Sham and the 10S group. The 10S group increased in MMP9 and decreased in P-ERK/ERK expression, and increased in nitrite content compared to both Sham and the 5S group. Therefore, seizures impair cardiac function and morphology, probably through microRNA modulation. The continuation of seizures seems to exert a preconditioning-like stimulus that fails to compensate the cardiac tissue alteration.

Antiepileptic effects of long-term intracerebroventricular infusion of angiotensin-(1-7) in an animal model of temporal lobe epilepsy.

Temporal lobe epilepsy (TLE) is the most frequent type of epilepsy and is often refractory to pharmacological treatment. In this scenario, extensive research has identified components of the renin-angiotensin system (RAS) as potential therapeutic targets. Therefore, the aim of the present study was to evaluate the effects of long-term treatment with angiotensin-(1-7) [Ang-(1-7)] in male Wistar rats with TLE induced by pilocarpine (PILO). Rats with TLE were submitted to intracerebroventricular (icv) infusion of Ang-(1-7) (200 ng/kg/h) for 28 days, starting at the first spontaneous motor seizure (SMS). Body weight, food intake, and SMS were evaluated daily. Behavioral tests and hippocampal protein levels were also evaluated at the end of the treatment. Ang-(1-7) treatment reduced the frequency of SMS and attenuated low anxiety levels, increased locomotion/exploration, and reduced body weight gain that was induced by TLE. Moreover, Ang-(1-7) positively regulated the hippocampal levels of antioxidant protein catalase and antiapoptotic protein B-cell lymphoma 2 (Bcl-2), as well as mammalian target of rapamycin (mTOR) phosphorylation, which were reduced by TLE. The hippocampal up-regulation of angiotensin type 1 receptor induced by TLE was also attenuated by Ang-(1-7), while the Mas receptor (MasR) was down-regulated compared with epilepsy. These data show that Ang-(1-7) presents an antiepileptic effect, increasing neuroprotection markers and reducing SMS frequency, body weight, and behavior impairments found in TLE. Therefore, Ang-(1-7) is a promising coadjutant therapeutic option for the treatment of TLE.

Long-term monotherapy treatment with vitamin E reduces oxidative stress, but not seizure frequency in rats submitted to the pilocarpine model of epilepsy.

The imbalance between antioxidant system and reactive oxygen species (ROS) generation is related to epileptogenesis, neuronal death, and seizure frequency. Treatment with vitamin E has been associated with neuroprotection and control of seizures. In most experimental studies, vitamin E treatment has short duration. Therefore, the aim of this study was to verify the role of long-term treatment with vitamin E in rats submitted to the pilocarpine model of epilepsy. Rats were divided into two main groups: control (Ctr) and pilocarpine (Pilo). Each one was subdivided according to treatment: vehicle (Ctr V and Pilo V) or vitamin E at dosages of 6 IU/kg/day (Ctr E6 and Pilo E6) or 60 IU/kg/day (Ctr E60 and Pilo E60). Treatment lasted 120 days from status epilepticus (SE). There were no statistical differences concerning treatment in the Ctr group for all variables, so the data were grouped. Carbonyl content in the hippocampus of Pilo V and Pilo E6 was higher compared with that of the Ctr group (8 ±â€¯1.5, 7.1 ±â€¯1, and 3.1 ±â€¯0.3 nmol carbonyl/mg protein, respectively for Pilo V, Pilo E6, and Ctr; p < 0.05). Carbonyl content was restored to control values in Pilo E60 rats (4.2 ±â€¯1.1 and 3.1 ±â€¯0.3 nmol carbonyl/mg protein, respectively for Pilo E60 and Ctr; p > 0.05). The volume of the hippocampal formation (6.5 ±â€¯0.3, 6.6 ±â€¯0.4, 6.3 ±â€¯0.3, and 7.4 ±â€¯0.2, respectively for Pilo V, Pilo E6, Pilo E60, and Ctr) and subfields CA1 (1.6 ±â€¯0.1, 1.4 ±â€¯0.2, 1.5 ±â€¯0.1, and 2 ±â€¯0.05, respectively for Pilo V, Pilo E6, Pilo E60, and Ctr) and CA3 (1.7 ±â€¯0.1, 1.5 ±â€¯0.2, 1.4 ±â€¯0.1, and 2 ±â€¯0.1, respectively for Pilo V, Pilo E6, Pilo E60, and Ctr) was reduced in the Pilo group regardless of treatment. Parvalbumin immunostaining was increased in the hilus of the Pilo E60 group compared with that in the Ctr group (26 ±â€¯2 and 39.6 ±â€¯8.3 neurons, respectively for Ctr and Pilo E60). No difference was found in seizure frequency and Neo-Timm staining. Therefore, long-term treatment with 60 IU/kg/day of vitamin E prevented oxidative damage in the hippocampus and increased hilar parvalbumin expression in rats with epilepsy without a reduction in seizure frequency.

Stating asymmetry in neural pathways: methodological trends in autonomic neuroscience.

Aim: Many particularities concerning interhemispheric differences still need to be explored and unveiled. Functional and anatomical differential features found between left and right brain sides are best known as asymmetries and are consequence of the unilateral neuronal recruitment or predominance that is set to organize some function. The outflow from different neural pathways involved in the autonomic control of the cardiovascular system may route through asymmetrically relayed efferences (ipsilateral/lateralized and/or contralateral). In spite of this, the literature reporting on the role of central nuclei involved in the autonomic control is not always dedicated on these interhemispheric comparisons. Considering the recent reports demonstrating that asymmetries may set differential functional responses, it is worth checking differences between right and left sides of central regions. This review aims to inspire neuroscientists with the idea that studying the interhemispheric differences may deepen the understanding on several centrally controlled responses, with special regard to the autonomic functions underlying the cardiovascular regulation. Conclusions: Thus, an avenue of knowledge may unfold from a field of research that requires further exploration.

Mas receptor contributes to pregnancy-induced cardiac remodelling.

Previous studies have demonstrated a protective effect of the Ang-(1-7)/Mas receptor axis on pathological cardiac hypertrophy. Also, the involvement of Mas receptor in exercise-induced cardiac hypertrophy has been suggested. However, the role of the Ang-(1-7)/Mas receptor on pregnancy-induced cardiac remodelling remains unknown. The objective of the present study was to evaluate the participation of the Mas receptor in the development of the cardiac hypertrophy and fibrosis induced by gestation. Female Wistar rats were divided in three groups: control, pregnant and pregnant treated with Mas receptor antagonist A-779. Wild-type (WT) and Mas-knockout (KO) mice were distributed in non-pregnant and pregnant groups. Systolic blood pressure (SBP) was measured by tail-cuff plethysmography. The medial part of the left ventricle (LV) was collected for histological analysis. Echocardiographic analysis was used to evaluate cardiac function. SBP was not changed by pregnancy or A-779 treatment in the Wistar rats. Pharmacological blockade or genetic deletion of Mas receptor attenuates the pregnancy-induced myocyte hypertrophy. The treatment with A-779 or genetic deletion of the Mas receptor increased the collagen III deposition in LV from pregnant animals without changing fibroblast proliferation. KO mice presented a lower ejection fraction (EF), fractional shortening (FS) and stroke volume (SV) and higher end systolic volume (ESV) compared with WT. Interestingly, pregnancy restored these parameters. In conclusion, these data show that although Mas receptor blockade or deletion decreases physiological hypertrophy of pregnancy, it is associated with more extracellular matrix deposition. These alterations are associated with improvement of cardiac function through a Mas-independent mechanism.

Alterations in aortic vasorelaxation in rats with epilepsy induced by the electrical amygdala kindling model.

Cardiovascular alterations are frequently related to epilepsy in both clinical and experimental models, and have been hypothesized as a potential contributor to sudden unexpected death in epilepsy (SUDEP). Further, the frequency of generalized tonic-clonic seizures (GTCS) is a primary risk factor for SUDEP. Therefore, we aimed to evaluate the vascular response of rats subjected to the electrical amygdala kindling model of epilepsy. Male Wistar rats were randomly distributed into the following groups: without seizures (sham, n = 8), 5 GTCS (5 S, n = 5), and 10 GTCS (10 S, n = 6). One day after the last seizure, the rats were euthanized, and the thoracic aorta rings with (E+) and without (E-) endothelium were used to evaluate vascular reactivity ex vivo using the organ bath system. The maximum response to acetylcholine-induced vasorelaxation in the E+ aortic ring was lower in the 5 S group than in the sham and 10 S groups. A reduced concentration of sodium nitroprusside was required to induce vasorelaxation in the E- aortic rings. These results suggest an impairment in endothelial function and alterations in the nitric oxide (NO) pathway. In conclusion, epilepsy altered the vasorelaxation of the aortic rings and the number of seizures influenced these alterations; therefore, an analysis of endothelial function in patients with a high risk of SUDEP may be beneficial.

Angiotensin-(1-7) attenuates the negative inotropic response to acetylcholine in the heart.

Previous studies have suggested that the Angiotensin-(1-7) [(Ang-(1-7)] can change cardiac function by modulating the autonomic nervous system. However, it is unknown whether the Ang-(1-7) can modulate the effect of acetylcholine (ACh) in ventricular contractility. Thus, this study aimed to investigate whether Ang-(1-7) modifies the amplitude of the cardiac cholinergic effects and if these effects are intrinsic to the heart. In anesthetized Wistar rats, Ang-(1-7) attenuated the effect of ACh in decreasing the left ventricular end-systolic pressure (LVESP), dP/dtmax, and dP/dtmin, but did not modify the hypotensive effect of ACh. Similarly, Ang-(1-7) attenuated the reduction of the LVESP, dP/dtmax, and dP/dtmin evoked by ACh in isolated hearts. These effects were blocked by the Mas receptor antagonist, A-779, but not by the adenylyl cyclase inhibitor MDL-12,330 A. Ang-(1-7) also attenuated the reduction in the maximum contraction and relaxation speeds and the shortening promoted by ACh in isolated cardiomyocytes. These data show that Ang-(1-7) acting through Mas receptor counter-regulates the myocardial contractile response to ACh in an arterial pressure and heart rate-independent manner.

Role of dorsal raphe nucleus GHS-R1a receptors in the regulation of inhibitory avoidance and escape behaviors in rats.

Ghrelin is a recently discovered peptide, mainly produced in the stomach and involved in body's energy-maintenance processes. Ghrelin exerts its actions by activating the growth hormone secretagogue receptor (GHS-R). Recent analyses indicate that ghrelin targets the brain to regulate a wealth of functions, including behavioral responses that have been associated with stress and anxiety mechanisms. In this context, evidence shows the presence of GHS-R receptors in the dorsal raphe nucleus (DRN), the main source of serotonergic neurons that innervate encephalic structures involved in emotional control. Our study aims to evaluate the effects of the pharmacological manipulation of ghrelin receptors located in the DRN on the expression of the behavioral responses of Wistar rats. Such responses were assessed in the elevated T maze (ETM), an experimental model that allows the measurement, in the same animal, of two defensive tasks, inhibitory avoidance and escape. Our results showed that the intra-DRN infusion of ghrelin impaired the acquisition of inhibitory avoidance, an anxiolytic-like effect, and facilitated the expression of escape response in the ETM, indicating a panicogenic-like effect. The intra-DRN administration of the ghrelin receptor (GHS-R1a) antagonist PF-04628935 did not alter the behavioral tasks assessed in the ETM. Finally, our results revealed that intra-DRN infusions of PF-04628935 prior to the administration of ghrelin into this area neutralized the behavioral effects obtained in the ETM. Taken together, our data reveal the involvement of DRN GHS-R1a receptors in the regulation of defensive tasks that have been associated with generalized anxiety and panic disorders.

Ghrelin potentiates cardiac reactivity to stress by modulating sympathetic control and beta-adrenergic response.

Prior evidence indicates that ghrelin is involved in the integration of cardiovascular functions and behavioral responses. Ghrelin actions are mediated by the growth hormone secretagogue receptor subtype 1a (GHS-R1a), which is expressed in peripheral tissues and central areas involved in the control of cardiovascular responses to stress. AIMS: In the present study, we assessed the role of ghrelin - GHS-R1a axis in the cardiovascular reactivity to acute emotional stress in rats. MAIN METHODS AND KEY FINDINGS: Ghrelin potentiated the tachycardia evoked by restraint and air jet stresses, which was reverted by GHS-R1a blockade. Evaluation of the autonomic balance revealed that the sympathetic branch modulates the ghrelin-evoked positive chronotropy. In isolated hearts, the perfusion with ghrelin potentiated the contractile responses caused by stimulation of the beta-adrenergic receptor, without altering the amplitude of the responses evoked by acetylcholine. Experiments in isolated cardiomyocytes revealed that ghrelin amplified the increases in calcium transient changes evoked by isoproterenol. SIGNIFICANCE: Taken together, our results indicate that the Ghrelin-GHS-R1a axis potentiates the magnitude of stress-evoked tachycardia by modulating the autonomic nervous system and peripheral mechanisms, strongly relying on the activation of cardiac calcium transient and beta-adrenergic receptors.

Cardioprotective effects of diminazene aceturate in pressure-overloaded rat hearts.

AIMS: Angiotensin-converting enzyme 2 (ACE2) is a key modulator of the renin-angiotensin system. Recent studies have shown that diminazene aceturate (DIZE) acts as an ACE2 activator. The aim of this study was to evaluate the cardiac effects of chronic treatment with DIZE in pressure-overloaded rats. MAIN METHODS: Male Wistar rats were divided into 4 groups: (1) sham; (2) aortic banded rats (AB); (3) AB+DIZE (1mg/kg, gavage); and (4) AB+DIZE+A-779 (120µg/day, osmotic mini-pumps). Cardiac hypertrophy was evaluated by ventricular mass index and myocyte cross-sectional area. mRNA expression of atrial natriuretic peptide (ANP), B-type natriuretic peptide (BNP) and transforming growth factor beta 1 (TGF-ß) was quantified by RT-PCR. Cardiac function was assessed according to the Langendorff technique. The ACE2 and Mas protein expression was examined by western blot analysis. KEY FINDINGS: DIZE treatment prevented the cardiomyocyte hypertrophy promoted by AB and A-779 inhibited this effect. Also, DIZE induced the expression of ANP and BNP mRNA in cardiac tissue from AB rats and attenuated the impairment in left ventricular end-systolic pressure and left ventricular developed pressure, +dP/dt and -dP/dt caused by AB. These effects were blocked by A-779. Moreover, DIZE prevented the increase in the expression of TGF-ß mRNA in AB hearts, but it did not change the ACE2 and Mas protein expression. SIGNIFICANCE: These results showed that DIZE was efficient in preventing the cardiomyocyte hypertrophy and attenuated the left ventricular contractile impairment induced by pressure overload. However, further studies are necessary to confirm whether these effects were due to ACE2 activation.

Lovastatin reduces neuronal cell death in hippocampal CA1 subfield after pilocarpine-induced status epilepticus: preliminary results.

OBJECTIVE: To further characterize the capacity of lovastatin to prevent hippocampal neuronal loss after pilocarpine-induced status epilepticus (SE) METHOD: Adult male Wistar rats were divided into four groups: (A) control rats, received neither pilocarpine nor lovastatin (n=5); (B) control rats, received just lovastatin (n=5); (C) rats that received just pilocarpine (n=5); (D) rats that received pilocarpine and lovastatin (n=5). After pilocarpine injection (350 mg/kg, i.p.), only rats that displayed continuous, convulsive seizure activity were included in our study. Seizure activity was monitored behaviorally and terminated with an injection of diazepam (10 mg/kg, i.p.) after 4 h of convulsive SE. The rats treated with lovastatin received two doses of 20 mg/kg via an oesophagic probe immediately and 24 hours after SE induction. Seven days after pilocarpine-induced SE, all the animals were perfused and their brains were processed for histological analysis through Nissl method. RESULTS: The cell counts in the Nissl-stained sections performed within the hippocampal formation showed a significant cell loss in rats that received pilocarpine and presented SE (CA1=26.8 +/- 13.67; CA3=38.1 +/- 7.2; hilus=43.8 +/- 3.95) when compared with control group animals (Group A: CA1=53.2 +/- 9.63; CA3=63.5 +/- 13.35; hilus=59.08 +/- 10.24; Group B: CA1=74.3 +/- 8.16; CA3=70.1 +/- 3.83; hilus=70.6 +/- 5.10). The average neuronal cell number of CA1 subfield of rats that present SE and received lovastatin (44.4 +/- 17.88) was statically significant increased when compared with animals that just presented SE. CONCLUSION: Lovastatin exert a neuroprotective role in the attenuation of brain damage after SE.

[Analysis of cardiac parameters in animals with epilepsy: possible cause of sudden death?]. / Avaliação de parâmetros cardíacos em animais com epilepsia: possível causa de morte súbita?

Among the causes for sudden death in epilepsy, cardiac dysfunction has been an area of interest. Based on this, the aim of our study was to evaluate the heart rate (in vivo and in vitro) and ventricular pressure in vitro of rats with epilepsy induced by pilocarpine. Adult male Wistar rats (n=6) were given pilocarpine hydrochloride to induce status epilepticus. Control rats (n=6) received saline solution instead pilocarpine. Our results showed significant differences in the mean of heart rate in vivo between the groups. In contrast, we did not find differences during in vitro experiments. Our results suggest a central nervous system modulation on the heart, which could explain the sudden unexpected death in epilepsy.

Involvement of the median preoptic nucleus in blood pressure control.

Studies have demonstrated that median preoptic nucleus (MnPO) neurons play a role in organizing the cardiovascular responses induced by changes in the circulating blood volume. The present study examined whether the MnPO controls cardiovascular function. Male Wistar normotensive (NT) rats and spontaneously hypertensive rats (SHRs; 250-300 g) were anesthetized with urethane (1.2 g kg(-1), i.v.) and instrumented for recordings of mean arterial blood pressure (MAP) and renal blood flow (RBF). The renal vascular conductance (RVC) was calculated as the RBF:MAP ratio and was expressed as a percentage of the baseline value. In the NT rats (n=6), MnPO inhibition produced a MAP reduction (-8.1±1.1 mmHg, p<0.05). In the SHRs (n=6), the MAP response to MnPO inhibition was significantly greater (-22.3±4 mmHg, p<0.05) than in the NT rats. Furthermore, the increase in the RVC was higher in the SHRs (10.9±3.3%, p<0.05). Histological analyses confirmed that the injection sites were confined to the MnPO. We conclude that the MnPO is involved in the tonic regulation of blood pressure in NT rats. Moreover, the greater cardiovascular response to MnPO inhibition observed in the SHRs strongly suggests that the MnPO may contribute to the pathophysiology of essential hypertension.

A1 noradrenergic neurons lesions reduce natriuresis and hypertensive responses to hypernatremia in rats.

Noradrenergic neurons in the caudal ventrolateral medulla (CVLM; A1 group) contribute to cardiovascular regulation. The present study assessed whether specific lesions in the A1 group altered the cardiovascular responses that were evoked by hypertonic saline (HS) infusion in non-anesthetized rats. Male Wistar rats (280-340 g) received nanoinjections of antidopamine-ß-hydroxylase-saporin (A1 lesion, 0.105 ng.nL(-1)) or free saporin (sham, 0.021 ng.nL(-1)) into their CVLMs. Two weeks later, the rats were anesthetized (2% halothane in O2) and their femoral artery and vein were catheterized and led to exit subcutaneously between the scapulae. On the following day, the animals were submitted to HS infusion (3 M NaCl, 1.8 ml • kg(-1), b.wt., for longer than 1 min). In the sham-group (n = 8), HS induced a sustained pressor response (ΔMAP: 35±3.6 and 11±1.8 mmHg, for 10 and 90 min after HS infusion, respectively; P<0.05 vs. baseline). Ten min after HS infusion, the pressor responses of the anti-DßH-saporin-treated rats (n = 11)were significantly smaller(ΔMAP: 18±1.4 mmHg; P<0.05 vs. baseline and vs. sham group), and at 90 min, their blood pressures reached baseline values (2±1.6 mmHg). Compared to the sham group, the natriuresis that was induced by HS was reduced in the lesioned group 60 min after the challenge (196±5.5 mM vs. 262±7.6 mM, respectively; P<0.05). In addition, A1-lesioned rats excreted only 47% of their sodium 90 min after HS infusion, while sham animals excreted 80% of their sodium. Immunohistochemical analysis confirmed a substantial destruction of the A1 cell group in the CVLM of rats that had been nanoinjected withanti-DßH-saporin. These results suggest that medullary noradrenergic A1 neurons are involved in the excitatory neural pathway that regulates hypertensive and natriuretic responses to acute changes in the composition of body fluid.

Análise da fadiga muscular localizada em atletas e sedentários através de parâmetros de freqüência do sinal eletromiográfico / Analysis of localized muscular fatigue in athletes and sedentary subjects through frequency parameters of electromyographic signal

Embora a análise no domínio da freqüência do sinal eletromiográfico (EMG) seja empregada na caracterização do processo de fadiga muscular localizada, sua aplicação, especificamente a da freqüência mediana (Fmed), é pouco explorada no âmbito esportivo. O objetivo do presente estudo foi verificar a viabilidade da aplicação do sinal EMG, através de sua análise no domínio da freqüência, como parâmetro para determinação e diferenciação no comportamento da fadiga muscular localizada. Dois grupos de sujeitos, um caracterizado como atletas (n =12) e outro como sedentários (n =12), foram submetidos a análises baseadas em procedimentos executados em três diferentes situações experimentais, todos envolvendo a modalidade de exercício isométrico: i) teste máximo para determinação da contração isométrica voluntária máxima (CIVM); ii) teste de fadiga, sustentado por 35 seg. a 80 por cento da CIVM; iii) teste de recuperação, sustentado por 10 seg. a 80 por cento da CIVM; neste ultimo foi monitorado o comportamento da Fmed nos três primeiros (Fmedi) e três últimos segundos (Fmedf) do sinal EMG no músculo tibial anterior durante o teste de fadiga. Durante os 10 segundos do teste de recuperação foi calculada a Fmed referente a todo o período (Fmedr). parâmetro utilizado no cálculo do índice de recuperação muscular (IRM). Os resultados apontam que a Fmedf apresentou valor menor em relação à Fmedi em ambos os grupos (p < 0,05). Quando comparado com o grupo de sedentários, o grupo de atletas apresentou valores maiores de Fmedi e Fmedf (p < 0,05). O valor médio e desvio-padrão do IRM para o grupo de atletas foram de 62,1 por cento ± 28,7 e, para o grupo de sedentários, de 55,2 por cento ± 27,8 (p > 0,05). Dessa forma, os resultados apresentados neste estudo permitem inferir a viabilidade na aplicação de parâmetros no domínio da freqüência do sinal EMG para a determinação e diferenciação do comportamento da fadiga muscular localizada.

Although the analysis in the frequency domain of the Electromyographic Signal (EMG) has been used in the characterization of the localized muscular fatigue process, its application, specifically the Median Frequency (MF), is rarely explored in sports. The objective of this study was to verify the viability of the EMG signal application, through its frequency domain analysis, as a parameter for determination and differentiation of the behavior of localized muscle fatigue. Two groups of subjects, one characterized as athletes (n = 12) and the other as sedentary (n = 12), were submitted to analysis based on procedures from three different experimental situations, all involving isometric exercise modality: i) maximum test for determination of the Maximum Voluntary Isometric Contraction (MVIC); ii) fatigue test, 35 sec. sustained load of 80 percent of MVIC; iii) recovery test, 10 sec. sustained load of 80 percent of MVIC. In the latter, the MF behavior in the three first (Fmedi) and three last (Fmedf) seconds of the EMG signal of tibialis anterior muscle during the fatigue test have been monitored. During the 10 seconds of the recovery test, MF was calculated regarding the whole period (Fmedr); this parameter was used to calculate the Muscular Recovery Index (MRI). The results showed that Fmedf presented lower value in relation to Fmedi in both groups (p < 0.05). Additionally, the Fmedi and Fmedf values for the athlete group were higher in comparison to the sedentary group (p < 0.05). The MRI mean value and standard deviation for the athlete group were 62.1 percent ± 28.7 and for the sedentary group was 55.2 percent ± 27.8 (p > 0.05). Therefore, the results presented in this study allow inferring the viability in the application of the frequency domain parameters of the EMG signal for the determination and differentiation of localized muscle fatigue behavior.

Morte súbita nas epilepsias: resultados inspiradores revelados pela atividade física / Sudden unexpected death in epilepsy: sudden death risk decreased by physical activity

A epilepsia é a doença neurológica crônica grave mais comum e ofenômeno da morte súbita nas epilepsias (SUDEP) é uma das causasde morte mais comuns nesta síndrome neurológica. Várias propostastêm sido feitas com o intuito de esclarecer o fenômeno da SUDEP, e amaioria envolve o possível papel dos efeitos autonômicos, tais comodistúrbios cardiorrespiratórios, tendo recebido especial atenção. Nessesentido, estudos clínicos e experimentais têm demonstrado que aatividade física pode diminuir a freqüência de crises epilépticas, assimcomo melhorar a função cardiovascular e psicológica fisiológica dospacientes com epilepsia. Dessa forma, este artigo de revisão aborda o fenômeno da SUDEP e a possível contribuição da atividade física sobrepara a prevenção da SUDEP entre os pacientes com epilepsia.

Níveis cardíacos de troponina I em pacientes com epilepsia do lobo temporal refratária após cortico-amígdalo-hipocampectomia / Cardiac troponin I levels in patients with refractory temporal lobe epilepsy after cortico-amygdalo-hippocampectomy

OBJETIVOS: A morte súbita em epilepsia (SUDEP) é a principal causa de morte entre os pacientes com epilepsia. Alterações morfológicas e funcionais do coração estão relacionadas com a SUDEP. Nesse sentido, o objetivo deste estudo foi avaliar a concentração de troponina I, um importante marcador de lesão do miocárdio, em pacientes com epilepsia do lobo temporal de difícil controle e que foram submetidos à ressecção cirúrgica e que não obtiveram sucesso com esta abordagem terapêutica. METODOLOGIA: Onze pacientes participaram do estudo e todos continuaram a apresentar crises após o tratamento cirúrgico. Os valores de troponina I indicativos de lesão seriam aqueles maiores de 1 ng/ml e o valor mínimo detectável pelo kit utilizado em nosso estudo foi de 0,15 ng/ml. RESULTADOS: Apenas três pacientes apresentaram níveis de troponina I detectáveis. Em relação aos níveis detectáveis de troponina I, não encontramos nenhuma relação com sexo, idade e lateralidade da lesão. CONCLUSÕES: APESAr de não termos encontrado resultados positivos em nosso estudo, o papel do coração na SUDEP não pode ser descartado, já que algumas lesões, embora não sendo capazes de alterar os níveis séricos de troponina I, podem ser suficientes na gênese de focos arritmogênicos.

PURPOSE: Sudden unexpected death in epilepsy (SUDEP) is the main cause of death in patients with epilepsy. Morphologic and functional changes in the heart are related to SUDEP. The aim of our study was to verify the concentration of troponin I, an important marker of myocardium damage, in patients with temporal lobe epilepsy who were submitted to surgical resection and were not seizure-free after the procedure. METHODS: Eleven non-consecutive patients participated in the study and all of them presented poor seizure control after surgical procedure. Troponin I levels higher then 1 ng/ml indicate myocardium damage. The detection level of the kit used in our study was 0,15 ng/ml. RESULTS: Only three patients showed detectable troponin I levels. The troponin I levels found in our study is not related with sex, age or side of the lesion. CONCLUSIONS: In spite of we did not find positive results in our study, an active role of the heart in SUDEP cannot be discarded, since some injuries, even so not being capable to modify troponin I levels, can be enough to generate arrhythmogenic foci.

Lovastatin reduces neuronal cell death in hippocampal CA1 subfield after pilocarpine-induced status epilepticus: preliminary results

OBJETIVO: Capacidade da lovastatina em prevenir a perda de neurônios hipocampais após o status epilepticus (SE) induzido pela pilocarpina. MÉTODO: Ratos adultos Wistar foram divididos em 4 grupos: (A) ratos controles que não receberam pilocarpina nem lovastatina (n=5); (B) ratos controles que receberam somente lovastatina (n=5); (C) ratos que receberam somente pilocarpina (n=5); (D) ratos que receberam pilocarpina e lovastatina (n=5). Após a administração de pilocarpina (350mg/kg, i.p.), somente ratos que evoluíram para o status epilepticus foram incluídos em nosso estudo. A atividade epiléptica foi interrompida com uma injeção de diazepam (10 mg/kg, i.p.) após 4h do início do SE. Os ratos tratados com lovastatina receberam duas doses de 20mg/kg via esofágica, imediatamente e 24 h após a indução do SE. Sete dias após o SE induzido pela pilocarpina, todos os animais foram perfundidos e seus cérebros processados para análise histológica através do método de Nissl. RESULTADOS: A contagem celular da formação hipocampal mostrou uma significante perda celular nos animais que receberam pilocarpina e apresentaram SE (CA1= 26,8 ± 13,67; CA3= 38,1 ± 7,2; hilus= 43,8 ± 3,95) quando comparados com animais pertencentes ao grupo controle (Grupo A: CA1= 53,2 ± 9,63; CA3= 63,5 ± 13,35; hilus= 59,08 ± 10,24; Grupo B: CA1= 74,3 ± 8,16; CA3= 70,1 ± 3,83; hilus= 70,6 ± 5,10). O número de células neuronais na região CA1 do hipocampo de ratos que apresentaram SE e receberam lovastatina (44,4 ± 17,88) foi estatisticamente maior quando comparado com animais que somente apresentaram SE. CONCLUSÃO: A lovastatina exerce papel neuroprotetor na atenuação do dano cerebral após o SE.