Navegando por Autor "GOMES, Bruno Alexandre Quadros"

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Acesso aberto (Open Access)
Alterações oxidativas e inflamatórias induzidas pela dapsona no sangue e no córtex pré-frontal de camundongos: efeitos do ácido alfa-lipóico
(Universidade Federal do Pará, 2018-12-14) GOMES, Bruno Alexandre Quadros; MONTEIRO, Marta Chagas; http://lattes.cnpq.br/6710783324317390
Dapsone (DDS), a drug used in leprosy multidrug therapy, can cause many adverse reactions and intoxications, inducing the generation of reactive oxygen species (ROS) and imbalance in the redox state, increase methemoglobin (MetHb) formation, hemolysis and release of heme and iron free, which may interfere with redox homeostasis in more vulnerable regions, such as prefrontal cortex (PFC), causing neurotoxicity and even neuroinflammation. In this sense, antioxidant compounds with chelating properties such as α-lipoic acid (ALA) may play a key role in combating or preventing these alterations. Thus, this work aims to evaluate the effect of DDS on MetHb formation, peripheral oxidative stress, and oxidative changes and neuroinflammation in PFC, as well as, effects of ALA. For this, was induced MetHb formation in Swiss mice with DDS 40mg/kg ip for 5 days. Two hours after DDS administration, ALA was given at two concentrations (12.5 and 25 mg/kg). Besides MetHb percentage, total equivalent antioxidant capacity (TEAC), reduced glutathione (GSH), superoxide dismutase (SOD), catalase (CAT) thiobarbituric acid reactive substances (TBARS), and iron concentrations in blood and PFC were evaluated, as well as, IL-1β, IL-17, and IL-4 cytokine concentrations, and de F4/80+, GFAP, and BDNF expression in PFC. Our results show that DDS induces the MetHb formation in red blood cells of mice, however, ALA was able to prevent or reverse the oxidation of hemoglobin induced by DDS at two used concentrationns. DDS reduced antioxidant capacity (TEAC) in plasma and red blood cells; decreased erythrocyte GSH, CAT, and SOD; and increased TBARS and plasma iron; however, ALA at two concentrations increased or reestablished TEAC in plasma and red blood cells at baseline levels. In addition to increasing or reestablishing GSH levels, SOD, and CAT in red blood cells, and decreased TBARS and iron levels, mainly in euthanized animals 4h after treatment. Curiously ALA 50mg/kg increased plasma iron concentrations. The treatment with DDS 40mg/kg also reduced TEAC, GSH, SOD e CAT in the PFC of the mice and increased TBARS and iron, characterizing oxidative stress, mainly in euthanized animals in 24h after treatment. Treatment with ALA increased or restored TEAC and GSH; and increased SOD and CAT in 12,5mg/kg concentration in euthanized animals 4h after treatment, as well as reducing TBARS levels and decreasing or preventing iron overload, mainly in euthanized animals 24h after treatment. DDS also promoting microglial and astrocyte activation in PFC, through F4/80+ e GFAP expression., with increased IL-1β and IL-4 production, and BDNF reduction, on the other hand, ALA 25mg/kg reduced GFAP and IL-1β expression, besides increased BDNF, suggesting that DDS also can cause neuroinflammation, and ALA presents antioxidant and anti-inflammatory properties against toxicity caused by DDS. These results suggest that ALA is promising and plays an important role in the prevention and/or formation of MetHb, reestablishment of redox balance and iron concentrations in both blood and PFC. Thus, ALA may be a usefull adjuvant therapy in DDS-induced toxicity, with lower toxicity and increasing adherence to treatment of leprosy patients.
Acesso aberto (Open Access)
Comparison of the effects of brazil nut oil and soybean oil on the cardiometabolic parameters of patients with metabolic syndrome: a randomized trial
(Multidisciplinary Digital Publishing Institute, 2020) SILVA, Lívia Martins Costa e; MELO, Maria Luisa Pereira de; REIS, Fernando Vinícius Faro; MONTEIRO, Marta Chagas; SANTOS, Sávio Monteiro dos; GOMES, Bruno Alexandre Quadros; SILVA, Luiza Helena Meller da
Recent evidence suggests that replacing saturated fat with unsaturated fat is beneficial for cardiovascular health. This study compared the effects of Brazil nut oil (BNO) and soybean oil (SO) supplementation for 30 days on anthropometric, blood pressure, biochemical, and oxidative parameters in patients with metabolic syndrome (MS). Thirty-one patients with MS were randomly allocated to receive 30 sachets with 10 mL each of either BNO (n = 15) or SO (n = 16) for daily supplementation. Variables were measured at the beginning of the study and after 30 days of intervention. No change in anthropometric and blood pressure variables were observed (p > 0.05). Total (p = 0.0253) and low-density lipoprotein (p = 0.0437) cholesterol increased in the SO group. High-density lipoprotein cholesterol decreased (p = 0.0087) and triglycerides increased (p = 0.0045) in the BNO group. Malondialdehyde levels decreased in the BNO group (p = 0.0296) and total antioxidant capacity improved in the SO group (p = 0.0110). Although the addition of oils without lifestyle interventions did not affect anthropometric findings or blood pressure and promoted undesirable results in the lipid profile in both groups, daily supplementation of BNO for 30 days decreased lipid peroxidation, contributing to oxidative stress reduction.
Acesso aberto (Open Access)
Efeitos da suplementação com antioxidantes sobre as alterações oxidativas cerebrais e pulmonares em malária murina
(Universidade Federal do Pará, 2011) GOMES, Bruno Alexandre Quadros; PERCÁRIO, Sandro; http://lattes.cnpq.br/3018367879063988
During malaria infection, Plasmodium may provoke high oxidative stress, resulting in oxidative damage, and may lead to the development of severe malaria, such as cerebral and pulmonary malaria. Furthermore, the involvement of reactive oxygen species and antioxidant defenses in the physiopathological phenomena of disease has been discussed, as well as the potential benefit of antioxidant supplements. Hence, from the antioxidant sources that would be suitable, two are particularly interesting: N-acetylcysteine (NAC) and mushroom Agaricus sylvaticus. Thus, the aim of this study was to investigate the potential benefit NAC and Agaricus sylvaticus supplementation against oxidative changes in murine malaria caused by Plasmodium berghei. Two-hundred male mice (Mus musculus) were randomly divided into 20 groups, as following: Groups I-V (positive control); Groups VI-X (negative control); Groups XI-XV: (infected and treated with N-acetylcysteine animals); Groups XVI-XX: (infected and treated with Agaricus sylvaticus animals). Them, brain, lung, and blood samples were collected after 1, 3, 5, 7, or 10 days after infection for malondialdehyde (MDA), trolox equivalente antioxidant capacity (TEAC), nitrites and nitrates (NO) measurement, and parasitemia rate evaluation. Results show that parasitemia increased progressively with evolution of disease, and that was a significant decrease from 7th to 10 th day of infection in both antioxidant supplemented groups. Total antioxidant capacity was higher in supplemented animal’s groups, in that Agaricus sylvaticus treated animals presented a most pronuncied effect in lung samples, with progressive increase along with the days of infection. At the same time, pulmonary MDA levels in the Agaricus sylvaticus and NAC groups showed similar between themselves and with positive control. On the other hand, the cerebral MDA in antioxidants supplemented groups increased during infection, but not in a progressive way. Besides, in the Agaricus sylvaticus groups, MDA levels were lower than NAC, particularly in 5th day of infection. Thus, oxidative damage were most pronounced in pulmonary tissue than brain and related to lipid peroxidation. However, Agaricus sylvaticus was found to be more effective in preventing lipid peroxidation in brain and lung. In addition, pulmonary NO levels were increased in Nacetylcysteine supplemented animals in relationship to Agaricus sylvaticus from 3rd to 10th days of study, progressively increasing, and Agaricus sylvaticus supplemented animals presented similar NO levels to negative control groups. NAC also induced cerebral NO synthesis, but not in a progressive way. In addition, positive and negative control groups show similar cerebral NO levels. Probabily Agaricus sylvaticus and NAC act in two distinct mechanisms in attempt to defeat infection, and can be helpful in the adjuvant therapy of malaria.