ABSTRACT
@#Toxic baits, widely used against insect pests, are being successfully used to control mosquito vectors. In the present study, basic aspects for Attractive Toxic Sugar Baits (ATSBs) use as a control tool against Aedes aegypti including insecticide dosage, bait composition and plant application under laboratory conditions were evaluated. The Lethal Concentrations (LC 50 and 90) of boric acid (insecticide) Ae. aegypti engorgement and mortality were determined using ATSBs prepared using fruits (guava, mango and cupuaçu) and offered to mosquitoes on cotton discs and also sprayed on a Kalanchoe blossfeldiana plant. LCs of Ae. aegypti males and females did not differ significantly and varied from 0.53 to 2.46%, decreasing from 24 to 48 hours. No significant difference in the proportion of engorged male mosquitoes in ATSB (0.60) and Attractive Sugar Bait (ASB) (0.65) was found, but females engorged more on ASB (control bait) (0.80) compared to ATSBs (0.67). General mortality rate of mosquitoes in ATSB and ASB were 0.81 and 0.10 for males, respectively; 0.61 and 0.12 for females, respectively. Fruit composition affected neither engorgement nor mortality. ATSB applied on plants caused the mortality of males and females ranging from 0.75-0.87 while mortality on ASB sprayed plants varied from 0.07-0.14. Different common fruit juices and a low toxic oral insecticide are readily accepted, engorged and causes a high mortality both males and females Ae. aegypti using ATSBs. Moreover, the use of a common indoor plant in the region sprayed with ATSB under laboratory conditions leads to significant mosquito mortality.
ABSTRACT
Com o objetivo de investigar o potencial alcalinizante de soluções eletrolíticas com concentrações elevadas de lactato de sódio em bezerros sadios, foram idealizadas seis soluções contendo 28, 56 e 84mEq/L de lactato (L28, L56 e L84) ou de bicarbonato (B28, B56 e B84), com concentrações de sódio, de potássio e de cálcio semelhantes às da solução de Ringer com lactato (SRL). As soluções contendo bicarbonato de sódio foram utilizadas como padrão para comparação. Seis bezerros receberam, por via intravenosa, todas as seis soluções, uma a cada vez, com intervalo de quatro a cinco dias entre as infusões, em volume correspondente a 10% do peso corporal, durante cinco horas (20mL/kg/h). Amostras de sangue venoso e de urina foram coletadas antes de iniciar a infusão, na metade do volume, ao término e duas horas e meia após o término da infusão. Determinaram-se concentração de proteína plasmática total, pH sanguíneo e urinário, pCO2, HCO3 -, BE, concentração plasmática e urinária de lactato L e concentrações séricas e urinárias de Na+, K+, Cl- e creatinina. A solução L28, idêntica à SRL, provocou discreto incremento da reserva alcalina e, consequentemente, produziu efeito alcalinizante insuficiente para a correção de estados de acidose metabólica. A solução L84, além de provar-se segura, provocou o maior aumento da reserva alcalina, equivalente à B84, e, assim, produziu efeito capaz de corrigir o grau moderado de acidose metabólica.
The alkalinizing effects of electrolyte solutions with high concentration of sodium lactate were evaluated in healthy calves. Six solutions were formulated containing 28, 56 and 84mEq/L of lactate (L28, L56 and L84) or bicarbonate (B28, B56 and B84), and sodium, potassium and calcium concentrations similar to the lactated Ringer's solution (LRS). The solutions containing sodium bicarbonate were used as a standard for comparison. Six calves received all six solutions intravenously, one at a time, with an interval of four to five days between the infusions, in a volume corresponding to 10% of body weight, during five hours (20mL/kg/h). Venous blood and urine samples were taken prior to the beginning of the infusion, at a half volume, at the end and two and a half hours after the end of the infusion. Total plasma protein concentration, urinary and blood pH, blood pCO2, HCO3 - and BE, plasma and urine L lactate concentration and serum and urine Na+, K+, Cl- and creatinine concentrations were measured. The L28 solution, equal to LRS, caused a slight increase in the alkaline reserve, producing an alkalinizing effect insufficient for correction of metabolic acidosis states. The L84 solution was safe and produced the greater increase in the alkaline reserve, equivalent to B84 solution, and suitable for correcting a moderate degree of metabolic acidosis.
Subject(s)
Animals , Child , Cattle , Cattle/blood , Sodium Lactate/administration & dosage , Sodium Lactate/analysis , AlkalizersABSTRACT
Metabolic syndrome (MS) is a multifactorial disease involving inflammatory activity and endothelial dysfunction. The aim of the present study was to evaluate the relationship between the changes in lipoperoxidation, in immunological and biochemical parameters and nitric oxide metabolite (NOx) levels in MS patients. Fifty patients with MS (4 males/46 females) and 50 controls (3 males/47 females) were studied. Compared to control (Mann-Whitney test), MS patients presented higher serum levels (P < 0.05) of fibrinogen: 314 (185-489) vs 262 (188-314) mg/dL, C-reactive protein (CRP): 7.80 (1.10-46.50) vs 0.70 (0.16-5.20) mg/dL, interleukin-6: 3.96 (3.04-28.18) vs 3.33 (2.55-9.63) pg/mL, uric acid: 5.45 (3.15-9.65) vs 3.81 (2.70-5.90) mg/dL, and hydroperoxides: 20,689 (19,076-67,182) vs 18,636 (15,926-19,731) cpm. In contrast, they presented lower (P < 0.05) adiponectin: 7.11 (3.19-18.22) vs 12.31 (9.11-27.27) µg/mL, and NOx levels: 5.69 (2.36-8.18) vs 6.72 (5.14-12.43) µM. NOx was inversely associated (Spearman’s rank correlation) with body mass index (r = -0.2858, P = 0.0191), insulin resistance determined by the homeostasis model assessment (r = -0.2530, P = 0.0315), CRP (r = -0.2843, P = 0.0171) and fibrinogen (r = -0.2464, P = 0.0413), and positively correlated with hydroperoxides (r = 0.2506, P = 0.0408). In conclusion, NOx levels are associated with obesity, insulin resistance, oxidative stress, and inflammatory markers. The high uric acid levels together with reactive oxygen species generation may be responsible for the reduced NO levels, which in turn lead to endothelial dysfunction. The elevated plasma chemiluminescence reflecting both increased plasma oxidation and reduced antioxidant capacity may play a role in the MS mechanism.