Effect of ractopamine on the chemical and physical characteristics of pacu(Piaractus mesopotamicus) steaks / Efeito da ractopamina sobre as características físicas e químicas de filés de pacu (Piaractus mesopotamicus)

The objective was to evaluate the use of ractopamine (RAC) in the diet for pacu (Piaractus mesopotaminus) in the finishing phase on some quality parameters of the fillets. Thirty-five animals weighing 0.868±0.168kg were distributed in a completely randomised design with five treatments (0.0 - control; 11.25, 22.50, 33.75 and 45 ppm of RAC) and seven replicates with two fillets obtained from the same animal. The diets were isocaloric and isoprotein and experimental time was 90 days. RAC did not affect (P>0.05) the initial pH or ph after 24 hours of the fillets. Compared to the control, RAC increased (P<0.05) the moisture content of the fillets in natura and lipid oxidation of samples stored for 12 days in the refrigerator or freezer for 60 days. The RAC in 11.25 ppm reduced (P<0.05) the lipid content, while 45 ppm reduced (P<0.05) the crude protein in the fillets. Considering only RAC, there was a linear increase (P<0.05) in the lipid content (P<0.05) and a linear reduction in crude protein and weight loss after cooking the fillets. There was a quadratic effect (P<0.05) on the ash content, weight loss and lipid oxidation in fillets stored in the refrigerator or freezer. A RAC dose of 33.75 ppm resulted in a lower lipid oxidation index. In conclusion, ractopamine at 11.25 ppm is effective for reducing the fat content in fillets of pacu, although it increases the formation of peroxides in samples kept in the freezer for longer than 60 days. At 33.75 ppm, ractopamine is effective in reducing the effect of oxidation during storage in the refrigerator or freezer.

O objetivo foi avaliar a influência do uso de ractopamina na alimentação de pacus (Piaractus mesopotaminus) na fase de terminação sobre alguns parâmetros de qualidade dos filés. Trinta e cinco animais com peso de 0,868±0,168kg foram distribuídos em delineamento inteiramente ao acaso com cinco tratamentos (0,0 - controle; 11,25; 22,50; 33,75 e 45ppm de ractopamina) e sete repetições, sendo a parcela representada por dois filés provenientes de um animal. As rações foram isoenergéticas e isoproteicas, e o tempo experimental foi de 90 dias. A ractopamina não influenciou (P>0,05) o pH inicial dos filés e nem após 24 horas. Comparado ao controle, a RAC aumentou (P<0,05) a umidade dos filés in natura e a oxidação lipídica dos mesmos quando armazenados por 12 dias em geladeira ou 60 dias em freezer. Na dose de 11,25 reduziu (P<0,05) o teor de extrato etéreo e, na dose de 45 ppm, reduziu (P<0,05) o de proteína bruta dos filés. Considerando somente a RAC, houve aumento linear (P<0,05) do teor de gordura e redução linear (P<0,05) da proteína bruta e perda de peso por cocção. Houve efeito quadrático (P<0,05) sobre o teor de cinzas, perda de peso por descongelamento e oxidação lipídica para os filés armazenados em geladeira ou em freezer, sendo 33,75 ppm o nível de RAC que resultou em menor índice de oxidação lipídica. Conclui-se que a ractopamina a 11,5 ppm é efetiva em reduzir o teor de lipídeos em filés de pacu, embora aumente a formação de peróxidos em amostras mantidas em freezer após 60 dias. A 33,75 ppm a ractopamina é efetiva em reduzir os efeitos da oxidação durante o armazenamento em geladeira ou freezer.

Alterations in the metabolism of fats and phosphatides in rat liver induced by halide ions.

The effects of halide ions on several pathways of lipid metabolism have been investigated in rat liver slices. Through the use of carboxyl-14-C-labeled acetate and palmitate and U-14-C-labeled glycine, striking differences were found when the effects of the four halide ions on the labeling of the lipids were compared. Both fluoride and iodide dpressed [14-C]acetate incorporation into phosphatide and triglyceride fractions. The effects of the halide ions on the labeling from the effects observed when [14-C]acetate was the precursor of the lipid molecule. In contrast with the phospholipid fractions, the level of radioactivity from [14-C]palmitate incorporated into the triglycerides was lower with fluoride than with chloride. The incorporation of [14-C]glycine into the phospholipids was also greatly depressed by fluoride. The effects of halide ions on acetoacetate formation, on 14-CO2 production and on the acetylcoenzyme A synthetase of rat liver were also investigated. Decreasing [I-14-C]-acetate conversion to acetoacetate iodide had an opposite effect on 14-CO2 production from the same labeled substrate. The effects of the four halide ions and the differences observed with the three labeled substrates on several pathways related to lipid metabolism are discussed.