Mechanisms of the anti-obesity effects of oxytocin in diet-induced obese rats.

Apart from its role during labor and lactation, oxytocin is involved in several other functions. Interestingly, oxytocin- and oxytocin receptor-deficient mice develop late-onset obesity with normal food intake, suggesting that the hormone might exert a series of beneficial metabolic effects. This was recently confirmed by data showing that central oxytocin infusion causes weight loss in diet-induced obese mice. The aim of the present study was to unravel the mechanisms underlying such beneficial effects of oxytocin. Chronic central oxytocin infusion was carried out in high fat diet-induced obese rats. Its impact on body weight, lipid metabolism and insulin sensitivity was determined. We observed a dose-dependent decrease in body weight gain, increased adipose tissue lipolysis and fatty acid β-oxidation, as well as reduced glucose intolerance and insulin resistance. The additional observation that plasma oxytocin levels increased upon central infusion suggested that the hormone might affect adipose tissue metabolism by direct action. This was demonstrated using in vitro, ex vivo, as well as in vivo experiments. With regard to its mechanism of action in adipose tissue, oxytocin increased the expression of stearoyl-coenzyme A desaturase 1, as well as the tissue content of the phospholipid precursor, N-oleoyl-phosphatidylethanolamine, the biosynthetic precursor of the oleic acid-derived PPAR-alpha activator, oleoylethanolamide. Because PPAR-alpha regulates fatty acid β-oxidation, we hypothesized that this transcription factor might mediate the oxytocin effects. This was substantiated by the observation that, in contrast to its effects in wild-type mice, oxytocin infusion failed to induce weight loss and fat oxidation in PPAR-alpha-deficient animals. Altogether, these results suggest that oxytocin administration could represent a promising therapeutic approach for the treatment of human obesity and type 2 diabetes.

Role of substrate utilization and thermogenesis on body-weight control with particular reference to alcohol.

Alcohol (ethanol; EtOH) provides fuel energy to the body (29.7 kJ (7. 1 kcal)/g, 23.4 kJ (5.6 kcal)/ml), as do other macronutrients, but no associated essential nutrients. The thermogenic effect of EtOH (on average 15 % of its metabolizable value) is much greater than that of the main substrates utilized by the body, i.e. fat and carbohydrates (CHO), suggesting a lower net efficiency of energy utilization for EtOH than for fat and CHO. EtOH cannot be stored in the body and is toxic, so that there is an obligatory continuous oxidation of EtOH and it becomes the priority fuel to be metabolized. In contrast to CHO, its rate of oxidation does not depend on the dose ingested. As with CHO intake, it engenders a shift in postprandial substrate utilization (decrease in fat oxidation), but by a non-insulin-mediated mechanism. A limited amount of EtOH can be converted to fatty acids by hepatic de novo lipogenesis (as occurs with high levels of CHO feeding) from acetate production, which inhibits lipolysis in peripheral tissues. There is no evidence that EtOH consumed under normoenergetic conditions (i.e. isoenergetically replacing CHO or fat) leads to greater body fat storage than fat or CHO. However, there is still a lack of experimental studies on the influence of EtOH on the level of spontaneous physical activity in man. This effect may well depend on the dose of EtOH consumed as well as other intrinsic factors.

Einfluss von L-Carnitin-supplementierter total parenteraler Ernährung (TPE) auf die postoperative Fett- und Stickstoff-Utilisation [Effect of L-carnitine supplemented total parenteral nutrition on postoperative lipid and nitrogen utilization].

During episodes of trauma carnitine-free total parenteral nutrition (TPN) may result in a reduction of the total body carnitine pool, leading to a diminished rate of fat oxidation. Sixteen patients undergoing esophagectomy were equally and randomly divided and received isonitrogenous (0.2 gN/kg.day) and isocaloric (35 kcal/kg.day TPN over 11 days without and with L-carnitine supplementation (12 mg/kg.day). Compared with healthy controls, the total body carnitine pool was significantly reduced in both groups prior to the operation. Without supplementation carnitine concentrations were maintained, while daily provision of carnitine resulted in an elevation of total carnitine mainly due to an increase of the free fraction. Without supplementation the cumulative urinary carnitine losses were 11.5 +/- 6.3 mmol corresponding to 15.5% +/- 8.5% of the estimated total body carnitine pool. Patients receiving carnitine revealed a positive carnitine balance in the immediate postoperative phase, 11.1% +/- 19.0% of the infused carnitine being retained. After 11 days of treatment comparable values for respiratory quotient, plasma triglycerides, free fatty acids, ketone bodies, and cumulative nitrogen balance were observed. It is concluded that in the patient population studied here carnitine supplementation during postoperative TPN did not improve fat oxidation or nitrogen balance.

METABOLIC EFFECTS OF DIETARY PROTEINS

SUMMARY :Non-alcoholic fatty liver disease (NAFLD) is characterized by an elevated intra- hepatocellular lipid (IHCL) concentration (> 5%). The incidence of NAFLD is frequently increased in obese patients, and is considered to be the hepatic component of the metabolic syndrome. The metabolic syndrome, also characterized by visceral obesity, altered glucose homeostasis, insulin resistance, dyslipidemia, and high blood pressure, represents actually a major public health burden. Both dietary factors and low physical activity are involved in the development of the metabolic syndrome. ln animals and healthy humans, high-fat or high-fructose diets lead to the development of several features of the metabolic syndrome including increased intrahepatic lipids and insulin resistance. ln contrast the effects of dietary protein are less well known, but an increase in protein intake has been suggested to exert beneficial effects by promoting weight loss and improving glucose homeostasis in insulin-resistant patients. Increased postprandial thermogenesis and enhanced satiety after protein ingestion may be both involved. The effects of dietary protein on hepatic lipids have been poorly investigated in humans, but preliminary studies in rodents have shown a reduction of hepatic lipids in carbohydrate fed rats and in obese rats. ln this context this work aimed at investigating the metabolic effects of dietary protein intake on hepatic lipid metabolism and glucose homeostasis in humans. The modulation by dietary proteins of exogenous lipid oxidation, net lipid oxidation, hepatic beta-oxidation, triglycerides concentrations, whole-body energy expenditure and glucose tolerance was assessed in the fasting state and in postprandial states. Measurements of IHCL were performed to quantify the amount of triglycerides in the liver. ln an attempt to cover all these metabolic aspects under different point of views, these questions were addressed by three protocols involving various feeding conditions. Study I addressed the effects of a 4-day hypercaloric high-fat high-protein diet on the accumulation of fat in the liver (IHCL) and on insulin sensitivity. Our findings indicated that a high protein intake significantly prevents intrahepatic fat deposition induced by a short- term hypercaloric high-fat diet, adverse effects of which are presumably modulated at the liver level.These encouraging results led us to conduct the second study (Study ll), as we were also interested in a more clinical approach to protein administration and especially if increased protein intakes might be of benefit for obese patients. Therefore the effects of one-month whey protein supplementation on IHCL, insulin sensitivity, lipid metabolism, glucose tolerance and renal function were assessed in obese women. Results showed that whey protein supplementation reduces hepatic steatosis and improves the plasma lipid profile in obese patients, without adverse effects on glucose tolerance or creatinine clearance. However since patients were fed ud-libitum, it remains possible that spontaneous carbohydrate and fat intakes were reduced due to the satiating effects of protein. The third study (Study lll) was designed in an attempt to deepen our comprehension about the mechanisms involved in the modulation of IHCL. We hypothesized that protein improved lipid metabolism and, therefore, we evaluated the effects of a high protein meal on postprandial lipid metabolism and glucose homeostasis after 4-day on a control or a protein diet. Our results did not sustain the hypothesis of an increased postprandial net lipid oxidation, hepatic beta oxidation and exogenous lipid oxidation. Four days on a high-protein diet rather decreased exogenous fat oxidation and enhanced postprandial triglyceride concentrations, by impairing probably chylomicron-TG clearance. Altogether the results of these three studies suggest a beneficial effect of protein intake on the reduction in lHCL, and clearly show that supplementation of proteins do not reduce IHCL by stimulating lipid metabolism, e.g. whole body fat oxidation, hepatic beta oxidation, or exogenous fat oxidation. The question of the effects of high-protein intakes on hepatic lipid metabolism is still open and will need further investigation to be elucidated. The effects of protein on increased postprandial lipemia and lipoproteins kinetics have been little investigated so far and might therefore be an interesting research question, considering the tight relationship between an elevation of plasmatic TG concentrations and the increased incidence of cardiovascular diseases.Résumé :La stéatose hépatique non alcoolique se caractérise par un taux de lipides intra-hépatiques élevé, supérieur à 5%. L'incidence de la stéatose hépatique est fortement augmentée chez les personnes obèses, ce qui mène à la définir comme étant la composante hépatique du syndrome métabolique. Ce syndrome se définit aussi par d'autres critères tels qu'obésité viscérale, altération de l'homéostasie du glucose, résistance à l'insuline, dyslipidémie et pression artérielle élevée. Le syndrome métabolique est actuellement un problème de santé publique majeur.Tant une alimentation trop riche et déséquilibrée, qu'une faible activité physique, semblent être des causes pouvant expliquer le développement de ce syndrome. Chez l'animal et le volontaire sain, des alimentations enrichies en graisses ou en sucres (fructose) favorisent le développement de facteurs associés au syndrome métabolique, notamment en augmentant le taux de lipides intra-hépatiques et en induisant le développement d'une résistance à l'insuline. Par ailleurs, les effets des protéines alimentaires sont nettement moins bien connus, mais il semblerait qu'une augmentation de l'apport en protéines soit bénéfique, favorisant la perte de poids et l'homéostasie du glucose chez des patients insulino-résistants. Une augmentation de la thermogenese postprandiale ainsi que du sentiment de satiété pourraient en être à l'origine.Les effets des protéines sur les lipides intra-hépatiques chez l'homme demeurent inconnus à ce jour, cependant des études préliminaires chez les rongeurs tendent à démontrer une diminution des lipides intra hépatiques chez des rats nourris avec une alimentation riche en sucres ou chez des rats obèses.Dans un tel contexte de recherche, ce travail s'est intéressé à l'étude des effets métaboliques des protéines alimentaires sur le métabolisme lipidique du foie et sur l'homéostasie du glucose. Ce travail propose d'évaluer l'effet des protéines alimentaires sur différentes voies métaboliques impliquant graisses et sucres, en ciblant d'une part les voies de l'oxydation des graisses exogènes, de la beta-oxydation hépatique et de l'oxydation nette des lipides, et d'autre part la dépense énergétique globale et l'évolution des concentrations sanguines des triglycérides, à jeun et en régime postprandial. Des mesures des lipides intra-hépatiques ont aussi été effectuées pour permettre la quantification des graisses déposées dans le foie.Dans le but de couvrir l'ensemble de ces aspects métaboliques sous différents angles de recherche, trois protocoles, impliquant des conditions alimentaires différentes, ont été entrepris pour tenter de répondre à ces questions. La première étude (Etude I) s'est intéressée aux effets d'u.ne suralimentation de 4 jours enrichie en graisses et protéines sur la sensibilité à l'insuline et sur l'accumulation de graisses intra-hépatiques. Les résultats ont démontré que l'apport en protéines prévient l'accumulation de graisses intra-hépatiques induite par une suralimentation riche en graisses de courte durée ainsi que ses effets délétères probablement par le biais de mécanismes agissant au niveau du foie. Ces résultats encourageants nous ont conduits à entreprendre une seconde étude (Etude ll) qui s'intéressait à l'implication clinique et aux bénéfices que pouvait avoir une supplémentation en protéines sur les graisses hépatiques de patients obèses. Ainsi nous avons évalué pendant un mois de supplémentation l'effet de protéines de lactosérum sur le taux de graisses intrahépatiques, la sensibilité à l'insuline, la tolérance au glucose, le métabolisme des graisses et la fonction rénale chez des femmes obèses. Les résultats ont été encourageants; la supplémentation en lactosérum améliore la stéatose hépatique, le profil lipidique des patientes obèses sans pour autant altérer la tolérance au glucose ou la clairance de la créatinine. L'effet satiétogene des protéines pourrait aussi avoir contribué à renforcer ces effets. La troisième étude s'est intéressée aux mécanismes qui sous-tendent les effets bénéfiques des protéines observés dans les 2 études précédentes. Nous avons supposé que les protéines devaient favoriser le métabolisme des graisses. Par conséquent, nous avons cherché a évaluer les effets d'un repas riche en protéines sur la lipémie postprandiale et l'homéostasie glucidique après 4 jours d'alimentation contrôlée soit isocalorique et équilibrée, soit hypercalorique enrichie en protéines. Les résultats obtenus n'ont pas vérifié l'hypothèse initiale ; ni une augmentation de l'oxydation nette des lipides, ni celle d'une augmentation de la béta-oxydation hépatique ou de l'oxydation d'un apport exogène de graisses n'a pu étre observée. A contrario, il semblerait même plutôt que 4 jours d'a]irnentation hyperprotéinée inhibent le métabolisme des graisses et augmente les concentrations sanguines de triglycérides, probablement par le biais d'une clairance de chylornicrons altérée. Globalement, les résultats de ces trois études nous permettent d'attester que les protéines exercent un effet bénéfique en prévenant le dépot de graisses intra-hépatiques et montrent que cet effet ne peut être attribué à une stimulation du métabolisme des lipides via l'augmentation des oxydations des graisses soit totales, hépatiques, ou exogènes. La question demeure en suspens à ce jour et nécessite de diriger la recherche vers d'autres voies d'exploration. Les effets des protéines sur la lipémie postprandiale et sur le cinétique des lipoprotéines n'a que peu été traitée à ce jour. Cette question me paraît néanmoins importante, sachant que des concentrations sanguines élevées de triglycérides sont étroitement corrélées à une incidence augmentée de facteurs de risque cardiovasculaire.

The effect of exercise, alcohol or both combined on health and physical performance.

Alcohol (ethanol) is consumed on a daily basis by a large fraction of the population, and in many countries, light-to-moderate alcohol consumption is considered as an integral part of the diet. Although the relationship between alcohol intake and obesity is controversial, regular consumption of alcohol, through its effects in suppressing fat oxidation, is regarded as a risk factor for weight gain, increased abdominal obesity and hypertriglyceridemia. Indeed, alcohol taken with a meal leads to an increase in postprandial lipemia-an effect on postprandial metabolism that is opposite to that observed with exercise. Furthermore, although regular exercise training and/or a preprandial exercise session reduce postprandial lipemia independently of alcohol ingestion, the exercise-induced reduction in postprandial lipemia is nonetheless less pronounced when alcohol is also consumed with the meal. Whether or not alcohol influences exercise and sport performance remains contradictory. It is believed that alcohol has deleterious effects on the performance, although it may contribute to reduce pain and anxiety. The alcohol effects on sports performance depend on the type and dosage of alcohol, acute vs chronic administration, the alcohol elimination rate as well as the type of exercise.

Fish oil supplementation does not alter energy efficiency in healthy males

BACKGROUND AND AIMS: Fish oil (FO) supplementation prevents the development of obesity and insulin resistance, and upregulate the expression of UCP3 in skeletal muscle in rodents. This may represent indirect evidence that FO promotes fat oxidation and/or alter energy efficiency. The aim of this study was to evaluate whether such effects can be observed in humans. The metabolic effects of FO were assessed during exercise in order to obtain a direct measurement of energy efficiency. METHODS: Eight healthy male volunteers were studied with and without supplementation with 7.2 g/day FO (including 1.1 g/day eicosopentaenoic acid and 0.7 g/day decosahexaenoic acid) during 14 days. Their VO(2 max) was measured on cycle ergometer. Thereafter, energy metabolism (substrate oxidation, energy expenditure and energy efficiency) was assessed during a 30 min cycling exercise at 50% VO(2 max) performed 2 h 30 after a standardized, high carbohydrate breakfast. RESULTS: VO(2 max) was 38.6+/-2.2 after FO and 38.4+/-2.0 (mL x kg(-1) x min(-1)) in control conditions (NS). Basal plasma glucose, insulin and NEFA concentrations, and energy metabolism were similar with FO and in controls. During exercise, the increases in plasma NEFA concentrations, energy expenditure, glucose and lipid oxidation, and the decreases in glycaemia and insulinemia were not altered by FO intake. Energy efficiency was 22.4+/-0.6% after FO vs 21.8+/-0.7% in controls. In order to ascertain that the absence of effects of FO was not due to consumption of a carbohydrate meal immediately before exercise, 4 of the 8 subjects were re-studied in fasting conditions, FO also failed to alter energy efficiency in this subset of studies. CONCLUSION: FO supplementation did not significantly alter energy metabolism and energy efficiency during exercise in healthy humans.

Effect of physical exercise on glycogen turnover and net substrate utilization according to the nutritional state.

To determine the metabolic effects of a single bout of exercise performed after a meal or in the fasting state, nine healthy subjects were studied over two 8-h periods during which net substrate oxidation was monitored by indirect calorimetry. On one occasion, exercise was performed 90 min after ingestion of a meal labeled with [U-13C]glucose [protocol meal-exercise (M-E)]. On the second occasion, exercise was performed after an overnight fast and was followed 30 min later by ingestion of an identical meal [protocol exercise-meal (E-M)]. Energy balances were similar in both protocols, but carbohydrate balance was positive (42.2 +/- 5.1 g), and lipid balance was negative (-11.1 +/- 2.0) during E-M, whereas they were nearly even during M-E. Total glycogen synthesis was calculated as carbohydrate intake minus oxidation of exogenous 13C-labeled carbohydrate (calculated from 13CO2 production). Total glycogen synthesis was increased by 90% (from 47.6 +/- 3.8 to 90.7 +/- 5.4 g, P < 0.0001) during E-M vs. M-E. Endogenous glycogen breakdown was calculated as net carbohydrate oxidation minus oxidation of exogenous carbohydrate and was increased by 44% (from 35.8 +/- 5.6 to 51.7 +/- 6.6 g, P < 0.004) during E-M. It is concluded that exercise performed in the fasting state stimulates glycogen turnover and fat oxidation.

Short-term HIIT and Fatmax training increase aerobic and metabolic fitness in men with class II and III obesity.

OBJECTIVE: To compare the effects of two different 2-week-long training modalities [continuous at the intensity eliciting the maximal fat oxidation (Fatmax ) versus high-intensity interval training (HIIT)] in men with class II and III obesity. METHODS: Nineteen men with obesity (BMI ≥ 35 kg(.) m(-2) ) were assigned to Fatmax group (GFatmax ) or to HIIT group (GHIIT ). Both groups performed eight cycling sessions matched for mechanical work. Aerobic fitness and fat oxidation rates (FORs) during exercise were assessed prior and following the training. Blood samples were drawn to determine hormones and plasma metabolites levels. Insulin resistance was assessed by the homeostasis model assessment of insulin resistance (HOMA2-IR). RESULTS: Aerobic fitness and FORs during exercise were significantly increased in both groups after training (P ≤ 0.001). HOMA2-IR was significantly reduced only for GFatmax (P ≤ 0.001). Resting non-esterified fatty acids (NEFA) and insulin decreased significantly only in GFatmax (P ≤ 0.002). CONCLUSIONS: Two weeks of HIIT and Fatmax training are effective for the improvement of aerobic fitness and FORs during exercise in these classes of obesity. The decreased levels of resting NEFA only in GFatmax may be involved in the decreased insulin resistance only in this group.

Rosemary extract and celery-based products used as natural quality enhancers for colonial type salami with different ripening times

This study aimed to evaluate the use of rosemary (Rosmarinus officinalis) extract (RE), celery (Apium graveolis), and low levels of NO3 and NO2 as natural agents to enhance the quality of colonial salami. Salami was produced according to three treatments: (A) Control: 0.1% curing salt; (B) Rosemary: 0.05% curing salt + 0.5% RE (rosemary extract); and (C) Rosemary+celery: 0.14% Veg 503 + 0.27% Veg 504 (sea salt plus celery) + 0.5% of RE (rosemary extract). There was no effect (P > 0.05) of the treatments on water activity, Na content, and residual NO3 and NO2. Fatty acids C18:2 and C20:4 were reduced (P < 0.05) during the ripening period in the Control treatment indicating possible oxidation. The use of celery resulted in lower pH values (P < 0.05) in the salami. Reduced addition of NO3 and NO2 resulted in salami lighter in color (higher L* values, P < 0.05) at the 12th day of ripening. In conclusion, celery-based products proved to be an effective source of NO2 and NO3 for color development, but the low pH of the product indicates the need for better evaluation of its use in fermented salami. The RE (rosemary extract) reduced fat oxidation in salami, but this needs further evaluation.

Effets de plantes réputées antidiabétiques sur un modèle cellulaire hépatique de résistance à l’insuline induite par le palmitate

La pharmacopée Cris est riche en plantes médicinales et plusieurs d’entre elles sont étudiées par notre laboratoire pour leur potentiel antidiabétique. Certaines espèces ont démontré leur capacité à stimuler la protéine kinase activée par l’AMP (AMPK), une enzyme qui favorise la translocation de transporteurs de glucose à la membrane (effet hypoglycémiant). L’AMPK stimule également d’autres fonctions, telle l’oxydation des graisses, dans le but de rétablir l’énergie cellulaire. Ce projet a comme objectifs d’évaluer, premièrement, le stress métabolique induit par huit des extraits dans des cellules musculaires et des hépatocytes, effet qui serait responsable de l’activation de l’AMPK. Ce stress peut être déterminé en mesurant l’acidification du milieu extracellulaire ainsi que la déplétion du contenu en ATP des cellules suite aux traitements. Le deuxième objectif est de mesurer l’efficacité des extraits à réduire le contenu en gras (oxydation des graisses) et à ainsi normaliser la résistance à l’insuline dans des hépatocytes rendus insulino-résistants. Les hépatocytes sont rendus résistants à l’insuline (condition fortement lié à l’obésité) via traitement avec un acide gras saturé, le palmitate. Les résultats montrent que la majorité des extraits semble induire un stress métabolique de courte durée dans les cellules. Parmi les extraits, seul un a réussi à faire diminuer significativement le taux de triglycérides intracellulaire suite au traitement au palmitate sans toutefois améliorer la sensibilité à l’insuline. En conclusion, le potentiel hypoglycémiant des extraits serait du à leur capacité à affecter la respiration mitochondriale (stress métabolique). Toutefois, leur capacité à améliorer la sensibilité à l’insuline n’a pu être établie.

N-acetylcysteine in high-sucrose diet-induced obesity: Energy expenditure and metabolic shifting for cardiac health

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Calorimetry, Morphometry, Oxidative Stress, and Cardiac Metabolic Response to Growth Hormone Treatment in Obese and Aged Rats

This study investigated the effects of growth hormone therapy on energy expenditure, lipid profile, oxidative stress and cardiac energy metabolism in aging and obesity conditions. Life expectancy is increasing in world population and with it, the incidence of public health problems such as obesity and cardiac alterations. Because growth hormone (GH) concentration is referred to be decreased in aging conditions, a question must be addressed: what is the effect of GH on aging related adverse changes? To investigate the effects of GH on cardiac energy metabolism and its association with calorimetric parameters, lipid profile and oxidative stress in aged and obese rats, initially 32 male Wistar rats were divided into 2 groups (n = 16), C: given standard-chow and water; H: given hypercaloric-chow and receiving 30 % sucrose in its drinking water. After 45 days, both C and H groups were divided into 2 subgroups (n = 8), C + PL: standard-chow, water, and receiving saline subcutaneously; C + GH: standard-chow, water, and receiving 2 mg/kg/day rhGH subcutaneously; H + PL: hypercaloric-chow, 30 % sucrose, receiving saline subcutaneously; H + GH: hypercaloric-chow, 30 % sucrose, receiving rhGH subcutaneously. After 30 days, C + GH and H + PL rats had higher body mass index, Lee-index, body fat content, percent-adiposity, serum triacylglycerol, cardiac lipid-hydroperoxide, and triacylglycerol than C + PL. Energy-expenditure (RMR)/body weight, oxygen consumption and fat-oxidation were higher in H + GH than in H + PL. LDL-cholesterol was highest in H + GH rats, whereas cardiac pyruvate-dehydrogenase and phosphofrutokinase were higher in H + GH and H + PL rats than in C + PL. In conclusion, the present study brought new insights on aging and obesity, demonstrating for the first time that GH therapy was harmful in aged and obesity conditions, impairing calorimetric parameters and lipid profile. GH was disadvantageous in control old rats, having undesirable effects on triacylglycerol accumulation and cardiac oxidative stress.

Effects of olive oil and its minor phenolic constituents on obesity-induced cardiac metabolic changes

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Combined effects of age and diet-induced obesity on biochemical parameters and cardiac energy metabolism in rats

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Aplicação de biomassa de Rubrivivax gelatinosus na ração de frangos de corte: desempenho animal e caracteristicas dos produtos

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)