Enrichment of Larval Fish Feed with Free Amino Acids and Proteins by Coating with Lactobacillus paracasei subsp. paracasei BGHN14 Homogenate

This research aimed to test whether coating with Lactobacillus paracasei subsp. paracasei BGHN14 homogenate may increase soluble protein and amino acid amount on larval fish feed surface. Total amino acid and protein, as well as taste stimulating and growth promoting amino acid amounts were analyzed in coated feed samples. Results indicated that coating with BGHN14 homogenate increased the amount of soluble proteins and free Glycine on feed surface, as well as the availability of protein-bound (hydroxy-)Proline. This lab-scale research provides the basis for use of lactobacilli as resource efficient source of soluble nutrients for animal feedstuffs.

Estimation of Organic matter digestibility and metabolizable energy content of Agro-industrial wastes using in vitro gas production

Organic matter (OM), neutral detergent fibre (NDF) digestibilities and metabolizableenergy content of some available agro-chemicals wastes (AIW) such as dry brewer's grain cocoa shell, cocoa dust, dessicated cocnut waste meal, wheat bran and rice bran used as ruminant feeds were setimated from in vitro gas production technique. Their crude protein (CP) content varieted from 13.7-25.6%, NDF ranged from 21.9-48.4% Om from 88.6-95.4% and non structural carbohydrates (NSC) estimates increased from 7.2 - 45.6%. Dessicated coconut waste meal(DCWM) had the lowest NSC content. Nutrient contents varied among AIW. Net gas production ranged from 7.7-23.1 ml/day and significant differences (P<0.05) were observed among the AIW in net gas production. The lowest and highest gas productions were obtained in cocoa dust (CD) and wheat bran (WB) respectively. Om digestibility also had higher ME values showed significantly the differences between the AIW. AIW with high OM digestibility also had higher ME values. Finally the investigation demonstrated that available AIW in the pacific Island countries have potential as animal feedstuffs

An Ultrasensitive Immunoassay Strip for Simultaneously Detecting Cyproheptadinehydrochloride and Six Phenothiazinesin Feedstuffs Based on a Monoclonal Antibody

Background: An antihistamine cyproheptadine (CPH) and phenothiazines (PZs)sedative hypnoticshave a similar tricyclic structure, these drugs are often illegally added to food animal feedstuffs due to their price advantage and significant effect in promoting growth and improving meat quality. However, the abuse of these drugs may lead totheir residues in animal products, thereby causing harmful effects such as allergies and dermatological reactions on human health.To supervise the use of prohibited drugs and ensure food safety, it is necessary to establish a simple and effective screening method to detect CPH and PZs.In this research, an artificial antigen against cyproheptadine(CPH) was successfully synthesized by bromoacetic acid substitution method. An ultrasensitive and broad-specific monoclonal antibody (mAb) able to recognize CPH and six phenothiazines (PZs) was produced. Based on the gold-labeled mAb, an immunochromatographic strip (ICS) was established.Results:The 50% inhibition concentration (IC50) of the produced mAb against CPH was identified as 0.036 ng mL-1 by ELISA, and the cross-reactivities for six PZs were from 6.33% to 63.16%. The visual detection limits(cut-off values) of the developed ICS ranged from 5 to 100ngg-1 in feedstuffs. Take a reading by strip reader, the IC50 was from 0.570 to 7.750ng g-1. In addition,a recovery experiment was carried out to verify the reliability of the ICS. The intra-assay recoveries were from 79.83% to 103.38% with the highest coefficient of variation (CV) of 11.31%. The inter-assay recoveries were from 79.00% to 96.63% with the highest CV of 12.66%.Conclusions: We have successfully produced a broad-spectrum monoclonal antibody and established an ICS for simultaneouslydetecting CPH and six PZs drugs.In brief, the proposed ICS was considered suitable for qualitatively and quantitatively monitoring CPH and PZs in feedstuffs.

Prediction of crude protein and neutral detergent fibre concentration in residues of in situ ruminal degradation of pasture samples by near-infrared spectroscopy (NIRS)

An important constraint of in situ degradability studies is the need to analyse a high number of samples and often with insufficient amount of residue, especially after the longer incubations of high-quality forages, that impede the study of more than one nutritional component. Near-infrared spectroscopy (NIRS) has been established as a reliable method for predicting composition of many entities, including forages and other animal feedstuffs. The objective of this work was to evaluate the potential of NIRS for predicting the crude protein (CP) and neutral detergent fibre (NDF) concentration in rumen incubation residues of permanent and sown temperate pastures in a vegetative stage. In situ residues (n = 236) from four swards were scanned for their visible-NIR spectra and analysed for CP and NDF. Selected equations developed by partial least-squares multivariate regression presented high coefficients of determination (CP = 0.99, NDF = 0.95) and low standard errors (CP = 4.17 g/kg, NDF = 7.91 g/kg) in cross-validation. These errors compare favourably to the average concentrations of CP and NDF (146.5 and 711.2 g/kg, respectively) and represent a low fraction of their standard deviation (CP = 38.2 g/kg, NDF = 34.4 g/kg). An external validation was not as successful, with R2 of 0.83 and 0.82 and a standard error of prediction of 14.8 and 15.2 g/kg, for CP and NDF, respectively. It is concluded that NIRS has the potential to predict CP and NDF of in situ incubation residues of leafy pastures typical of humid temperate zones, but more robust calibrations should be developed.

Chemical composition and amino acid profile of differently processed feather meal

Feather wastes represent potential alternative ingredients for animal feedstuffs which can ameliorate the protein shortage for food and feed. Previous attempts to provide information about the nutrient composition of feather meal are either too complicated for rural livestock farmers in developing countries or they provided incomplete information on chemical composition. Washed feathers were subjected to different processing techniques such as pre-soaking in distilled water, wood ash, 0.3M NaOH, a mixture of wood ash and 0.3M NaOH, incubated at 37?C and boiled at 150?C for 60 minutes. Treated feather meals were analysed for chemical composition and amino acid profile. The overall result showed that feather meal pre-soaked with wood ash for 24 hr boiled at 150oC for 60 minutes, those pre-soaked with 0.3M NaOH and wood ash incubated at 37?C for 24 hr boiled at 150?C for 60 minutes and raw feather meal pre-soaked in distilled water for 24 hr boiled at 150?C for 60 minutes gave better results. Wood ash and 0.3M NaOH and their mixture could enhance the nutritional value of feather meal.