PSX-A-14 Late-Breaking: Lipid digestibility of a rumen-protected fatty acids product

The development of a rumen-protected fatty acid (RPFA) product can make the product undigestible in the small intestine. The objective of this experiment was to measure the digestibility of two prototype feeds RPFA enriched with omega-3. Twenty-four Leghorn cockerels (85-week-old, 2.5 kg body weight) were individually caged and assigned randomly to 4 treatments, with 6 cockerels per treatment. Cockerels were fasted for 24 h and after this period the cockerels were tube fed 40 g of 4 different treatment diets: T1) 80% corn and 20% crystalline cellulose, T2) 80% corn and 20% unprotected RPFA, T3) 80% corn and 20% RPFA treated for 3 hours, and T4) 80% corn and 20% RPFA treated for 6 hours. The RUPFA ingredients were 55% modified soy lecithin, 40% fish oil, 5% dextrose. The protection treatment of RPFA is described in the pending patent (US 2020/0197346 A1). After 48 h all the excreta from the cockerels was collected and dried in an oven at 60 °C for 72 h. Dried excreta samples and diets were analyzed for total lipids. Data were analyzed as complete randomized block design using linear mixed model. Lipid digestibility was different for treatments (P < 0.01). Lipid digestibility was lesser (P < 0.01) for T1 compared with T2, T3, and T4 (87.6% vs 96.8%, 95.5%, and 96.4% (± 0.34) for T1, T2, T3, and T4 respectively). There were no differences (P > 0.1) between T2, T3, and T4. We conclude from these data that the processing of the RPFA product does not change the digestibility of the lipids in non-ruminants.

Lipid Digestibility and Polyphenols Bioaccessibility of Oil-in-Water Emulsions Containing Avocado Peel and Seed Extracts as Affected by the Presence of Low Methoxyl Pectin

In this study, the digestibility of oil-in-water (O/W) emulsions using low methoxyl pectin (LMP) as surfactant and in combination with avocado peel (AP) or seed (AS) extracts was assessed, in terms of its free fatty acid (FFA) release and the phenolic compound (PC) bioaccessibility. With this purpose, AP and AS were characterized by UPLC-ESI-MS/MS before their incorporation into O/W emulsions stabilized using LMP. In that sense, AP extract had a higher content of PCs (6836.32 ± 64.66 mg/100 g of extract) compared to AS extract (1514.62 ± 578.33 mg/100 g of extract). Both extracts enhanced LMP’s emulsifying properties, leading to narrower distributions and smaller particle sizes compared to those without extracts. Similarly, when both LMP and the extracts were present in the emulsions the FFA release significantly increased. Regarding bioaccessibility, the PCs from the AS extracts had a higher bioaccessibility than those from the AP extracts, regardless of the presence of LMP. However, the presence of LMP reduced the bioaccessibility of flavonoids from emulsions containing either AP or AS extracts. These results provide new insights regarding the use of PC extracts from avocado peel and seed residues, and the effect of LMP on emulsion digestibility, and its influence on flavonoids bioaccessibility.

Use of Oleogels to Replace Margarine in Steamed and Baked Buns

Bakery products are usually formulated with solid fats, like margarines and shortenings, which contain high levels of saturated and trans-fatty acids and have negative effects on human health. In this study, hydroxypropyl methylcellulose (HPMC) and xanthan gum (XG) were used as oleogelators to prepare oleogels, using sunflower and olive oil, as substitutes for margarine in baked or steamed buns. The effect of oleogels on the physical properties of the buns was evaluated by analyzing the crumb structure, specific volume, height, and texture. In addition, a triangular discriminatory sensory test was conducted, and lipid digestibility was assessed through in vitro digestion studies. Replacement of margarine with oleogels produced steamed buns with no differences in the crumb structure, volume, height, and texture; however, in baked buns, a less porous and harder structure was produced. No differences in texture were observed between the margarine buns and buns made with oleogels when the triangular test was conducted. The extent of lipolysis was not affected when margarine was replaced by oleogels in the baked and steamed buns. The results suggest that using oleogels instead of margarine in buns could represent an interesting strategy to prepare healthier bakery products.

Nutritional Profiling and Preliminary Bioactivity Screening of Five Micro-Algae Strains Cultivated in Northwest Europe

This study aimed to map the nutritional profile and bioactivities of five microalgae that can be grown in Northwest Europe or areas with similar cultivation conditions. Next to the biochemical composition, the in vitro digestibility of carbohydrates, proteins, and lipids was studied for Chlamydomonas nivalis, Porphyridium purpureum, Chlorella vulgaris, Nannochloropsis gaditana, and Scenedesmus species biomass. These microalgae were also assessed for their ability to inhibit the angiotensin-1-converting enzyme (ACE-1, EC 3.4.15.1), which is known to play a role in the control of blood pressure in mammals. Large differences in organic matter solubility after digestion suggested that a cell disruption step is needed to unlock the majority of the nutrients from N. gaditana and Scenedesmus species biomass. Significant amounts of free glucose (16.4–25.5 g glucose/100 g dry algae) were detected after the digestion of C. nivalis, P. purpureum, and disrupted Scenedesmus. The fatty acid profiles showed major variations, with particularly high Ω-3 fatty acid levels found in N. gaditana (5.5 ± 0.5 g/100 g dry algae), while lipid digestibility ranged from 33.3 ± 6.5% (disrupted N. gaditana) to 67.1 ± 11.2% (P. purpureum). C. vulgaris and disrupted N. gaditana had the highest protein content (45–46% of dry matter), a nitrogen solubility after digestion of 65–71%, and the degree of protein hydrolysis was determined as 31% and 26%, respectively. Microalgae inhibited ACE-1 by 73.4–87.1% at physiologically relevant concentrations compared to a commercial control. These data can assist algae growers and processors in selecting the most suitable algae species for food or feed applications.

Dietary Bacillus NP5 supplement impacts on growth, nutrient digestibility, immune response, and resistance to Aeromonas hydrophila infection of African catfish, Clarias gariepinus

Putra AN, Mustahal, Syamsunarno MB, Hermawan D, Fatimah DG, Putri PB, Sevia, Isnaini R, Herjayanto M. 2021. Dietary Bacillus NP5 supplement impacts on growth, nutrient digestibility, immune response, and resistance to Aeromonas hydrophila infection of African Catfish, Clarias gariepinus. Biodiversitas 22: 253-261. This study aims to investigate the effects of Bacillus NP5 supplementation as a probiotic on growth, immune response, and resistance of African catfish to Aeromonas hydrophila infection. Catfish with an initial weight of 6.8 ± 0.1 g were fed with different doses of Bacillus NP5 (0%, 1.1%, 1.2% B, 1.3%, and 1.4%) with three replications and reared for 60 days. The first 45 days were used to observed growth performance, and the last 15 days were used to perform challenge tests against A. hydrophila infection. The results showed that the treatment of 1.2% Bacillus NP5 results in the highest specific growth rate (2.55±0.28 day-1) and increased protein and lipid digestibility significantly (P<0.05). Treatment of 1.1-1.3% Bacillus NP5 increase amylase and lipase activity that significantly higher than 0% Bacillus NP5 treatment. Supplementation of Bacillus NP5 significantly increased the leukocyte, phagocytic index, and survival rate in African catfish after A. hydrophila infection. Therefore, the supplementation of 1.2% Bacillus NP5 in the feed increased the growth, immune response, and African catfish resistance to the infection.

Replacement of fish meal with defatted and fermented soybean meals in pompano Trachinotus blochii (Lacepède, 1801) diets

This study was conducted to examine the effects of the replacement of fish meal with defatted and fermented soybean meals on the growth performance, apparent nutrient digestibility, bile acid levels, and digestive enzyme activity of pompano Trachinotus blochii (Lacepède, 1801). Four diets were formulated to replace 40% of fish meal with defatted soybean meal (SBM), SBM fermented by Bacillus subtilis TH2 (FSBM1) or SBM fermented by B. subtilis B3 (FSBM2). The diets are denoted as follows: FMD (fish meal-based diet, used as a Control), SBMD (fish meal replaced by SBM diet), FSBM1D (fish meal replaced by FSBM1 diet), and FSBM2D (fish meal replaced by FSBM2 diet). Thirty fingerling pompanos with an initial body weight of 15.3 ± 0.3 g were allocated to each of eight indoor polyvinyl chloride tanks (500 L capacity), with two replicate tanks per dietary treatment. For 8 weeks, fish were hand-fed the experimental diets to apparent satiation twice daily. The final body weight, weight gain, specific growth rate, and feed conversion ratio of fish fed SBMD and FSBM1D were significantly inferior to those in fish fed FMD (P<0.05). These parameters were not significantly different between the FSBM2D and FMD experimental groups (P>0.05). Fish fed SBMD showed significantly lower plasma total cholesterol, whole body lipids, intestinal total bile acids and lipase activity than those fed FMD, whereas no significant differences were observed among fish fed FSBM1D, FSBM2D, and FMD. Trypsin activity and protein apparent digestibility coefficient were not significantly affected by the experimental diets. However, lipid apparent digestibility coefficient was significantly lower in fish fed SBMD and FSBM1D rather than FMD. There was no significant difference in lipid apparent digestibility coefficient between the FMD and FSBM2D experimental groups. The results indicated that SBM decreased bile acid levels, lipase activity, lipid digestibility, and growth performance in pompano fish. These parameters were increased by the inclusion of B. subtilis B3 fermented SBM in the diet, thus suggesting that fermentation of SBM with B. subtilis B3 may be an effective way to improve bile acid levels, lipase activity, lipid digestibility, and growth performance of pompano fed an SBM-based diet.