Improving the physicochemical and antioxidative properties of fermented goat milk using carob molasses and some probiotic strains.

Fermented goat milk samples, processed by adding 0, 2, and 4% carob molasses, and Bifidobacterium bifidum DSMZ or Lactobacillus helveticus CH5, were evaluated for their physicochemical, antioxidative, and sensory properties along with probiotic viability during storage. pH and viscosity gradually decreased over the storage period whereas their values increased with the increased amount of carob molasses. Bifidobacterium bifidum DSMZ or Lactobacillus helveticus CH5 kept higher viable numbers. Lactobacillus helveticus CH5 strain recorded higher viability. Increasing the added amount of carob molasses increased the total phenolic content, which in turn is reflected in the increase in antioxidant activity. Adding carob molasses participated in the partial masking of the goaty flavor and had no significant effect on the product's acceptability, which was strongly influenced by the progress of cold storage. Therefore, fermented goat milk described by its enhanced physicochemical and antioxidative properties could be obtained by adding carob molasses and probiotics. Supplementary Information: The online version contains supplementary material available at 10.1007/s10068-023-01382-2.

In vitro prebiotic activity of rhLf and galactooligosaccharideson infant intestinal microbiota / Actividad prebiótica in vitro de lactoferrina y galactooligosácridossobre la microbiota intestinal infantil

Objective: human lactoferrin (Lf) and human milk oligosaccharides possess a wide range of functions. So, the present study focusses on the role of Lf and/or galactooligosaccharides (GOS) in the modulation of gut microbiota composition.Methods: recombinant human lactoferrin (rhLf) was added to the first infant formula (0.10, 0.15, 0.20 %) alone or in combination with GOS (1 %) in vessels of a small-scale batch culture fermentation model. Short-chain fatty acids (SCFAs), microbial population groups, and pH were monitored through fermentation for 24 hours. Results: insignificant changes were observed in pH values and acetic acid accumulated during fermentation. Propionic acid content has been insignificantly increased while butyric acid has been insignificantly decreased. Moreover, increments in all bacterial groups except for Bacteroides were observed through the fermentation process. Lactobacillus and Bifidobacterium showed an increase in relation to initial time over thefermentation process, demonstrating the prebiotic effect of lactoferrin and GOS. After 24 hours of fermentation, all tested ingredients showed significant similarities in Enterococcus for controls except for 0.20 % rhLf + 1 % GOS, which provoked a diminution of Enterococci growth. Conclusion: despite the importance of the batch culture fermentation technique in uncovering the prebiotic activity of food ingredients, it is not useful for detecting the prebiotic nature of Lf due to its nature as a protein. Thus, Lf maybe shows its prebiotic activity on the gut microbiota through other mechanisms.(AU)

Objetivo: la lactoferrina humana (Lf) y los oligosacáridos de leche materna presentan un amplio rango de funciones. El presente estudio se centra en el papel de la Lf y/o galactooligosácridos (GOS) en la modulación de la composición de la microbiota intestinal. Métodos: se añadió lactoferrina humana recombinante (rhLf) a fórmula infantil (0,10, 0,15, 0,20 %), sola o en combinación con GOS (1 %) en botes de fermentación colónica. A lo largo de 24 horas de fermentación, se monitorizaron ácidos grasos de cadena corta, grupos de poblaciones microbianas y pH. Resultados: se observaron pequeños cambios en valores de pH y cantidad de ácido acético durante la fermentación. El contenido de ácido propiónico aumentó ligeramente, mientras que el butírico sufrió un ligero descenso. Todos los grupos bacterianos estudiados incrementaron, excepto los Bacteroides, durante la fermentación. Lactobacillus and Bifidobacterium mostraron un incremento respecto al valor inicial, demostrando el efecto prebiótico de la lactoferrina y los GOS. A las 24 horas de fermentación, todos los ingredientes estudiados mostraron similitud al control en cuanto a Enterococcus, excepto para 0,20 % rhLf + 1 % GOS, donde disminuyó el crecimiento de los enterococos. Conclusión: a pesar de la importancia de los estudios de fermentación in vitro para descubrir potenciales ingredientes prebióticos, no fue útil en el caso de lactoferrina debido a su naturaleza proteica. Por tanto, la lactoferrina podría mostrar su actividad prebiótica en la microbiota intestinal a través de otros mecanismos.(AU)

In vitro prebiotic activity of rhLf and galactooligosaccharides on infant intestinal microbiota.

Introduction: Objective: human lactoferrin (Lf) and human milk oligosaccharides possess a wide range of functions. So, the present study focusses on the role of Lf and/or galactooligosaccharides (GOS) in the modulation of gut microbiota composition. Methods: recombinant human lactoferrin (rhLf) was added to the first infant formula (0.10, 0.15, 0.20 %) alone or in combination with GOS (1 %) in vessels of a small-scale batch culture fermentation model. Short-chain fatty acids (SCFAs), microbial population groups, and pH were monitored through fermentation for 24 hours. Results: insignificant changes were observed in pH values and acetic acid accumulated during fermentation. Propionic acid content has been insignificantly increased while butyric acid has been insignificantly decreased. Moreover, increments in all bacterial groups except for Bacteroides were observed through the fermentation process. Lactobacillus and Bifidobacterium showed an increase in relation to initial time over the fermentation process, demonstrating the prebiotic effect of lactoferrin and GOS. After 24 hours of fermentation, all tested ingredients showed significant similarities in Enterococcus for controls except for 0.20 % rhLf + 1 % GOS, which provoked a diminution of Enterococci growth. Conclusion: despite the importance of the batch culture fermentation technique in uncovering the prebiotic activity of food ingredients, it is not useful for detecting the prebiotic nature of Lf due to its nature as a protein. Thus, Lf maybe shows its prebiotic activity on the gut microbiota through other mechanisms.

Introducción: Objetivo: la lactoferrina humana (Lf) y los oligosacáridos de leche materna presentan un amplio rango de funciones. El presente estudio se centra en el papel de la Lf y/o galactooligosácridos (GOS) en la modulación de la composición de la microbiota intestinal. Métodos: se añadió lactoferrina humana recombinante (rhLf) a fórmula infantil (0,10, 0,15, 0,20 %), sola o en combinación con GOS (1 %) en botes de fermentación colónica. A lo largo de 24 horas de fermentación, se monitorizaron ácidos grasos de cadena corta, grupos de poblaciones microbianas y pH. Resultados: se observaron pequeños cambios en valores de pH y cantidad de ácido acético durante la fermentación. El contenido de ácido propiónico aumentó ligeramente, mientras que el butírico sufrió un ligero descenso. Todos los grupos bacterianos estudiados incrementaron, excepto los Bacteroides, durante la fermentación. Lactobacillus and Bifidobacterium mostraron un incremento respecto al valor inicial, demostrando el efecto prebiótico de la lactoferrina y los GOS. A las 24 horas de fermentación, todos los ingredientes estudiados mostraron similitud al control en cuanto a Enterococcus, excepto para 0,20 % rhLf + 1 % GOS, donde disminuyó el crecimiento de los enterococos. Conclusión: a pesar de la importancia de los estudios de fermentación in vitro para descubrir potenciales ingredientes prebióticos, no fue útil en el caso de lactoferrina debido a su naturaleza proteica. Por tanto, la lactoferrina podría mostrar su actividad prebiótica en la microbiota intestinal a través de otros mecanismos.

In vitro digestion effect on CCK and GLP-1 release and antioxidant capacity of some plant-based milk substitutes.

Recently, plant-based milk substitutes, as an emerging industry, are receiving more attention. Despite that, these dairy alternatives have not been adequately studied for their functional properties. Thus, the current research was devoted to study the satiety potential through in vitro secretion of cholecystokinin (CCK) and glucagon-like peptide-1 (GLP-1), and the antioxidant capacity of these dairy alternatives after in vitro digestion. The enteroendocrine cell line, STC-1, was used to measure satiety hormones release (CCK and GLP-1) by enzyme-linked immunoassay (ELISA). Also, total phenolic and flavonoid contents and antioxidant capacity (using oxygen radical absorbance capacity [ORAC], ferric reducing antioxidant power [FRAP], and 2,2'-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid [ABTS] assays) were measured before and after in vitro digestion. The results demonstrated that CCK secretion was significantly (p < 0.05) higher for cow's milk (350.64 pg ml-1 ) as compared to plant-based milk substitutes. Among the plant-based milk substitutes, tiger nut milk showed the highest CCK stimulant (228.96 pg ml-1 ), followed by hazelnut milk (220.04 pg ml-1 ). Concerning GLP-1 release, the data exhibited that spelt milk was the food with the highest induction of GLP-1 hormone secretion, followed by cow's milk (910.17 and 876.59 pg ml-1 , respectively), but without any significant differences between them. total phenolic content (TPC) values strongly increased after in vitro digestion, cow's milk and soymilk being the samples with the highest TPC values after in vitro digestion (165.76 and 153.71 mg GAE/100 ml, respectively). In line with TPC values, soymilk had the highest ORAC, ABTS, and FRAP values after in vitro digestion (25.41, 8.17, and 2.51 µmol TE/ml, respectively). Thus, these dairy alternatives could be an adequate substitute for cow's milk, according to its satiety and antioxidant capacity. PRACTICAL APPLICATION: The first study deals with the efficacy of plant-based milk substitutes as satiating foods. Spelt milk was the highest stimulant for GLP-1 secretion. Tiger nut milk showed the highest CCK stimulant, followed by hazelnut milk. TPC and total antioxidant capacity increased after digestion.

Bioaccessibility and antioxidant activity of PCL-microencapsulated olive leaves polyphenols and its application in yogurt.

Polycaprolactone (PCL)was used via double emulsion/solvent evaporation technique for the encapsulation of polyphenols olive leaves (OLs) extracts. In this study, the PCL-microcapsules loaded with OLs polyphenols extract powder were characterized by scanning electron microscopy and fourier transform infrared spectrometry analysis. Their total phenolic (TPC), total flavonoid (TFC) contents, and antioxidant activities (DPPH, FRAP, and ABTS), and polyphenols stability were measured after oral, gastric, and intestinal steps of in vitro digestion. PCL-microcapsules were utilized in formulating novel functional yogurt containing 0, 25, 50, and 75 mg of TPC estimated as mg GAE (added as PCL-microcapsules) per 100g yogurt. All yogurt samples were evaluated for their pH, acidity, syneresis, viscosity, and color during storage. In vitro digestion significantly affected the phenolic composition in non-encapsulated extract whereas it had a lower impact on encapsulated phenolics. Higher protection was provided for encapsulated OLs extract and their higher release was observed at the intestinal phase. Unlike the undigested OLs extract, which had a TPC of 490 mg GAE/100 g, lower values of TPC (136 and 289 mg GAE/100 g) were obtained for non-encapsulated and encapsulated OLs extract, respectively, in the intestinal fluids. Yogurt with PCL-microcapsules had lower viscosity, syneresis, and color parameters, compared to control yogurt. Thus, OLs represent a valuable and cheap source of polyphenols that can be successfully applied in microencapsulated form, in formulating functional yogurt.

Antioxidant activity and some quality characteristics of buffalo yoghurt fortified with peanut skin extract powder.

Peanut is an important crop grown worldwide. Peanut skin, the byproduct of peanut processing is a valuable byproduct due to its content of many functional components. Therefore, this study aimed to evaluate the effect of fortification of yoghurt with peanut skin extract powder (PSEP) at 50, 100 and 200 mg/L milk on the antioxidant activity (radical scavenging activity RSA%) and some quality characteristics of the resultant yoghurt during cold storage. The obtained results revealed that total phenolic content of PSEP is 109.46 mg GAE/g while it's radical scavenging activity % reached 90.57%. Fortification of yoghurt with PSEP increased the apparent viscosity, antioxidant activity, and total phenolic, acetaldehyde, and diacetyl contents as compared to control, while the syneresis of fortified yoghurt was reduced. Microbiological analysis showed that fresh control yoghurt had the highest counts of Streptococcus thermophilus and Lactobacillus bulgaricus and decreased at the end of storage in all treatments. Both control and T1 (the low concentration of PSEP) gained the highest acceptability; therefore, it was recommended that fortification of yoghurt with 50 mg of PSEP/L is more preferable than the other concentrations. In addition, it could be considered as a natural antioxidant source in formulating functional yoghurt either in industrial and/or small industrial scale.

Organoleptic, textural and whipping properties of whipped cream with different stabilizer blends.

BACKGROUND: Whipped cream is one of the dairy emulsions commonly used as a topping for desserts and cake decorations. Several stabilizers were used to obtain whipped creams of a good quality and with a stable topping. This research study aimed to evaluate the organoleptic, textural, and whipping properties of whipped cream prepared using different stabilizer blends. MATERIALS AND METHODS: In this study, 0.04% of different stabilizers, including carboxymethylcellulose (CMC), κ-carrageenan (KC), or KC blended (in the ratio of 3:1) with cremodan se 30 (C30), 80 (C80) or 216 (C 216), were used in preparing the whipped cream samples. The whipping properties (whipping time, overrun, and foam stability), viscosity, texture, and organoleptic properties were evaluated. RESULTS: The obtained findings revealed that using a KC+C80 blend led to the lowest whipping time (76 s) and the highest overrun (120%). Also, pronounced changes obtained by using these stabilizers and the more suitable viscosity were obtained by using a KC+C80 blend. Moreover, using a KC+C80 blend led to higher values of hardness (4.38 N) and cohesiveness (0.53) and lower values of springiness (4.65 mm), chewiness (5.60 mJ), and adhesiveness (8.66 mJ). The data obtained demonstrated that all whipped the cream samples were organoleptically accepted, and the whipped cream prepared with a KC+C80 blend had the highest score of flavor, texture, appearance, and overall acceptability. CONCLUSION: It could be concluded that using a KC+C80 stabilizer blend improved the whipping and texture properties, viscosity, and organoleptic properties of whipped cream.

Antioxidant, Antibacterial Activities and Mineral Content of Buffalo Yoghurt Fortified with Fenugreek and Moringa oleifera Seed Flours.

Recently, there is an increasing demand for functional yoghurts by consumer, especially those produced through the incorporation of food of plant origin or its bioactive components. The current research was devoted to formulating functional buffalo yoghurt through the addition of 0.1 and 0.2% of fenugreek (Trigonella foenum-graecum) seed flour (F1 and F2) and Moringa oleifera seed flour (M1 and M2). The effects of fortification were evaluated on physicochemical, total phenolic content (TPC), antioxidant activity (AOA), the viability of yoghurt starter, and sensory acceptability of yoghurts during cold storage. Moringa oleifera seed flour had higher contents of TPC (140.12 mg GAE/g) and AOA (31.30%) as compared to fenugreek seed flour (47.4 mg GAE/g and 19.1%, respectively). Values of TPC and AOA significantly increased in fortified yoghurts, and M2 treatment had the highest values of TPC (31.61, 27.29, and 25.69 mg GAE/g) and AOA (89.32, 83.5, and 80.35%) at 1, 7, and 14 days of storage, respectively. M2 showed significantly higher antibacterial activity against E. coli, S. aureus, L. monocytogenes, and Salmonella spp. and the zones of inhibition were 12.65, 13.14, 17.23 and 14.49 mm, respectively. On the other hand, control yoghurt showed the lowest antibacterial activity and the zones of inhibition were (4.12, 5.21, 8.55, and 8.39 mm against E. coli, S. aureus, L. monocytogenes, and Salmonella spp., respectively). Incorporation of 0.1% and 0.2% of moringa seed flour (M1 and M2) led to a higher content of Ca, P, K, and Fe and lower content of Mg and Zn as compared to F1 and F2, respectively. Thus, it could be concluded that fenugreek and Moringa oleifera seed flour can be exploited in the preparation of functional novel yoghurt.

In vitro effectiveness of recombinant human lactoferrin and its hydrolysate in alleviating LPS-induced inflammatory response.

This study aimed to evaluate the potential anti-inflammatory role of the most produced form of lactoferrin expressed in various expression systems (Fe-saturated recombinant human Lf, rhLf) and its hydrolysate in concentrations resembles that found in mature human milk. Co-culture model consisted of CaCo-2 and RAW 246.7 cell lines was used to evaluate the potential anti-inflammatory activity of rhLf and its hydrolysate. During this experiment, CaCo-2 monolayer permeability and integrity was assayed through the measurement of transepithelial electrical resistance (TEER values). Also, the production of reactive oxygen species (ROS), nitric oxide (NO) and different cytokines (IL-8, IL-1ß, IL-6, IL-10, IL-12p70, and TNF-α) were measured. The treatment with rhLf and its hydrolysate protected the monolayer integrity against LPS effect and reduced IL-8 and ROS production. This effect was dependent on the dose and 2mgmL-1 of rhLf hydrolysate was more effective. The addition of rhLf and its hydrolysate to infant formula is a prominent step towards improving both infant formula functionality and newborn health. Thus, these functional ingredients could be incorporated in infant foods. In this context, ongoing researches are conducted to clarify this effect whether by using synthetic peptides or by using LPS-sepsis animal.

Stress-Induced Stroke and Stomach Cancer: Sex Differences in Oxygen Saturation.

Sex differences in stress-related diseases such as stroke and stomach cancer are well established, but the mechanisms underlying this phenomenon remain unknown. Despite the fact that sexual hormones play an important role in the high resistance of females to harmful effects of stress compared with males, the regulation of oxygenation status can be a potential factor, which might explain sex differences in stress-induced cerebrovascular catastrophes in newborn rats and in mutagens activation in adult rats with stomach cancer.