Your search keyword '"fiber fermentation"' showing total 16 results

1. Dietary Fiber's Physicochemical Properties and Gut Bacterial Dysbiosis Determine Fiber Metabolism in the Gut.

Author

Moncada, Edward, Bulut, Nuseybe, Li, Shiyu, Johnson, Timothy, Hamaker, Bruce, and Reddivari, Lavanya

Abstract

A fiber-rich diet is considered beneficial for gut health. An inflamed gut with a dysbiotic bacterial community can result in altered fiber metabolism depending on the fiber's physicochemical properties. This study examined the effect of fiber's physicochemical properties on fiber fermentation in the presence of healthy and colitis-associated bacteria. Sixteen fibers with different levels of solubility, complexity, and fermentation rate were used in in vitro fermentation with healthy human gut bacteria. Resistant maltodextrins (RMD), pectin (HMP), inulin (ChIn), and wheat bran (WB) were selected for fermentation using ulcerative colitis (UC)-associated bacteria to assess bacterial dysbiosis effect. UC-associated gut microbiota showed a significant reduction in α-and β-diversity indices compared to healthy-associated microbiota. The differences in the gut microbiota composition and diversity between the donors resulted in decreased fermentation rates with UC-associated bacteria. Fiber fermentation metabolites, short-chain fatty acids (SCFA) and gas production were significantly lower in the presence of UC-associated bacteria for all four fibers tested. Overall, we conclude that dietary fiber properties and microbial dysbiosis are influential in fiber fermentation and metabolite production in the gut. [ABSTRACT FROM AUTHOR]

Published

2024

2. Dietary Fiber’s Physicochemical Properties and Gut Bacterial Dysbiosis Determine Fiber Metabolism in the Gut

Author

Edward Moncada, Nuseybe Bulut, Shiyu Li, Timothy Johnson, Bruce Hamaker, and Lavanya Reddivari

Subjects

dietary fiber, fiber fermentation, gut bacterial dysbiosis, colitis, Nutrition. Foods and food supply, TX341-641

Abstract

A fiber-rich diet is considered beneficial for gut health. An inflamed gut with a dysbiotic bacterial community can result in altered fiber metabolism depending on the fiber’s physicochemical properties. This study examined the effect of fiber’s physicochemical properties on fiber fermentation in the presence of healthy and colitis-associated bacteria. Sixteen fibers with different levels of solubility, complexity, and fermentation rate were used in in vitro fermentation with healthy human gut bacteria. Resistant maltodextrins (RMD), pectin (HMP), inulin (ChIn), and wheat bran (WB) were selected for fermentation using ulcerative colitis (UC)-associated bacteria to assess bacterial dysbiosis effect. UC-associated gut microbiota showed a significant reduction in α-and β-diversity indices compared to healthy-associated microbiota. The differences in the gut microbiota composition and diversity between the donors resulted in decreased fermentation rates with UC-associated bacteria. Fiber fermentation metabolites, short-chain fatty acids (SCFA) and gas production were significantly lower in the presence of UC-associated bacteria for all four fibers tested. Overall, we conclude that dietary fiber properties and microbial dysbiosis are influential in fiber fermentation and metabolite production in the gut.

Published

2024

3. Utilization of exogenous fibrolytic enzymes in fiber fermentation, degradation, and digestions and characteristics of whole legume faba bean and its plant silage.

Author

Yang, Jen-Chieh, Guevara-Oquendo, Victor H., Christensen, David, Lardner, Herbert, Refat, Basim, Rodríguez Espinosa, María E., and Yu, Peiqiang

Subjects

*SILAGE, *FAVA bean, *LEGUMES, *DIGESTION, *DRY matter in animal nutrition, *FERMENTATION, *ENZYMES, *PLANT fibers

Abstract

This article aims to review recent progress and update on utilization of exogenous fibrolytic enzymes in fiber fermentation, degradation, and digestions and nutritive and anti-nutritional characteristics of whole legume faba bean and its silage. The study focused on strategies to improve the utilization and bioavailability of fiber through pre-treating exogenous fibrolytic enzymes. The review includes features of nutrition and anti-nutritional factors and environment impact, forage fiber fermentation, degradation and digestion, legume bean in various diets, use of exogenous enzyme and factor affecting enzyme action in fiber digestion as well as exogenous enzyme response. This review also provides very recent research on effects of fibrolytic enzyme on rumen degradation characteristics of dry matter and fiber of whole plant faba bean silage and effect of exogenous fibrolytic enzyme derived from trichoderma reesei on lactational performance, feeding behavior, rumen fermentation and nutrient digestibility in dairy cows fed whole plant faba bean silage-based diet. This study provides an insight on nutritive and anti-nutritive characteristics of whole legume bean and its plant silage and utilization of exogenous fibrolytic enzymes in fiber fermentation, degradation, and digestions. [ABSTRACT FROM AUTHOR]

Published

2023

4. Cereal type and combined xylanase/glucanase supplementation influence the cecal microbiota composition in broilers

Author

Dimitrios Kouzounis, Jannigje G. Kers, Natalia Soares, Hauke Smidt, Mirjam A. Kabel, and Henk A. Schols

Subjects

Arabinoxylo-oligosaccharides, Broiler gut microbiota, Cereal non-starch polysaccharides, Feed enzymes, Fiber fermentation, Prebiotics, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Abstract Dietary fiber-degrading enzyme supplementation in broilers aims at off-setting the anti-nutritive effect of non-starch polysaccharides and at promoting broiler health. Recently, we demonstrated that xylanase/glucanase addition in wheat-based diet improved nutrient digestibility, arabinoxylan fermentability and broiler growth. Conversely, maize arabinoxylan was found to be recalcitrant to xylanase action. These findings suggested that enzyme-mediated improvement of nutrient digestion and carbohydrate fermentation depended on the cereal type present in the diet, and may have contributed to broiler growth. Hence, we aimed at further investigating the link between dietary enzymes and carbohydrate fermentation in broilers, by studying the impact of enzyme supplementation in cereal-based diets, to the microbial communities in the ileum and ceca of broilers. For that purpose, 96 one-day-old male broilers were randomly reared in two pens and received either wheat-based or maize-based starter and grower diets. At d 20, the broilers were randomly assigned to one out of four dietary treatments. The broilers received for 8 d the wheat-based or maize-based finisher diet as such (Control treatments; WC, MC) or supplemented with a xylanase/glucanase combination (Enzyme treatments; WE, ME). At d 28, samples from the digestive tract were collected, and the ileal and cecal microbiota composition was determined by 16S ribosomal RNA gene amplicon sequencing. A similar phylogenetic (alpha) diversity was observed among the four treatments, both in the ileal and the cecal samples. Furthermore, a similar microbial composition in the ileum (beta diversity) was observed, with lactobacilli being the predominant community for all treatments. In contrast, both cereal type and enzyme supplementation were found to influence cecal communities. The type of cereal (i.e., wheat or maize) explained 47% of the total variation in microbial composition in the ceca. Further stratifying the analysis per cereal type revealed differences in microbiota composition between WC and WE, but not between MC and ME. Furthermore, the prevalence of beneficial genera, such as Faecalibacterium and Blautia, in the ceca of broilers fed wheat-based diets coincided with arabinoxylan accumulation. These findings indicated that fermentable arabinoxylan and arabinoxylo-oligosaccharides released by dietary xylanase may play an important role in bacterial metabolism.

Published

2022

5. Cereal type and combined xylanase/glucanase supplementation influence the cecal microbiota composition in broilers.

Author

Kouzounis, Dimitrios, Kers, Jannigje G., Soares, Natalia, Smidt, Hauke, Kabel, Mirjam A., and Schols, Henk A.

Subjects

*XYLANASES, *BACTERIAL metabolism, *DIETARY carbohydrates, *DIETARY supplements, *RIBOSOMAL RNA, *ALIMENTARY canal, *DIETARY fiber

Abstract

Dietary fiber-degrading enzyme supplementation in broilers aims at off-setting the anti-nutritive effect of non-starch polysaccharides and at promoting broiler health. Recently, we demonstrated that xylanase/glucanase addition in wheat-based diet improved nutrient digestibility, arabinoxylan fermentability and broiler growth. Conversely, maize arabinoxylan was found to be recalcitrant to xylanase action. These findings suggested that enzyme-mediated improvement of nutrient digestion and carbohydrate fermentation depended on the cereal type present in the diet, and may have contributed to broiler growth. Hence, we aimed at further investigating the link between dietary enzymes and carbohydrate fermentation in broilers, by studying the impact of enzyme supplementation in cereal-based diets, to the microbial communities in the ileum and ceca of broilers. For that purpose, 96 one-day-old male broilers were randomly reared in two pens and received either wheat-based or maize-based starter and grower diets. At d 20, the broilers were randomly assigned to one out of four dietary treatments. The broilers received for 8 d the wheat-based or maize-based finisher diet as such (Control treatments; WC, MC) or supplemented with a xylanase/glucanase combination (Enzyme treatments; WE, ME). At d 28, samples from the digestive tract were collected, and the ileal and cecal microbiota composition was determined by 16S ribosomal RNA gene amplicon sequencing. A similar phylogenetic (alpha) diversity was observed among the four treatments, both in the ileal and the cecal samples. Furthermore, a similar microbial composition in the ileum (beta diversity) was observed, with lactobacilli being the predominant community for all treatments. In contrast, both cereal type and enzyme supplementation were found to influence cecal communities. The type of cereal (i.e., wheat or maize) explained 47% of the total variation in microbial composition in the ceca. Further stratifying the analysis per cereal type revealed differences in microbiota composition between WC and WE, but not between MC and ME. Furthermore, the prevalence of beneficial genera, such as Faecalibacterium and Blautia, in the ceca of broilers fed wheat-based diets coincided with arabinoxylan accumulation. These findings indicated that fermentable arabinoxylan and arabinoxylo-oligosaccharides released by dietary xylanase may play an important role in bacterial metabolism. [ABSTRACT FROM AUTHOR]

Published

2022

6. Fiber digestibility in growing pigs fed common fiber-rich ingredients – A systematic review.

Author

Yang, Pan and Zhao, Jinbiao

Subjects

*SHORT-chain fatty acids, *SWINE growth, *SWINE, *SWINE nutrition, *DIETARY fiber, *FIBERS

Abstract

The application of high-fiber ingredients in the swine feed industry has some limitations considering that high amounts of fiber are resistant to endogenous enzymatic degradation in the pig's gut. However, there is growing interest in fiber fermentation in the intestine of pigs due to their functional properties and potential health benefits. Many strategies have been applied in feed formulations to improve utilization efficiency of fiber-rich ingredients and stimulate their prebiotic effects in pigs. This manuscript reviews chemical compositions, physical properties, and digestibility of fiber-rich diets formulated with fibrous ingredients for growing pigs. Evidences presented in this review indicate there is a great variation in chemical compositions and physical properties of fibrous ingredients, resulting in the discrepancy of energy and fiber digestibility in pig intestine. In practice, fermentation capacity of fiber components in the pig's intestine can be improved using strategies, such as biological enzymes supplementation and feed processing technologies. Soluble dietary fiber (SDF) and insoluble dietary fiber (IDF), rather than neutral detergent fiber (NDF) and acid detergent fiber (ADF), are recommended in application of pig production to achieve precise feeding. Limitations of current scientific research on determining fiber digestibility and short chain fatty acids (SCFA) production are discussed. Endogenous losses of fiber components from non-dietary materials that result in underestimation of fiber digestibility and SCFA production are discussed in this review. Overall, the purpose of our review is to provide a reference for feeding the pig by choosing the diets formulated with different high-fiber ingredients. [ABSTRACT FROM AUTHOR]

Published

2022

7. Effects of body weight and fiber sources on fiber digestibility and short chain fatty acid concentration in growing pigs

Author

Jinbiao Zhao, Xuzhou Liu, Yi Zhang, Ling Liu, Junjun Wang, and Shuai Zhang

Subjects

body weight, fiber sources, fiber fermentation, growing pig, short chain fatty acids, Animal culture, SF1-1100, Animal biochemistry, QP501-801

Abstract

Objective The study was conducted to determine the effects of body weight (BW) and fiber sources on nutrient digestibility, fiber fermentation and short chain fatty acids (SCFA) concentration in different intestinal segments of growing pigs fed high-fiber diets. Methods Nine barrows with initial BW of 25.17±0.73 kg and 9 barrows with initial BW of 63.47±2.18 kg were allotted to a duplicate 9×2 Youden Square design with 3 dietary treatments and 2 periods. The dietary treatments were formulated with 3 different high-fiber ingredients: corn bran, sugar beet pulp, and soybean hulls, respectively. Each diet was fed to 3 barrows with different stage of BW in each period. Results There were no differences in the apparent ileal digestibility (AID) of most nutrients between pigs at different BW stages. Pigs at 60 kg had greater (p

Published

2020

8. Modulation of human gut microbiota by dietary fibers from unripe and ripe papayas : Distinct polysaccharide degradation using a colonic in vitro fermentation model

Author

Bernardino Ramos do Prado, Samira, Minguzzi, Beatriz Toledo, Hoffmann, Christian, Fabi, João Paulo, Bernardino Ramos do Prado, Samira, Minguzzi, Beatriz Toledo, Hoffmann, Christian, and Fabi, João Paulo

Abstract

Dietary fibers (DFs) consumption promotes a healthier gut through colonic fermentation and the modulation of different types of gut bacteria. The aim of this study is to evaluate the production of short-chain fatty acids (SCFA), metabolization of polysaccharides, and changes in the bacterial profile related to DFs extracted from the pulp of unripe and ripe papayas, using a batch colonic in vitro fermentation model. Our results show that fermentation of DFs from papayas induce the production of SCFAs and are utilized in different ways by intestinal microbiota. DFs from ripe papayas showed faster degradation by human gut microorganisms due to higher level of water-soluble polysaccharides. The fermentation of unripe papaya fibers increased the abundance of microorganisms belonging to family Clostridiaceae and genera Coprobacillus, Bulleidia, and Slackia, whereas both fibers increased Clostridium and Bacteroides, showing fruit ripeness affects the fermentation pattern of fruit fibers and their probable beneficial health aspects., Funding Agencies:Fundacao de Amparo a Pesquisa do Estado de Sao Paulo Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPQ)

Published

2021

9. Effects of whole-grain cereal foods on plasma short chain fatty acid concentrations in individuals with the metabolic syndrome

Author

Claudia Vetrani, Giuseppina Costabile, PhD, Delia Luongo, BSc, Daniele Naviglio, Angela A. Rivellese, Gabriele Riccardi, Rosalba Giacco, Vetrani, Claudia, Costabile, Giuseppina, Luongo, Delia, Naviglio, Daniele, Rivellese, ANGELA ALBAROSA, Riccardi, Gabriele, and Giacco, Rosalba

Subjects

Blood Glucose, Dietary Fiber, Male, 0301 basic medicine, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, fibre fermentation, Acetates, Gut flora, Body Mass Index, 0302 clinical medicine, Postprandial insulin, Interleukin-1alpha, Propionate, Insulin, Metabolic Syndrome, chemistry.chemical_classification, Whole Grains, Nutrition and Dietetics, biology, Short-chain fatty acid, food and beverages, Middle Aged, Postprandial Period, Butyrates, C-Reactive Protein, Postprandial, Fiber fermentation, Female, cardiometabolic diseases, inflammation, Whole-grains, medicine.medical_specialty, 030209 endocrinology & metabolism, 03 medical and health sciences, Internal medicine, medicine, Humans, Obesity, Triglycerides, Inflammation, 030109 nutrition & dietetics, Interleukin-6, Tumor Necrosis Factor-alpha, Cholesterol, HDL, C-reactive protein, Cholesterol, LDL, Overweight, Fatty Acids, Volatile, biology.organism_classification, medicine.disease, Diet, Cardiometabolic disease, Endocrinology, chemistry, biology.protein, Patient Compliance, Propionates, Metabolic syndrome, Energy Intake, Biomarkers

Abstract

37 Objective: Short chain fatty acids (SCFAs) derived from dietary fibre fermentation by gut 38 microbiota have been identified as one of the mechanisms behind the association between habitual 39 whole-grain intake and a lower risk of cardiometabolic diseases. The aims of the present work are: 40 (1) to evaluate whether a whole-grain wheat-based diet may increase SCFAs concentration; (2) to 41 identify possible associations between SCFAs and metabolic changes observed after the nutritional 42 intervention. 43 Research Methods & Procedures: Fifty-four subjects participated in the trial. They underwent a 44 12-week dietary intervention based on whole-grain or refined cereal products. At baseline and after 45 the intervention, glucose, insulin, triglyceride, inflammatory markers (hs-CRP, IL-1ra, IL-6 and 46 TNF-?) and SCFAs plasma concentrations were evaluated. 47 Results: After the intervention, in the whole-grain group fasting plasma propionate concentrations 48 were higher than at baseline, whereas a reduction was detected in the control group. Thence, the 49 absolute changes (end of trial minus baseline) in fasting plasma propionate concentrations were 50 significantly different between the two groups (p=0.048). The absolute changes of fasting 51 propionate correlated with cereal fibre intake (r= 0.358, p= 0.023) but no significant correlations 52 with clinical outcomes were found. However, postprandial insulin was significantly decreased in the 53 group having the absolute changes of fasting propionate concentration above the median value 54 (p=0.022 vs subjects with fasting propionate changes below the median value). 55 Conclusions: A 12 week whole-grain wheat-based diet increases fasting plasma propionate. This 56 increase correlates with the cereal fibre intake and is associated with lower postprandial insulin 57 concentrations.

Published

2016

10. Modulation of human gut microbiota by dietary fibers from unripe and ripe papayas: Distinct polysaccharide degradation using a colonic in vitro fermentation model.

Author

do Prado, Samira Bernardino Ramos, Minguzzi, Beatriz Toledo, Hoffmann, Christian, and Fabi, João Paulo

Subjects

*PAPAYA, *GUT microbiome, *HUMAN microbiota, *DIETARY fiber, *SHORT-chain fatty acids, *FERMENTATION, *FRUIT ripening

Abstract

• Dietary fibers from unripe and ripe papayas were fermented in vitro. • Both produced high amounts of short-chain fatty acids. • Different modulation of human gut microbiota was observed (16S sequencing). • Both fibers increased Clostridium and Bacteroides. • Fruit ripeness affects the fermentation pattern of fruit fibers. Dietary fibers (DFs) consumption promotes a healthier gut through colonic fermentation and the modulation of different types of gut bacteria. The aim of this study is to evaluate the production of short-chain fatty acids (SCFA), metabolization of polysaccharides, and changes in the bacterial profile related to DFs extracted from the pulp of unripe and ripe papayas, using a batch colonic in vitro fermentation model. Our results show that fermentation of DFs from papayas induce the production of SCFAs and are utilized in different ways by intestinal microbiota. DFs from ripe papayas showed faster degradation by human gut microorganisms due to higher level of water-soluble polysaccharides. The fermentation of unripe papaya fibers increased the abundance of microorganisms belonging to family Clostridiaceae and genera Coprobacillus , Bulleidia , and Slackia , whereas both fibers increased Clostridium and Bacteroides , showing fruit ripeness affects the fermentation pattern of fruit fibers and their probable beneficial health aspects. [ABSTRACT FROM AUTHOR]

Published

2021

11. Effects of body weight and fiber sources on fiber digestibility and short chain fatty acid concentration in growing pigs.

Author

Zhao J, Liu X, Zhang Y, Liu L, Wang J, and Zhang S

Abstract

Objective: The study was conducted to determine the effects of body weight (BW) and fiber sources on nutrient digestibility, fiber fermentation and short chain fatty acids (SCFA) concentration in different intestinal segments of growing pigs fed high-fiber diets., Methods: Nine barrows with initial BW of 25.17±0.73 kg and 9 barrows with initial BW of 63.47±2.18 kg were allotted to a duplicate 9×2 Youden Square design with 3 dietary treatments and 2 periods. The dietary treatments were formulated with 3 different high-fiber ingredients: corn bran, sugar beet pulp, and soybean hulls, respectively. Each diet was fed to 3 barrows with different stage of BW in each period., Results: There were no differences in the apparent ileal digestibility (AID) of most nutrients between pigs at different BW stages. Pigs at 60 kg had greater (p<0.05) apparent total tract digestibility (ATTD) of total dietary fiber (TDF), soluble dietary fiber (SDF) and insoluble dietary fiber (IDF), and had greater (p<0.05) hindgut disappearance of IDF and cellulose than pigs at 25 kg. The acetate, propionate and total SCFA concentrations in ileal digesta and feces of pigs at 60 kg were greater (p<0.05) than those of pigs at 25 kg. In addition, fiber sources affected (p<0.05) the AID of gross energy (GE), organic matter (OM), ether extract (EE), crude protein, SDF and hemicellulose, the hindgut disappearance and ATTD of dietary fiber components, the lactate and propionate concentrations in ileal digesta and the butyrate, valerate and total SCFA concentrations in feces. There were interactions (p<0.05) between BW and fiber sources on the AID of GE, OM, EE, SDF, hemicellulose, the ATTD of EE, TDF, and IDF, and the hindgut disappearance of SDF and hemicellulose., Conclusion: Increasing BW mainly improved the digestibility of dietary fiber fractions, and the dietary fiber sources influenced the digestibility of almost all the dietary nutrients in growing pigs.

Published

2020

12. Effects of whole-grain cereal foods on plasma short chain fatty acid concentrations in individuals with the metabolic syndromediet resembling the traditional Mediterranean dietary pattern: Can SCFAs play a role?

Author

Vetrani C., Costabile G., Luongo D., Naviglio D., Rivellese A. A., Riccardi G., and Giacco R.

Subjects

Whole-grains, Inflammation, Postprandial insulin, Fiber fermentation, Propionate, food and beverages, Cardiometabolic diseases

Abstract

Objective: Short chain fatty acids (SCFAs) derived from dietary fiber fermentation by gut microbiota have been identified as one of the mechanisms behind the association between habitual whole- grain intake and a lower risk of cardiometabolic diseases. The aims of the present work are: (1) to evaluate whether a whole-grain wheat-based diet may increase SCFAs concentration, and (2) to identify possible associations between SCFAs and metabolic changes observed after the nutritional intervention. Methods: Fifty-four subjects participated in the trial. They underwent a 12-wk dietary intervention based on whole-grain or refined cereal products. At baseline and after the intervention, glucose, insulin, triacylglycerol, inflammatory markers (hs-CRP, IL-1 ra, IL-6, and TNF-a), and SCFAs plasma concentrations were evaluated. Results: After the intervention, in the whole-grain group fasting plasma propionate concentrations were higher than at baseline, whereas a reduction was detected in the control group. The absolute changes (end of trial minus baseline) in fasting plasma propionate concentrations were signifi- cantly different between the two groups (P ¼ 0.048). The absolute changes of fasting propionate correlated with cereal fiber intake (r ¼ 0.358, P ¼ 0.023), but no significant correlations with clinical outcomes were found. However, postprandial insulin was significantly decreased in the group having the absolute changes of fasting propionate concentration above the median value (P ¼ 0.022 versus subjects with fasting propionate changes below the median value). Conclusions: A 12-wk whole-grain wheat-based diet increases fasting plasma propionate. This increase correlates with the cereal fiber intake and is associated with lower postprandial insulin concentrations.

Published

2016

13. 59 Effects of casein and varying protein sources on in vitro fermentation of forages by mixed cecal microorganisms.

Author

Halpin, M Y, Drouillard, J S, Fehlberg, L K, Douthit, T L, and Lattimer, J M

Subjects

*RUMEN fermentation, *CASEINS, *FORAGE, *ALFALFA, *SOYBEAN meal

Abstract

While it is known protein impacts VFA production in the rumen, our objectives were to 1) identify optimal concentration of added casein to maximize fiber digestion by equine cecal microorganisms fed alfalfa or prairie hay, and 2) evaluate varying protein sources for impact on fermentation of prairie hay in cecal cultures. Cecal digesta obtained from 4 cannulated horses was used to inoculate in vitro cultures. Casein was combined with alfalfa or prairie hay (5 g, DM basis) to provide 0, 0.5, 1, 2, or 4% additional crude protein. Cellulose was included in inversely proportional amounts relative to casein to equalize DM between treatments. Substrate, casein, and cellulose were combined with 140 mL of McDougall's buffer and 10 mL of strained cecal fluid and incubated at 39 ̊C for 48 h. Terminal pH, IVDMD, and disappearance of neutral detergent fiber (NDFD) and acid detergent fiber (ADFD) were influenced by combinations of forage source and casein [linear forage x casein effect, and linear and quadratic effects of casein (P ≤ 0.05)], but gas production was unaffected. There was a linear effect of casein on concentrations of acetate, propionate, butyrate, isobutyrate, isovalerate, valerate, isocaproate, and acetate:propionate ratio (P ≤ 0.044). There was a linear forage x casein effect on total VFA concentration (P < 0.05). Both alfalfa and increasing casein were associated with increased IVDMD, NDFD, and ADFD, while alfalfa was also associated with increased VFA concentration and decreased pH (P < 0.0001). For trial 2, casein, fishmeal, soybean meal, whey, plasma, and l-lysine were added to supply 2% additional protein to cultures with prairie hay. Compared to control, all protein sources led to decreased pH and increased IVDMD, NDFD and ADFD (P ≤ 0.006), with the largest effects elicited by casein, lysine, and whey. Supplemental protein, regardless of source, resulted in increased propionate and butyrate concentrations, and decreased acetate:propionate ratio (P ≤ 0.022). Acetate concentration increased with casein, l-lysine and whey (P ≤ 0.029). Total VFA production increased with l-lysine, whey, casein, soybean meal, and fishmeal (P ≤ 0.04) and tended to increase with plasma (P = 0.0564). Gas production increased only with casein (P = 0.0056). Supplemental protein, regardless of source, impacted fermentation parameters of prairie hay cultured with cecal microorganisms, with the greatest changes occurring with the more soluble casein, whey, and l-lysine. [ABSTRACT FROM AUTHOR]

Published

2018

14. Effects of whole-grain cereal foods on plasma short chain fatty acid concentrations in individuals with the metabolic syndrome.

Author

Vetrani C, Costabile G, Luongo D, Naviglio D, Rivellese AA, Riccardi G, and Giacco R

Subjects

Acetates blood, Biomarkers blood, Blood Glucose metabolism, Body Mass Index, Butyrates blood, C-Reactive Protein metabolism, Cholesterol, HDL blood, Cholesterol, LDL blood, Dietary Fiber administration & dosage, Energy Intake, Female, Humans, Insulin blood, Interleukin-1alpha blood, Interleukin-6 blood, Male, Middle Aged, Obesity blood, Overweight blood, Patient Compliance, Postprandial Period, Propionates blood, Triglycerides blood, Tumor Necrosis Factor-alpha blood, Diet, Fatty Acids, Volatile blood, Metabolic Syndrome blood, Whole Grains

Abstract

Objective: Short chain fatty acids (SCFAs) derived from dietary fiber fermentation by gut microbiota have been identified as one of the mechanisms behind the association between habitual whole-grain intake and a lower risk of cardiometabolic diseases. The aims of the present work are: (1) to evaluate whether a whole-grain wheat-based diet may increase SCFAs concentration, and (2) to identify possible associations between SCFAs and metabolic changes observed after the nutritional intervention., Methods: Fifty-four subjects participated in the trial. They underwent a 12-wk dietary intervention based on whole-grain or refined cereal products. At baseline and after the intervention, glucose, insulin, triacylglycerol, inflammatory markers (hs-CRP, IL-1 ra, IL-6, and TNF-α), and SCFAs plasma concentrations were evaluated., Results: After the intervention, in the whole-grain group fasting plasma propionate concentrations were higher than at baseline, whereas a reduction was detected in the control group. The absolute changes (end of trial minus baseline) in fasting plasma propionate concentrations were significantly different between the two groups (P = 0.048). The absolute changes of fasting propionate correlated with cereal fiber intake (r = 0.358, P = 0.023), but no significant correlations with clinical outcomes were found. However, postprandial insulin was significantly decreased in the group having the absolute changes of fasting propionate concentration above the median value (P = 0.022 versus subjects with fasting propionate changes below the median value)., Conclusions: A 12-wk whole-grain wheat-based diet increases fasting plasma propionate. This increase correlates with the cereal fiber intake and is associated with lower postprandial insulin concentrations., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

15. Ileal effluent as a fermentation substrate: implications for butyrate production in the colon

Author

Robertson, James A., Botham, Louise, Ryden, Peter, and Ring, Steve

Subjects

CANCER research, NUTRITION

Abstract

Fermentation of fiber can lead to an enhanced production of short chain fatty acids (SCFA) and, hence, contribute to the proposed anticarcinogenic properties of butyrate in the colon. The fermentation of fiber isolates and the corresponding ileal effluents has been compared under in vitro conditions. Yield of SCFA per gram of substrate fermented was similar for isolates and fiber-enriched effluents (~4.9 mmol/g) and it could be inferred that nonfiber components of effluent alsogenerated SCFA. Butyrate production was highest for glucan-based polymers (~30% total SCFA) and, from the measured acidogenic profile, production of SOFA will occur mainly in the proximal colon. The buffering capacity of ileal effluents during fermentation restrict the potential for a reduction in pH during acidogenesis compared to fiber isolates. This buffering capacity could limit the bioavailability of butyrate in the colon and, hence, the ability to satisfy the proposed antineoplastic properties of butyrate in the colon. [ABSTRACT FROM AUTHOR]

Published

1999

16. An experimental design to study colonic fibre fermentation in the rat: the duration of feeding

Author

Eastwood, M. A., Brydon, W. G., Elton, R. A., and Walter, Deborah J.

Published

1986