Global ETD Search

121	Effects of Reed Sedge Peat on Lambs at Weaning with Regard to Stress and Apparent Nutrient Digestibility Price, Rhianwedd O 03 May 2019 (has links) For this study 14 lambs were obtained, which were split into two groups; a control group (CON) and a group that was supplemented Reed Sedge Peat (RSP). We wanted to test whether RSP could decrease stress at weaning, increase immune response and also increase digestibility of the animal. Lambs were subjected to an ACTH challenge 48 hours post weaning. After weaning (d 28 of study) 10 of the lambs (5 CON; 5 RSP) also underwent a digestibility challenge. We found that there was no difference (P = 0.8764) within cortisol concentration during the weaning portion of the study between the two treatment groups. During the ACTH challenger there was a difference between RSP group and CON, where RSP had a decrease in cortisol concentration (P = 0.0892). There was no difference in blood cell parameters, except for SEG, % (P = 0.0890) where RSP had greater % of SEG than CON group. Within the digestibility trail there was a decrease in digestibility within the RSP group compared to CON, within DM, OM, NDF and ADF (P = 0.0458; P = 0.0430; P = 0.0509; P = 0.0786; respectively). Stress Weaning Apparent digestibility Reed sedge peat Humic substances
122	Nutritional Value of Warm- and Cool-Season Grasses for Ruminants Mundie, Benjamin Scott 02 June 1999 (has links) A metabolism trial was conducted to compare the nutritional value of: 1)"Quickstand" bermudagrass [Cynodon dactylon (L.) Pers.], 2)caucasian bluestem [Bothriochloa caucasia (Trin.) C.E. Hubb], 3)tall fescue (Festuca arundinacea Schreb.), and 4)orchardgrass (Dactylis glomerata L.). The warm-season grasses (bermudagrass and bluestem) were higher (P < .01) in fiber components than the cool-season grasses (tall fescue and orchardgrass). Bluestem was lower (P < .001) in CP, hemicellulose, and ash, and higher in NDF (P < .001), ADF (P < .001), cellulose (P < .001), and lignin (P < .01) than bermudagrass. The warm-season grasses were lower in the apparent digestibility of DM (P < .001), NDF (P < .01), ADF (P < .05), cellulose (P < .05), and hemicellulose (P < .01) than cool-season grasses. Apparent digestibility of NDF (P < .001), ADF (P < .001), cellulose (P < .01), and hemicellulose (P < .01) was higher for bluestem than bermudagrass. Fescue was higher (P < .001) in apparent digestibility of DM and CP and lower (P < .01) in apparent digestibility of NDF, ADF, cellulose, and hemicellulose than orchardgrass. Lambs fed bluestem had lower (P < .05) N retention than those fed bermudagrass, when expressed as g/d. Lambs fed fescue had higher (P < .001) N retention, than those fed orchardgrass. When expressed as a percent of intake or absorption, N retention values were similar among treatments. The results of this study suggest that cool-season grasses are of higher nutritional value than warm-season grasses. / Master of Science Orchardgrass Digestibility Tall Fescue Caucasian Bluestem Bermudagrass Ruminants
123	In vivo and in vitro nutrient balance and assessment of PCR and biophotonics as techniques for evaluating ruminal bacteria Orr, Adam I 11 December 2009 (has links) To better understand the facets of nutrient utilization, a series of in vivo and in vitro studies were undertaken to elucidate the effect of supplementation on utilization of moderate-quality bermudagrass hay and to identify mechanisms to evaluate the role of rumen bacterial populations on feedstuff utilization. A digestion trial was conducted using 6 ruminally cannulated steers receiving bermudagrass hay supplemented with soybean hulls (HULLS), cracked corn (CORN), or soybean hulls and cracked corn (MIX; 75% and 25%, respectively) in a 3x3 Latin Rectangle arrangement. Additionally, ruminal fluid was continuously cultured using the BioFlo® 110 fermentation system to evaluate the in vitro fermentive parameters of ground moderate-quality bermudagrass hay either alone (HAY; 20 g DM L-1 d-1) or supplemented (7 g DM L-1 d-1) with corn (CORN), soybean hulls (SBH), or both (25:75; MIX) in a randomized complete block. Genomic DNA from continuous culture as well as from pure bacterial culture samples were sought to differentially enumerate select bacterial strains via real-time PCR using specie-specific DNA primers. The information is to be used for elucidating responses in ruminal digestibility of varying feed-types. Finally, as an alternative to PCR, bioluminescence of transformed Escherichia coli was evaluated by measuring extent of photonic emission with and without antibiotic selection over time. Evaluations were also made of photonic emission by E. coli grown in ruminal fluid with and without additional feed particles. Data seem to indicate that replacing a portion of corn with soybean hulls may successfully improved fiber digestion and improved ruminal N-utilization. Real-time PCR shows potential for evaluating ruminal bacteria where as biophotonics may need further modification before meaningful in situ evaluations of live ruminants can be employed. Nutrient Balance Rumen PCR Biophotonics Continuous Culture Digestibility
124	<b>Effects of exogenous enzymes on dietary nutrient digestibility for broiler chickens and growing pigs</b> Tanner L Wise (18430320) 24 April 2024 (has links) <p dir="ltr">The objective of the experiments conducted for this dissertation was to investigate the effects of exogenous enzymes on nutrient digestibility for broiler chickens and growing pigs. These experiments covered the effects of phytase, protease, and carbohydrases on the nutrient availability of various diet types and ingredients, as well as evaluations of regression methods for determining ingredient energy values. One study investigated a factorial of phytase and dietary phytate levels on the ileal digestibility of amino acids (AA) and phosphorus (P) for broilers and pigs. The results of these experiments indicated that phytase improved the ileal digestibility of P (P < 0.05) and all AA (P < 0.05) for broilers regardless of the dietary phytate level, and the ileal digestibility of P (P < 0.05) and many economically important AA (P < 0.05) for pigs. This study did not reveal any significant interactions between phytase and dietary phytate, but there were a number of numerical differences in the relative effect of phytase in the two diet types. In a subsequent experiment the effects of a factorial of phytase and protease on ileal P and AA digestibility were evaluated for growing pigs. Similarly to the first study, phytase was shown to improve the ileal digestibility of P (P < 0.05) and a majority of AA (P < 0.05). There were limited main effects of protease, however, it was found to decrease the digestibility of Lys, Met, and Thr (P < 0.05). There were a number of significant quadratic interactions (P < 0.05) of protease within phytase level, where the necessary concentration of protease to elicit positive effects was dependent on phytase inclusion. The next study evaluated the effects of two carbohydrase blends on the ileal AA digestibility and energy values of soybean meal. Both enzyme blends elicited modest improvements in the ileal and total tract digestibility of energy, but there were limited effects on the energy values of the test diets. Both enzyme blends improved the apparent metabolizable energy of soybean meal, but the blend with lower activity and no protease inclusion produced the greater results with an improvement of 15.2%. These enzyme blends resulted in the improved ileal digestibility of nearly all AA from soybean meal for broilers. The last study was a validation of the three-point model for the regression method against a four-point model over both the same test ingredient inclusion range or smaller range. This evaluation used both canola meal and wheat as test ingredients to evaluate if changes in dietary energy or protein levels affect the results of this method, which are representative of both cereal grains and protein concentrates, respectively. The results indicated that there was no difference in the three and four-point models for either ingredient as long as the overall range of test ingredient concentration was the same in both models. This proved more important for canola meal, as it was more susceptible to problems with the estimates or variability based on changes in inclusion. Based on the results of these experiments, it is clear that phytase can improve the AA digestibility for both pigs and chickens, but care must be taken when combinations are made with protease. These data indicate that the use of carbohydrase blends can improve the nutrient availability of soybean meal, and this could have significant implications in diet formulation. Lastly, the use of the three-point model for the regression method is appropriate, but is dependent on the inclusion level of the test ingredient test ingredient.</p> Animal nutrition Broiler swine Exogenous enzymes amino acids digestibility
125	Estimating forage mass of tall fescue pastures and dry matter intake and digestibility of fescue forage by beef steers Lopez-Guerrero, Isaias 27 January 2005 (has links) A series of three experiments were conducted to evaluate different methods of estimating forage mass of tall fescue pastures, and dry matter intake and digestibility in beef steers under indoor and grazing conditions. Forage mass was estimated with the herbage cutting method (HCM) and three indirect methods; the pasture capacitance meter (PCM), the plate meter (PPM), and the visual estimation (VE). The coefficients of determination from the calibration equations were 0.686, 0.751, and 0.862 for the PCM, PPM, and VE, respectively. There were differences in forage mass estimates due to sampling method, sampling date, and their interaction. The second experiment was a digestion trial conducted with confined animals to determine the recovery rate of chromic oxide and alkanes from controlled release capsules and to evaluate the accuracy of the concurrent estimations of intake and digestibility. No difference was found in the recovery rate of either alkanes or chromic oxide during the 7 d of the collection period. Likewise, actual fecal output, dry matter intake, and digestibility were not different from the estimated values. However, estimated values had to be adjusted for the respective recovery rate. The third experiment was conducted under grazing conditions to evaluate the chromic oxide controlled release capsule technique in estimating intake and digestibilty. In this trial, although the recovery rate of the marker was extremely high (avg. = 1.89), the actual and estimated values of dry matter fecal output, intake, and digestibility were not different. Again the recovery rate had to be used as a correction factor. / Ph. D. intake forage mass beef steers tall fescue digestibility
126	Alkanes as Internal and External Markers in Horses and the Digestibility of a High Fat Cereal By-Product Byrd, Bridgett McIntosh 09 December 2003 (has links) Determining intake of feeds in horses is an important factor in incorporating supplements in their diets. Fecal recoveries (R), fecal output (FO), dry matter digestibility (DMD) and dry matter intake (DMI) were estimated using alkanes as markers in 8 thoroughbred geldings. The experiment compared two diets in a 2 X 2 latin square experiment. The diets were mixed grass hay only (H) and the same hay plus a cereal by-product (H + CBP). The cereal by-product (CBP) was the high fat component added to feeds at Virginia Tech's Middleburg Agricultural Research and Extension Center. The apparent digestibility of ether extract (EE) and other nutrients in the H and H + CBP, as well as the partial digestibility of CBP were also determined. The periods were 21 d each with a dietary accommodation period followed by eight days of dosing the even chain alkanes dotriacontaine (C32) and hexatriacontane (C36) as external markers. Total collection (TC) was performed the last 4 d of dosing. The results show that mean recoveries of alkanes were close to 100%, but the range for individual alkanes was wide, and the pattern of recoveries for alkanes of different chain length was inconsistent from feed to feed. The results also indicate that mean estimates of the DMI, DMD and FO of a feed, such as H or H + CBP, are determined with reasonable accuracy by means of alkane markers. In contrast, alkane estimates of DMI and DMD in an individual horse fail to predict corresponding TC estimates. The alkane estimate of FO in an individual horse predicts a TC value with error of 16.4%. The CBP was found to be an excellent source of EE, CP and fiber but a poor source of Ca. / Master of Science Horses dry matter intake fecal output alkanes markers digestibility
127	EFFECT OF STARCH-POLYPHENOL INTERACTIONS ON STARCH HYDROLYSIS Guzar, Igor 08 January 2013 (has links) Phenolic compounds have attracted much attention due to numerous health benefits, including high antioxidant properties, reduced risk of cancer, and inhibition of digestive enzymes. Recent research has suggested that different phenolic compounds may interact with starch. The first objective was to investigate the effect of green or black tea extracts on hydrolysis of wheat, rice, corn, and potato starches. Cooking starches in the presence of either tea reduced their hydrolysis. Potato starch cooked with black tea was the most effective treatment. Observations suggested that hydrolysis may be affected by interactions and by impact on specific enzymes based on starch structure. The second objective was to determine if similar effect could be observed in product system. Addition of green tea extract to sponge cake significantly reduced in vitro starch digestibility, thus could reduce the expected glycemic index. In addition, significant increases in dietary fibre, resistant starch, and antioxidant properties were observed.
128	Effects of amylose content and chemically cross-linking starch on in-vitro digestibility and extrusion of starch / Amylose content and chemically cross-linking starch on in-vitro digestibility and extrusion of starch Shukri, Radhiah January 1900 (has links) Doctor of Philosophy / Department of Grain Science and Industry / Yong Cheng Shi / This study focused on in-vitro digestibility and pasting properties of cross-linked (CL) starch with different amylose contents and different cross-linking levels, as well as physicochemical properties of extruded wheat flours with different amylose contents and functionality of amylopectin and cross-linking in improving the textural and physical properties of oat flour extrudates. Starch was CL by phosphorylation using a mixture of sodium trimetaphosphate and sodium tripolyphosphate at the ratio of 99:1 under alkaline condition. The digestibility of highly CL maize starches with different amylose contents was determined by Englyst, Available Carbohydrate Dietary Fiber and Association of Official Analytical Chemists (AOAC) Method 991.43 methods. CL waxy and normal maize starch granules swelled much more at higher temperatures, resulting in significantly lower total dietary fiber content than high-amylose maize starch. The alkali treatment study on low levels of cross-linking in starch affected the ratios of total bound phosphate esters which changed the degree of starch swelling, crytallinity and pasting properties of the CL starch. The study on the mechanism of the digestive enzymes and the extent of digestion during the incubation of CL wheat starch in AOAC Method 2009.01 showed progressive digestion after 16 h of incubation, which may not reflect in-vivo response in human. Extrusion of normal and waxy wheat flours resulted in the breakdown of starch and an increase in the insoluble protein, which affected the textural and structural properties of extrudate. High energy input played a major role in radial expansion of normal hard wheat extrudate, whereas higher amylopectin in soft waxy wheat flour was a dominant factor in determining the radial expansion when compared to normal soft wheat. Inclusion of soft waxy wheat in the oat flour formulations at 18% moisture content improved the textural and structural properties of extrudates. Low cross-linking level of CL waxy maize starch in oat flour formulation increased the void fraction and reduced the breaking strength of extrudates, whereas higher cross-linking levels of CL starches improved the resistant starch level on oat flour formulation but had very poor structural and textural properties.The study offers a good insight on the properties and digestibility of CL starch, as well as using low levels of CL starch to improve textural properties of nutritional extruded products. In addition, study on the extrusion of wheat flours with different amylose and protein contents provides knowledge on the influence of chemical compositions and energy input on the physico-chemical properties of extrudates. Cross-linked starch In-vitro digestibility Extrusion Agriculture, General (0473) Food Science (0359)
129	Impact des procédés de transformation sur le devenir digestif des protéines de la viande / Impact of technological treatments on digestive future of meat proteins Bax, Marie-Laure 13 June 2012 (has links) Les protéines carnées apportent tous les acides aminés indispensables, en quantité équilibrée par rapport aux besoins de l'Homme. La viande étant également une bonne source de vitamine B12 et de fer, son potentiel nutritionnel est très élevé. Ce potentiel pourrait cependant être modulé 1) par une digestion des protéines plus ou moins complète dans l'intestin grêle, déterminant la quantité d'acides aminés absorbés, 2) par une vitesse de digestion plus ou moins élevée, influençant la capacité d'assimilation des acides aminés absorbés. Les procédés de transformation impliqués dans la préparation des viandes peuvent générer des modifications physicochimiques des protéines. Leurs conséquences sur la mise à disposition des acides aminés constitutifs ont été peu étudiées. Après avoir déterminé l'impact des opérations unitaires de transformation de la viande sur les caractéristiques biochimiques et structurales des protéines, les conséquences sur les paramètres de digestion ont été étudiées, in vitro, sur des extraits myofibrillaires, et in vivo en utilisant le miniporc comme modèle animal. L'approche protéomique est utilisée, en parallèle, pour comparer la composition de muscles de porcs issus de modes d'élevage différents et étudier les corrélations avec la digestion. Plusieurs marqueurs protéiques des paramètres de digestion in vitro sont trouvés sur la viande maturée et cuite, et sont liés au processus de détoxification et de contraction musculaire. La cuisson est le procédé qui a le plus d'impact sur les caractéristiques du produit prêt à consommer, l'application de températures croissantes se traduisant par une combinaison progressive de dénaturation, d'oxydation puis d'agrégation des protéines. Le développement d'un modèle de digestion in vitro, sur des protéines myofibrillaires, a permis d'étudier les différents paramètres de digestion pour les différents procédés. Maturation et hachage ont eu peu d'effets sur ces paramètres. Par contre, par rapport à la viande crue, la vitesse de digestion est supérieure pour une température de cuisson de 70°C, ce qui n'est plus le cas à partir de 100°C. Inversement le potentiel de dégradation maximale est plus élevé pour des températures supérieures à 100°C. La mise en relation des caractéristiques de la viande, avec les paramètres de digestion, suggère que pour des températures de cuisson de l'ordre de 70°C, la dénaturation des protéines favorise une dégradation rapide des protéines en accroissant l'accessibilité des sites de coupure pour les enzymes digestives, mais que pour des températures supérieures, l'oxydation conduit à des agrégats qui limitent cette accessibilité. L'étude in vivo, sur le miniporc, a confirmé cette hypothèse, la vitesse d'apparition des acides aminés dans le sang, suite à l'ingestion des viandes étant supérieure pour une température de cuisson à coeur de 75°C, par rapport à des cuissons à 60 ou 95°C. Par contre contrairement à ce qui était observé in vitro, l'utilisation de viande marquée avec un isotope stable (15N), nous a permis de montrer que la température de cuisson n'affecte pas la quantité totale de protéines digérées dans l'intestin grêle (environ 95% des protéines ingérées). En conclusion, parmi les opérations unitaires impliquées dans la préparation des viandes, la cuisson semble être celle qui influence le plus la digestion des protéines. L'équilibre entre les processus de dénaturation et d'oxydation des protéines en fonction de la température de cuisson semble être un point clé dans la détermination de la vitesse de digestion des protéines. Ce paramètre est important notamment dans le cadre de la nutrition des personnes âgées. Par contre, les compensations au cours des étapes de la digestion font que ces différences de vitesses ne se traduisent pas par des différences de digestibilité dans l'intestin grêle. / In France, meat consumption represents one third of the total protein intake. Meat proteins have a high content of well-balanced essential amino acids near to Human needs. Meat is also a good source of vitamins B12 and iron. Its nutritional potential is thus very higher, but it could be modulated 1) by a protein digestion in the small intestine more or less complete (digestibility), determining the amount of absorbed amino acids, 2) by a speed of digestion higher or lower, affecting the postprandial utilization of absorbed amino acids in protein metabolism. Technological treatments involved in the meat preparation can generate physical-chemical changes of protein. Their impacts on the availability of constitutive amino acids (quantity, kinetics) have been little studied. After determining the impact of unitary operations on meat processing (aging, mincing, cooking) on the biochemical and structural characteristics of proteins, the effect on digestion parameters were studied in vitro on myofibrillar extracts, and in vivo using the minipig as an animal model. The proteomic approach is used in parallel to compare the composition of pig muscles from different rearing methods and study the correlations with digestion. Several protein markers of in vitro digestion are found for both aged and cooked meat, linked to detoxicant process and muscle contraction. The cooking is the process that has the greatest impact on characteristics of "ready-to-eat" product, the application of increasing temperatures (70, 100 and 140°C) resulting in a progressive combination of denaturation, oxidation and then of protein aggregation. Development of an in vitro digestion model (pepsin alone or coupled with trypsin/α-chymotrypsin), on myofibrillar proteins, was used to study the various parameters of digestion (initial slope, maximum rate, time to maximal rate, half-life time and maximal degradation) for the different processes. Aging and mincing have little impacts on these parameters. However, compared to raw meat, the rate of digestion is higher for a cooking temperature to 70°C, which is no longer the case for temperatures above 100°C. Conversely, the potential of maximal degradation is higher for temperatures above 100°C. Linking characteristics of meat with digestion parameters, suggests that for cooking temperatures of around 70°C, denaturation of proteins promotes rapid degradation of proteins by increasing the accessibility of digestive enzymes to their cutting sites, but for higher temperatures, oxidation leads to aggregates that limit accessibility. In vivo study on the minipig, confirms this hypothesis, the rate of appearance of amino acids in the blood following meat ingestion is higher with a core cooking temperature to 75°C, compared to cooking with 60 or 95°C. Furthermore, contrary to what observes in vitro, the use of meat labeled with a stable isotope (15N), we show that the cooking temperature are not affect the total amount of digested proteins in the small intestine (about 95% of ingested proteins). In conclusion, among the unitary operations involved in the preparation of meat, the cooking seems to be the one that most influence the digestion of proteins. The balance between the denaturation processes and protein oxidation according to the cooking temperature appears to be a key point in determining the speed of proteins digestion. This parameter is particularly important in the context of elderly nutrition. As it does not impact on the protein digestibility in the small intestine, the cooking temperature appears as an interesting lever to modulate the speed of meat protein digestion, according to the targeted consumer. Vitesse de digestion Digestibilité Procédés de transformation Viande Oxydation Agrégation Rate of digestion Digestibility Technological treatments Meat Oxidation Aggregation
130	Comparing digestibility of A- and B- type crystals and providing Insight on digestibility of starches Cai, Liming January 1900 (has links) Doctor of Philosophy / Department of Grain Science and Industry / Yong-Cheng Shi / Starch is the most important source of food energy. However, the information about the metabolic quality of starchy foods is scarce. It is well known that native starches with a B-type X-ray diffraction pattern are more resistant to alpha-amylase digestion than those starches with an A-type X-ray pattern, but the underlying mechanism is not well understood. It is not clear whether the enzyme resistance of B-type starch is due to its B-type crystalline structure or the other structural features in starch granules. The objective of this study was to compare the structure and enzyme digestibility of highly pure A- and B-type starch crystals, and understand the roles of crystalline types in starch digestibility. Highly pure A- and B-type starch crystals were prepared from short linear α-glucans (short-chain amylose) generated from completely debranched waxy starches by manipulating the processing conditions such as starch solids concentration, crystallization temperature and chain length. High concentration, high temperature and short chain length favored the formation of the A-type structure, whereas reverse conditions resulted in the B-type polymorph. Digestion results using a mixture of α-amylase and glucoamylase showed that A-type crystals were more resistant to enzyme digestion than B-type crystals. The A-type crystalline product obtained upon debranching 25% waxy maize starch at 50ºC for 24 h gave 16.6% digestion after 3 h, whereas B-type crystals produced by debranching 5% waxy maize starch at 50ºC for 24 h followed by holding at 25ºC for another 24 h had 38.9% digested after 3 h. The A-type crystals had a higher melting temperature than the B-type crystals as determined by differential scanning calorimetry. Annealing increased the peak melting temperature of the B-type crystals, making it similar to that of the A-type crystals, but did not improve the enzyme resistance. The possible reason for these results was due to more condense packing pattern of double helices in A-type crystallites. It seems that the crystalline types are not the key factor that controls the digestibility of native starch granules. The resistance of native starches with B-type X-ray diffraction pattern is probably attributed to the other structural features in starch granules. Waxy starch Short-chain amylose Crystalline type Debranching Spherulites Digestibility Agriculture, General (0473) Food Science (0359)

Search results