The influence of medium‐chain glycerides on performance and gastrointestinal well‐being in weaning piglets was assessed. First, caproic (C6), caprylic (C8) and capric (C10) acid activity against Escherichia coli was screened in vitro. Pig flora of the whole small intestine was used as inoculum. Seven in vitro incubations were done in duplicate at pH = 3 and 5: C10 (15 mM), C8 (12 mM), C6 (15, 12, 10 mM), a non‐incubated‐negative control and incubated negative control. Culture suspensions were plated on E. coli‐selective agar. Controls showed bacterial growth. C6 and C8 showed no growth at both pH‐values, where C10 showed growth at pH = 5. Secondly, an in vivo study was done with 80 weaned piglets over 42 days, housed in pens of eight animals (five pens/treatment), fed a basal diet containing broken rice/soya bean meal/fish meal and supplemented with C6 and C8 in medium‐chain glyceride form (MCT6/8, 0.175%) or antibiotic growth promoter (AGP, 0.020%) (Kasetsart University, Thailand) serving as control. Feed intake, daily gain and feed‐to‐gain ratio did not differ between MCT6/8 and AGP. Per replicate, two random selected piglets were challenged intravenously with E. coli‐lipopolysaccharide (LPS) or saline solution (S) at Days 21 and 28. All challenged animals were sacrificed; blood and digestive tract samples (jejunum/ileum) were collected at Day 35. LPS challenge consistently reduced villus height and crypt depth for MCT6/8 and AGP. However, LPS‐challenged piglets supplemented with MCT6/8 restored villus height, where AGP did not. MCT6/8 piglets had higher serum IgA, more jejunal IgA‐positive plasma cells and goblet cells than AGP. At the ileal level, results were similar, though less pronounced. The present study offers new insight in the benefits of MCT6/8 over AGP in the post‐weaning period. There is in vitro anti‐microbial action of C6 and C8 on E. coli. In vivo, MCT6/8 also has protective effects in the small intestine that may result in growth promotion.
A paired feeding experiment involving high (H) and low (L) feeding levels during pregnancy and lactation was conducted using bred and open female rats to determine the effects on body composition. Pregnant rats contained a higher percentage of water in the fat-free body (FFB) than that of non-pregnant rats indicating tissue hydration. Composition of the FFB and fat-free dry matter (FFDM) was not altered by feeding level during pregnancy. During lactation, the feeding levels were either continued H-H and L-L or were changed to H-L or L-H within the lactating or open (non-lactating) pairs. Composition of the FFB and of the FFDM was altered by feeding level during lactation. A high energy intake result in a greater proportional loss of ash than of protein during lactation. In contrast, neither the composition of FFB nor FFDM was altered in the non-lactating rats on similar energy intake regimes. The lactating females had a higher percentage of water in FFB than the non-lactating rats. Although there was variation in water content of FFB and in the composition of FFDM, the correlation between percentage of body water and body fat after the adjustment of effects of pregnancy, lactation, energy and their interaction, was high (r = -0.98).
Deuterium oxide (D2O) was used to estimate total body water (TBW) and subsequently to predict the body composition of female rats at breeding, after pregnancy and after lactation as influenced by dietary manipulation. The correlation between D2O space (grams) and body water (grams) was 0.893 (P < 0.01). Deuterium oxide space accounted for 70% of the variance in predicting the weight of TBW. Fixed effects (pregnancy, lactation, feeding levels and two-way interactions) accounted for an additional 10% (P < 0.05) of the variance. The correlation between TBW in grams (predicted from D2O space, grams) and total body protein (grams) was 0.700 (P < 0.01). Total body water accounted for 49% of the variance in total body protein. Fixed effects accounted for an additional 21% (P < 0.05) of the variance in total weight of body protein. The correlations between D2O space (%) and body water (%) and between D20 space (%) and body fat (%) were 0.786 (P < 0.01) and -0.758 (P < 0.01), respectively. The accuracy of estimation of body water (%) and body fat (%) from D2O space was not significantly improved (P > 0.05) when the fixed effects (pregnancy, lactation, feeding levels and two-way interactions) were included in the model.
The objective of this study was to evaluate the variation in nutrient composition of cassava pulp from four different sources (starch manufacturers) in Thailand. Moisture content varied with drying process, being lowest in the oven-dried product and highest in the sample that was sun-dried. Gross energy content ranged between 16.2 and 16.84 MJ kgG 1 while fat, crude protein starch contents were approximately 0.4-0.9, 2.0-4.0 and 37.0-75.0%, respectively. The sun-dried pulp from Chonburi contained the highest concentration of calcium, sodium, magnesium, iron and manganese. Phosphorus and potassium were 0.32-0.63 and 2.28-8.86 mg kgG 1 , respectively. The amino acid contents in cassava pulp were low, in line with the protein content (1.39-2.45%). Lysine, methionine and isoleucine were 0.82-1.24, 0.06-0.18 and 0.54 -1.40 mg gG 1 , respectively. Most of the Non-Starch Polysaccharides (NSP) were in insoluble forms (approximately 40-90 g kgG 1 ) whereas soluble NSP was between 13.93 and 16.21 g kgG 1 . The main sugars in the insoluble NSP were xylose, galactose and mannose.
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