Ajay Awati

The influence of whey protein and glycomacropeptide on satiety in adult humans.

Protein is often considered the most satiating macronutrient. The objective was to determine the short-term effect of mixtures of whey protein and glycomacropeptide (GMP) versus a carbohydrate control on satiety in healthy adult humans. The study was a randomised crossover Latin Square design. On 4 separate days, fifty healthy subjects (19 males and 31 females) received a subject-specific breakfast (08:00 h), a preload drink (12:00 h) and lunch (12:30 h). The preload drink was presented as a milkshake with either maltodextrin carbohydrate (control), whey protein isolate (WPI) with no GMP, WPI with naturally present 21% GMP or WPI with naturally present 21% GMP plus added GMP. Satiety was assessed using visual analogue scales (VAS) and by determining ad libitum food intake during a cafeteria style meal offered 30 min after the preload. The VAS indicated that the lower GMP treatment induced a greater feeling of fullness immediately after consumption of the preload compared with the other treatments. Energy and macronutrient intake at lunch did not differ significantly (p>0.05) between treatments although subjects chose to eat foods higher in carbohydrate and lower in protein after the protein preloads. Women consumed the least amount of protein after the protein preloads whereas no difference was found in men. There was some evidence that whey proteins and their components enhance satiety over a short-term period compared to carbohydrate but there was no consistent effect of either whey protein alone or glycomacropeptide.

Predicted Apparent Digestion of Energy-Yielding Nutrients Differs between the Upper and Lower Digestive Tracts in Rats and Humans

The apparent digestibility of energy-yielding nutrients (carbohydrate, protein, and fat) was predicted in the human upper digestive tract and large bowel separately for 4 diverse diets containing either a single dietary fiber source [wheat bran and pectin (PE) diets] or mixed fiber sources [low-fiber (LF) and high-fiber (HF) diets). A human balance study was undertaken to determine fecal energy and nutrient excretion and a rat model was used to predict human ileal energy and nutrient excretion. Total tract energy digestibility ranged from 92 (HF diet) to 96% (PE diet and LF diet), while at the ileal level it ranged from 79 to 86% for the HF diet to the LF diet. The predicted upper-tract digestion of starch, sugars, and fat was high, with ileal digestibilities exceeding 90% for all diets. Nonstarch polysaccharides were poorly digested in the upper tract for all diets except in the PE diet. The daily quantity of protein excreted at the ileal level was between 2 (HF diet) and 5 (PE diet) times higher than that at the fecal level. The large differences between fecal and ileal nutrient loss highlight that fecal digestibility data alone provide incomplete information on nutrient loss. There is a need to be able to routinely determine the uptake of energy in the upper and lower digestive tracts separately.

Optimisation of inoculum concentration and incubation duration for an in vitro hindgut dry matter digestibility assay.

The aim was to optimise inoculum concentration and incubation duration for a published in vitro hindgut digestibility assay using ileal digesta (sampled from the chicken or rat) pertaining to a mixed human diet as the substrate. The study also sought to investigate the digestibility of the inoculum itself and the importance of correcting for this in the in vitro hindgut digestion assay. For two assays, hindgut dry matter digestibility (DMD) generally increased with inoculum concentration. A sharp increase in DMD observed at high inoculum concentrations may have been related to problems with filtering the inoculum. An inoculum concentration of 160 g/L was considered optimal based on close agreement of observed values with previously published in vivo hindgut dry matter digestibility for similar diets. One of the methods was chosen for optimisation of the duration of incubation. Ileal substrate organic matter digestibility (OMD) increased with increasing time of incubation for all diets. An incubation duration of 18 h using a mean inoculum digestibility value for calculation purposes was considered optimal based on observed in vivo hindgut DMD values in humans, but there was little difference in estimated in vitro hindgut DMD between 18 and 24h incubation durations. Although considerably lower than the OM digestibility of the substrate (no less than 51% after 48 h), the OM digestibility of the inoculum (13% after 48 h) itself was of significance in calculating estimated digestibility. The optimised assay gave realistic hindgut OMD values ranging from 55% to 79% (Wheat Bran Diet and Pectin Diet, respectively) using an 18-h incubation duration.

NMR-based metabonomics detection of differences in the metabolism of hydrolysed versus intact protein of similar amino acid profile

BACKGROUND Proton nuclear magnetic resonance (NMR)-based metabonomics has only recently been applied to nutritional research. The limitation of any analytical technique is its sensitivity in detecting the smallest variation. Alterations in nutrition often produce only subtle metabolic modulations. The objective of this study was to determine if NMR-based metabonomics could detect variations in the metabolic profile of urine from pigs digesting either native casein (NC) or the same casein that had been enzymatically hydrolysed (EHC). NMR permits simultaneous detection of a large number of metabolites, thus allowing detection of unanticipated metabolic fluctuations that may otherwise have gone undetected with the use of only targeted analysis. RESULTS Partial least squares discriminant analysis identified significantly (P < 0.05) higher urinary excretions of leucine, valine, taurine and glycine by pigs on the EHC-based diet. CONCLUSION NMR-based metabonomics is a sensitive method that can uncover unanticipated metabolic changes brought about by physicochemical changes to the feedstock (i.e. hydrolysis). The data show a lower efficiency of retention by the kidney of some amino acids following ingestion of a hydrolysed protein.