In vitro digested ingredients as substitute for ileal digesta in assessing protein fermentation potential in growing pigs

Understanding protein fermentation in the hindgut of pigs is essential due to its implications for health, and ileal digesta is commonly used to study this process in vitro. This study aimed to assess the feasibility of utilising in vitro digested residues as a replacement for ileal digesta in evaluating the protein fermentation potential. In vitro residues from cottonseed meal, maize germ meal, peanut meal, rapeseed cake, rapeseed meal, soyabean meal and sunflower meal were analysed using a modified gas production (GP) technique and curve fitting model to determine their fermentation dynamics and compare with the use of ileal digesta. Significant variations were observed in GP parameters between in vitro digested residues, indicating differences in nitrogen utilisation by fecal microbiota. Soyabean meal and sunflower meal exhibited the highest maximum GP rates (R-max), with values of 29<middle dot>5 +/- 0<middle dot>6 and 28<middle dot>0 +/- 1<middle dot>2 ml/h, respectively, while maize germ meal showed slowest protein utilisation (17<middle dot>3 +/- 0<middle dot>2 ml/h). A positive relationship was found between the R-max of in vitro residues and ileal digesta (R-2 = 0<middle dot>85, P < 0<middle dot>01). However, GP potential (GP(s)) showed a tendency for a negative relationship (R-2 = 0<middle dot>39, P < 0<middle dot>1), likely due to narrow observed GP(s) values and the presence of varied endogenous proteins in ileal digesta. Our results demonstrate the potential of using in vitro digested residues as a substitute for ileal digesta in assessing the fermentation potential of protein ingredients, particularly regarding the rate of protein fermentation.