Using antibiotics as a dietary supp

Using antibiotics as a dietary supplement can improve
growth performance and feed efficiency in domestic
animals and poultry. However, long-term and nonspecific
application of antibiotics may not only lead to the reduced
function of the immune system, but also result in bacterial
resistance to antibiotics. Furthermore, there is increasing
concern that residues of antibiotics may be hazardous to the
safety of animal products and human health. The search for
alternatives to the feeding of antibiotics in animal nutrition
is an ongoing problem. Using immunomodulators to alter
the immune function of animals is considered a potential
means for improving growth performance and health status.
β-1,3/1,6-glucan, derived from the cell wall of Saccharomyces cerevisiae, is a polyglucose consisting of a
linear backbone of β-1,3-linked D-glucopyranosyl units
with degrees of branching at the C-6 position (Jorgensen
and Robertsen, 1995). β-1,3/1,6-glucan is known to possess
antitumor (Ohno et al., 1987) and antimicrobial properties
(Robertsen et al., 1990; Hetland et al., 2000; Ortuno et al.,
2002; Lowry et al., 2005; Chae et al., 2006; Huff et al.,
2006) that enhance host immune function. In pigs, the
stimulatory effects of β-glucan on specific and non-specific
immune responses have been demonstrated (Mowat, 1987;
Stokes et al., 1987; Dritz et al., 1995; Mao et al., 2005;
Eicher et al., 2006; Hahn et al., 2006; Li et al., 2006), and
shown to have beneficial effects on growth performance
(Schoenherr et al., 1994; Dritz et al., 1995; Eicher et al.,
2006; Hahn et al., 2006; Li et al., 2006). However, one of
the problems is the lack of information about the
mechanisms behind β-1,3/1,6-glucan activity in piglets.
Therefore, the aim is to explore the potential action