Corn is the most commonly used ener

Corn is the most commonly used energy feed for pigs. However, corn is commonly contaminated with mycotoxins especially when corn is grown under high temperature and drought condition in breeding season and cool and damp condition in harvesting season (Binder et al., 2007 and Chaytor et al., 2011a). Among 300 existing mycotoxins, aflatoxin (AF) is the only mycotoxin regulated by the US Food and Drug Administration (Dersjant-Li et al., 2003 and Richard, 2007). Aflatoxin is also one of the most common mycotoxins found in foods processed for human consumption, such as corn, cotton seeds, nuts, peanuts, pistachios, spices, and dry fruits (CAST, 2003). Ingestion of AF by animals can result in many problems, including decreased growth rates, liver damage, immune suppression, and death (CAST, 2003). Pigs are one of the most susceptible commodity species to AF with damages to the gut and the liver (Hussein and Brasel, 2001 and Weaver et al., 2013). Most countries limit AF concentration in the corn with different levels. The US is relatively more stringent on AF limitation which is 20 µg AF/kg in corn. The regulatory level for nursery pigs in US is also 20 µg AF/kg in corn whereas it is higher for finishing pigs and breeding pigs. Usually multiple mycotoxins are contaminated in corn and grains (Dersjant-Li et al., 2003). Contaminated corn used in this study also contained fumonisin (FUM). At the high level, FUM can damage the brain, lungs, kidneys, and liver (CAST, 2003).

The yeast cell wall based feed additive (YC) mainly containing β-glucans and mannan oligosaccharide (MOS) was used in this study and commercially available in the US (Kogan and Kocher, 2007, Ringot et al., 2005 and Yiannikouris et al., 2004). Green algae are another component of YC which is a large group of algae that embryophytes are emerged. The green algae are classified into 6 clades, and 4 of them include the composition of β-glucans or MOS (Becker et al., 1991, Becker et al., 1994, Ciancia et al., 2012, Sørensen et al., 2011 and Sørensen et al., 2012). β-glucans and MOS were shown to have binding capabilities to AF, deoxynivalenol (DON), and zearafenone (ZEA) (Huwig et al., 2001, Kogan and Kocher, 2007 and Spring et al., 2000) and thus reducing the damaging effects of mycotoxins on pigs. In addition to the possible binding effects of β-glucans and MOS to mycotoxins, it is also shown that β-glucans can alter the balance of interleukin-1 and interleukin-1 receptor antagonist to reduce inflammatory cytokine production (Dritz et al., 1995) and MOS can alter the immune response by binding to mannose receptors on the macrophage cell surface which will enhance macrophage function (Davis et al., 2004).

The main hypothesis of this study was that growth and health of nursery pigs could minimally be affected by AF in the diets below the regulatory level and YC including β-glucans and MOS would help the growth and health of pigs fed these diets.