The higher concentrations of serum

The higher concentrations of serum TP after colostrum ingestion showed the remarkable influence of exogenous IgG in the fluctuation of this variable. In the present study, serum IgG represented about 20.4% of TP serum to LBC and 16.1% to GC, and correlation was 0.57. Moretti et al. (2010b), in turn, observed that 34.8% of serum TP of lambs fed bovine or ovine colostrum corresponded to IgG fraction and the correlation be- tween the variables was 0.81. In this study, probably due to the lower participation of IgG in the serum TP, differences between LBC and GC groups in the fluctuation of this variable were not observed up to 96 h of life.
Difference in serum IGF-I concentration between groups and sampling times was not observed. There was, however, considerable variation in the concentration of this bioactive factor at birth, from 13 to 93 ng/mL. Similar results were observed in cattle by Gallo and Block (1990) and Pauletti et al. (2007). Sparks et al. (2003) suggested that serum concentrations of IGF-I in the first 48 h of life depend on the serum levels recorded at birth. However, in this work, the variation in serum IGF-I at birth did not affect the values up to 96 h.
The result of this study, like others (Pauletti et al., 2007; Sparks et al., 2003) indicates that the IGF-I serum concentra- tion is not affected by the amount of this bioactive factor available in colostrum. According to Baumrucker et al. (1994), Blum and Baumrucker (2002) and Pauletti et al. (2007) IGF-I is not absorbed by intestinal cells and its main effect is to mediate development of the gastrointestinal tract. In the present work, the great difference in IGF-I intake between LBC and GC, could have interfered in the gut develop- ment affecting the absorption of IgG. Moreover, the precocious development of the gut due to the high concentration of IGF-I might change the time course response of IgG absorption in the goat kids receiving goat colostrum.