Fetal growth and birth weight predi

Fetal growth and birth weight predict neonatal survival and postnatal growth rates and efficiency in pigs, as in other species. Increased size at birth improves neonatal survival (Fahmy and Bernard, 1971; van der Lende and de Jager, 1991; Roehe and Kalm, 2000), stimulates sow milk production and the growth of suckling piglets (Campbell and Dunkin, 1982; King et al., 1997), and increases muscle fiber numbers and postweaning growth (Wigmore and Stickland, 1983; Dwyer et al., 1993; Gondret et al., 2005; Rehfeldt and Kuhn, 2006). In the pig, however, fetal growth and birth weight are constrained by competing maternal demands in growing adolescent animals, by large and variable litter size, and by the restricted maternal nutrition used in commercial pig production systems during pregnancy.

Daily maternal injections of gilts with porcine ST (pST) during early-mid pregnancy (d 30 to 43, d 28 to 40, or d 25 to 50) increase fetal growth and progeny muscle size, but do not increase progeny birth weight (Kelley et al., 1995; Sterle et al., 1995, 1998; Gatford et al., 2000, 2003, 2004). More sustained pST treatment, from d 25 to 100, increases progeny birth weight in gilts under commercial conditions (Gatford et al., 2004). We recently reported that maternal pST injections from d 25 to 50 of pregnancy increased fetal growth at d 50 to a similar extent in mature sows and in gilts (Gatford et al., 2009). Whether sows are able to maintain increased fetal size to birth if maternal pST treatment stops in mid-pregnancy, the extent to which longer term maternal pST treatment increases progeny size at birth, and the consequences for maternal and piglet outcomes are not known. We therefore tested the hypotheses that daily pST injections during early-mid pregnancy (d 25 to 50) or early-late pregnancy (d 25 to 100) in gilts and sows would increase progeny birth weight, lactation growth rate, and neonatal survival without adversely affecting subsequent reproductive performance.


MATERIALS AND METHODS

The study was designed in accordance with the Australian Code of Practice for the Care and Use of Animals for Scientific Purposes (National Health and Medical Research Council of Australia, 2004) and was approved by the University of Adelaide and the Rivalea Australia (formerly QAF Meat Industries) Animal Ethics Committees.