Prepartum administration of recombinant bovine somatotropin (rBST) on adaptation to subclinical ketosis of the ewes and performance of the lambs

J.O Feijó,C.F Martins,V.R Rabassa,F.A.B Del Pino,C.C Brauner,A Schneider,S.P Faria Junior,M.N Corrêa,M Barbosa-Ferreira,E Schmitt

doi:10.1590/1678-6849

Abstract

The aim of this study was to determine the effect of prepartum rbST injection on the metabolic profile of pregnant ewes induced to subclinical ketosis, as well as the metabolism until seven days of life and weight gain until seven weeks of life of the lambs. Twenty seven pregnant ewes of the pantaneiro genetic group were used, divided into two groups: rbST group (n = 14) and control group (n = 13). The rbST group received two applications of 1 mg/kg of rbST, at 97 and 111 days gestation, while the control group received placebo injections. There were significant differences between groups in levels of GGT in the ketosis post induction period and BHB concentrations in the postpartum period. Concentrations of glucose, urea, phosphorus, albumin, cholesterol, AST, NEFA and insulin were not different between dams from the two groups in different periods of the study (P>0.05). There was an effect of rbST on body weight observed already at fourteen days of life (P<0.0001), there was an increase in serum phosphorus levels at birth of lambs (P=0.0014), and albumin at seven days of life (P = 0.0014) of the lambs, with no difference between groups for the other metabolites. Therefore, the use of rbST was effective in increasing the weight of the lambs until the seventh week of life. In addition, rbST treatment had positive effects on the dam metabolism with reduction of liver overload, as indicated by decreased GGT after ketosis induction and decreased BHB at the postpartum period.

Highlights

Ketosis or pregnancy toxemia is one of the most significant causes of mortality of ewes and occurs in late gestation (Sargison, 2007)
Stelwagen et al (1993) demonstrated that there is a positive effect of growth hormone (GH) prepartum recombinant somatotropin (rbST) injection on mammary gland development and milk production in sheep, due to increased cell proliferation stimulated by the IGF-I produced in response to rbST
Body weight of the lambs was higher for the rbST treated group from 2 to 7 weeks of age (P

Summary

Introduction

Ketosis or pregnancy toxemia is one of the most significant causes of mortality of ewes and occurs in late gestation (Sargison, 2007). Ovine pregnancy toxemia results from a failure of dietary energy and gluconeogenesis to provide enough glucose to meet the increasing fetal demands in the last 6 weeks of gestation (Andrews et al, 1996). This condition can lead to hypoglycemia and excessive mobilization of body fat, which can increase circulating concentrations of ketone bodies (beta-hydroxybutyrate; BHB) and lead to the development of fatty liver (Dante et al, 1995). Besides hyperketonemia, elevated concentrations of non-esterified fatty acids (NEFA) and hypoglycemia represent typical serum profiles of ewes with pregnancy toxaemia (Harmeyer and Schlumbohm, 2006)

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