M. Szilagyi et al., SELENIUM STATUS AND SERUM BIOCHEMICAL PARAMETERS IN HALOTHANE POSITIVE AND NEGATIVE PIGS, Archiv fur Tierzucht, 37(3), 1994, pp. 279-286
The aim of the work was to study whether the elevated serum creatine k
inase (CK) and aldolase (ALD) observed in halothane positive (stress s
usceptible) pigs might be caused by selenium deficiency. Eight- to nin
e-week-old pigs from three farms with different natural dietary seleni
um supply (resulting in means of serum Se-concentrations in stock ''A'
': 99 +/- 18 mug/l, stock ''B'': 146 +/- 41 mug/l, stock ''C'': 188 +/
- 46 mug/1) were investigated. Pigs were treated by halothane test and
the activities of serum creatine kinase (CK), aldolase (ALD) and glut
athione peroxidase (GSHPx) were determined. Elevated serum CK activiti
es were found only in halothane positive pigs, independently of seleni
um status. Elevated CK- and ALD-activities were measured also in pigs
with high (211 +/- 29 mug/l) and relatively low (102 +/- 15 mug/l) ser
um Se-level. Within the same stock no connection had been found betwee
n serum Se-concentration and the activities of CK and ALD. ''Normal''
CK and ALD activities were observed even at low (but above the physiol
ogical limit) serum Se-level in Hal- groups. On the other hand especia
lly high CK activity was measured in pigs having low or medium Se-leve
l (e. g. pig Nr 1817 CK: 2598 U/l, Se: 159 mug/l; Nr 1846 CK: 2510 U/l
, Se: 104 mug/l). Levels of serum Se-concentration did nor show connec
tion with stress susceptibility but strong correlation (r = 0.90-0.98)
was found with GSHPx activity.