Background
Cardiac troponin I (cTnI) is a blood biomarker of myocardial injury. A human cTnI assay may be useful for measuring cTnI concentrations in lambs with naturally occurring myocarditis.
Objective
The aims of this study were to evaluate the utility of a commercially available human chemiluminescent microparticle cTnI immunoassay for measuring plasma cTnI concentrations in lambs with naturally occurring myocarditis from infection with foot and mouth disease virus (FMDV), and to determine cTnI expression in cardiac muscle of affected lambs.
Methods
Ten lambs with myocarditis and 10 clinically healthy lambs (control group) were included. Clinical signs, gross and histologic necropsy findings, and immunoreactivity for cTnI in cardiac tissue were evaluated. Plasma cTnI concentration was determined using the commercial human immunoassay system.
Results
All lambs with myocarditis died within 1 day of clinical signs. Infection with FMDV was confirmed by PCR analysis. Gross cardiac lesions were evident and histologic examination revealed myocarditis. Immunoreactivity for cTnI was absent in cardiac myocytes that were degenerative or necrotic, but was strong in cardiac myocytes from unaffected areas of the myocardium and in all cardiac myocytes of healthy lambs. The geometric mean plasma concentrations of cTnI for lambs in the myocarditis and control groups were 146.78 μg/L (95% confidence interval [CI], 61.90–348.06) and 0.013 μg/L (95% CI, 0.010–0.017), respectively (t‐value 19.27; P < .0001).
Conclusions
A commercial human cTnI assay may be used to detect plasma cTnI concentrations in sheep, and cTnI may be used as a blood‐based biomarker of myocarditis in this species.
Nineteen goslings with pulmonary and systemic aspergillosis were the subject of the study. The lungs and air sacs were the main sites affected by the disease, and were generally characterised by diffuse yellowish-white granulomas. In 7 cases with pulmonary and air-sac involvement the granulomas were scattered to the serosal linings of the gastrointestinal and upper respiratory tracts, to the liver, spleen and kidneys, and in two cases also to the bursa of Fabricius, musculus (m.) longus colli and adventitia of aorta. The granulomas were often characterised by a necrotic centre surrounded by heterophils, macrophages, lymphocyte and plasma cells, and in late granulomas by multinucleated foreign-body giant cells, and again by an outer thin fibrous capsule. Numerous fungal hyphae were found within the necrotic debris of the granulomas by Gridley and PAS staining techniques. Immunohistochemistry reliably confirmed aspergillosis in all of the cases. Fungal elements in the lungs of goslings severely affected by the disease stained heavily within the centre of the granulomas, whereas few antigens reacted in the chronic cases. Fungal fragments, which were not discernible using routine fungal stains, reacted clearly in the cytoplasm of macrophages and giant cells. Thus, although fungal elements within the granulomas were histologically indicative of aspergillosis, immunohistochemistry also had to be applied to obtain a definitive diagnosis of the disease and to differentiate it from many of the filamentous fungi.
Twenty-five bovine fetuses naturally infected with Brucella abortus were morphologically and immunohistochemically evaluated in association with bacteriologic culture. Histopathological changes were mainly bronchopneumonia in the lungs, lymphoid hyperplasia and lymphoreticular hyperplasia in the liver and spleen. Histopathologic changes in other organs and tissues revealed hematogenous spread of the infection. Immunoreactivity to Brucella abortus was detected in all the lungs (25 fetuses) examined. However, the antigen was not detected in any of the thymus examined. Intracellular antigenic localization was identified mainly in macrophages, neutrophils and hepatocytes. In addition, B. abortus strains were isolated from abomasal contents and lungs of 22 fetuses. Eighteen of the strains were biotype 1 and the remaining four were biotype 3. These findings indicate the usefulness of immunohistochemistry in suspected cases where bacteriologic culture is negative and in cases where serology is not possible or material fixed in formalin.
The aim of this work was to determine the effect of dietary vitamin E intake on lipid peroxidation (LPO) by measuring thiobarbituric acid reactive substances (TBARS), vitamin E and reduced glutathione (GSH) levels, and glutathione peroxidase (GSH-Px: EC 1.11.1.9) activity in plasma, red blood cells (RBC), livers, and kidneys of rabbits dosed with cadmium (Cd). Six-month-old clinically healthy New Zealand White rabbits (8 in each group) were given tap water only, containing 1 g CdCl2/L, or tap water with CdCl2 plus vitamin E (100 mg dl-alpha-tocopheryl acetate in 0.2 mL corn oil) daily for 30 days. The vitamin E level in the plasma, liver, and kidneys was significantly higher in the control than in the Cd-only group, and TBARS levels were significantly lower. There were no statistical differences between the control and Cd-only groups GSH-Px activities and GSH levels in RBC, liver, and kidneys. Vitamin E levels in plasma, liver, and kidneys and GSH-Px activity in RBC were higher in the vitamin E group than in both control and Cd-only groups. However, the TBARS levels of RBC, liver, and kidneys in vitamin E administered group were decreased. Therefore, the present study demonstrates the effectiveness of vitamin E in reducing oxidative stress in Cd-treated rabbits and suggests that reductions in increased TBARS due to Cd toxicity may be an important factor in the action of vitamin E.
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