Since the ban of antimicrobial growth promotors, the importance of necrotic enteritis in broilers increases. Reliable and reproducible infection models are required for pathogenesis studies and product screening. Two major predisposing factors in necrotic enteritis models are fishmeal supplementation to feed and Eimeria infection. However, many unsolved issues regarding these predisposing factors still exist. Therefore, the influence of timepoint of fishmeal administration (onset on day 8 or day 18), timing of coccidiosis challenge (day 15 or day 19) and strain of coccidiosis challenge (field strain vs. commercial vaccine) on the induction of necrotic enteritis lesions was investigated. The birds were inoculated with Clostridium perfringens three times per day for four consecutive days (day 17 until day 20) and were scored for the presence of necrotic enteritis on days 22, 23, 24, 25 and 26. Supplementation of the diet with fishmeal from day 8 onwards increased the likelihood of necrotic enteritis compared to supplementation from day 18 onwards. Birds challenged on day 19 with coccidiosis were more likely to have necrotic enteritis on scoring days 23 and 24 compared to birds challenged on day 15. Differences on other scoring days were less pronounced. Finally, the strain of coccidiosis challenge had little influence on the induction of necrotic enteritis. Findings of this study can help researchers to set up successful necrotic enteritis infection models.
The tropical legume Sesbania rostrata provides its microsymbiont Azorhizobium caulinodans with versatile invasion strategies to allow nodule formation in temporarily flooded habitats. In aerated soils, the bacteria enter via the root hair curling mechanism. Submergence prevents this epidermal invasion by accumulation of inhibiting concentrations of ethylene and, under these conditions, the bacterial colonization occurs via intercellular cortical infection at lateral root bases. The transcriptome of both invasion ways was compared by cDNA-amplified fragment length polymorphism analysis. Clusters of gene tags were identified that were specific for either epidermal or cortical invasion or were shared by both. The data provide insight into mechanisms that control infection and illustrate that entry via the epidermis adds a layer of complexity to rhizobial invasion.
The present paper describes a reovirus infection with clinical course in a flock of layer breeders. Lameness and tenosynovitis of flexor tendons were observed in approximately 15% of the cockerels and 3% of the hens from 17 weeks of age onwards. Affected birds did not die; on the contrary, most of them recovered clinically within a period of 8 weeks. Two other breeds of layer parents that were housed in close contact with the affected flock did not develop clinical signs, although serology indicated that infection with reovirus had taken place. These field observations constitute the first report of clinical reovirus tenosynovitis in layer parents and indicate different susceptibilities of layer parent breeds in developing clinical signs following reovirus infection.
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