Corynebacterium pseudotuberculosis commonly causes caseous lymphadenitis in Australian sheep. We describe 10 cases of human lymphadenitis due to C. pseudotuberculosis; in all cases, isolates were submitted to a reference laboratory in Victoria, Australia. Most of the patients were occupationally exposed to sheep. We also review the 12 previously published cases of this infection, most of which were reported from Australia. No patient had any underlying disease or predisposing condition. Surgical excision of the affected lymph glands is the mainstay of management, and antibiotic therapy is supplementary treatment. Diagnosis was delayed for some patients, and some patients had a protracted or recurrent clinical course and/or a slow recovery. These 10 additional cases from one Australian state indicate that human lymphadenitis caused by C. pseudotuberculosis has not been as rare as the number of published reports indicates, at least in Australia. However, the increasing use of a vaccine against caseous lymphadenitis in sheep in Australia should result in the decreasing human incidence of this zoonosis.
The relationship of Photorhabdus isolates that were cultured from human clinical specimens in Australia to Photorhabdus asymbiotica isolates from human clinical specimens in the USA and to species of the genus Photorhabdus that are associated symbiotically with entomopathogenic nematodes was evaluated. A polyphasic approach that involved DNA–DNA hybridization, phylogenetic analyses of 16S rRNA and gyrB gene sequences and phenotypic characterization was adopted. These investigations showed that gyrB gene sequence data correlated well with DNA–DNA hybridization and phenotypic data, but that 16S rRNA gene sequence data were not suitable for defining species within the genus Photorhabdus. Australian clinical isolates proved to be related most closely to clinical isolates from the USA, but the two groups were distinct. A novel subspecies, Photorhabdus asymbiotica subsp. australis subsp. nov. (type strain, 9802892T=CIP 108025T=ACM 5210T), is proposed, with the concomitant creation of Photorhabdus asymbiotica subsp. asymbiotica subsp. nov. Analysis of gyrB sequences, coupled with previously published data on DNA–DNA hybridization and PCR-RFLP analysis of the 16S rRNA gene, indicated that there are more than the three subspecies of Photorhabdus luminescens that have been described and confirmed the validity of the previously proposed subdivision of Photorhabdus temperata. Although a non-luminescent, symbiotic isolate clustered consistently with P. asymbiotica in gyrB phylogenetic analyses, DNA–DNA hybridization indicated that this isolate does not belong to the species P. asymbiotica and that there is a clear distinction between symbiotic and clinical species of Photorhabdus.
Generating skeletal muscle in vitro is an attractive approach to overcome problems associated with autologous transfer of muscle and donor site morbidity during plastic surgery. Such tissue engineering requires application of biomaterials that selectively control the attachment, morphology, and proliferation of muscle progenitor ("satellite") cells. This study examined the initial attachment, morphological characteristics, and proliferative behavior of murine C2C12 myoblasts on glass substrata derivatized with self-assembled monolayers (SAMs) of the organosiloxanes N-(2-aminoethyl)(3-aminopropyl)trimethoxysilane (EDA) and tridecafluoro-1,1,2,2-tetrahydrooctyl-1-dimethylchlorosil ane (13F). The fraction of myoblasts resisting detachment upon rinsing was greater on EDA than on 13F. Application of a quantitative moments-based analysis of cell morphology demonstrated that projected area and two size-invariant metrics of shape (extension and dispersion) for these cells were greater for EDA than for 13F. Myoblasts also proliferated faster on EDA than on 13F. These data indicate that EDA-derivatized glass provides a superior substratum for myoblast culture compared to 13F-derivatized glass. Understanding myoblast behavior on these biomaterials that promotes contrasting cellular responses is the first step toward using patterned SAMs to control myotube alignment for tissue engineering skeletal muscle.
We describe the isolation of Actinobacillus lignieresii and an A. equuli-like bacterium from an infected horse-bite wound in a 22-year-old stable foreman and A. suis from a bite injury in a 35-year-old man who had been attacked by a horse. A. lignieresii was also isolated in pure culture from an infected sheep-bite wound in a rural worker. These species of the genus Actinobacillus are primarily associated with animals and animal diseases and are rarely isolated from humans. The purpose of this report is to raise awareness of the possible occurrence of Actinobacillus spp. in bite wounds inflicted by farm animals and to discuss the difficulties encountered in the identification of species of Actinobacillus and related bacteria.
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