Faeces samples from 156 healthy domestic pets and laboratory animals were examined for campylobacters with both a selective medium (Campylobacter Blood Free Medium; Oxoid, CM739) and selective filtration through a 0.65 micron pore size filter. Campylobacter spp. were isolated from 78 of the samples; filtration was the most effective method. Isolates were characterized by biochemical tests and DNA/DNA hybridization with whole chromosomal DNA from reference strains as probes. Campylobacter upsaliensis was the most common species isolated from cats (45 from 68 samples) whilst Camp. jejuni was more often isolated from dogs (19 from 56 samples). More attention should be paid to pets as a potential source of campylobacters capable of causing diarrhoea in human beings. Procedures other than those involving currently-used selective agents must be employed to efficiently detect all campylobacters.
A total of 152 strains of Campylobacter jejuni, C. coli, C. laridis and C. fetus subsp. fetus were tested for haemolysis on blood agar plates. Distinct haemolysis was detected in 92.3% (96/104) of strains of C. jejuni and 21.7% (5/23) of strains of C. coli on sheep blood heart infusion agar after incubation for 4 d microaerobically at 42 degrees C. Haemolysis was also detected on horse blood heart infusion agar. Haemolysis was not detected at 37 degrees C except with one of 50 strains of C. jejuni tested at this temperature, which was weakly positive. Campylobacter laridis was not haemolytic; C. fetus subsp. fetus, which does not grow at 42 degrees C, showed no haemolysis at 37 degrees C. Blood agar (Oxoid, BA Base No. 2) was not suitable for testing for haemolysis by these organisms. A microaerobic gas mixture containing hydrogen is better than that containing nitrogen because the medium has a brighter colour, making haemolysis easier to detect. There was no synergistic haemolysis with Staphylococcus aureus or Streptococcus agalactiae. The plate haemolysis test as described here may aid differentiation within the thermophilic campylobacters.
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