Pv. Adrian et al., TRIMETHOPRIM RESISTANCE IN SOUTH-AFRICAN ISOLATES OF AEROBIC GRAM-NEGATIVE FECAL FLORA, European journal of clinical microbiology & infectious diseases, 12(12), 1993, pp. 916-921
Aerobic gram-negative commensal faecal flora from 362 healthy voluntee
rs was examined for resistance to trimethoprim. Three hundred fifty-se
ven trimethoprim-resistant organisms were isolated from 272 of the vol
unteers (297 Escherichia coli, 46 Klebsiella spp., 9 Enterobacter spp.
and 7 other species). Trimethoprim resistance was associated with res
istance to other antibiotics at the following frequencies: ampicillin
71.4 %, tetracycline 88 %, cephalosporins 14 % and aminoglycosides 4 %
. High-level resistance to trimethoprim (MIC greater than or equal to
1024 mg/l) occurred in 98.6 % of the isolates. Trimethoprim resistance
was transferable in 51.2 % of the isolates. An X(+) factor was requir
ed to mobilize resistance in a further 3.4 %. Resistance to other anti
biotics cotransferred with trimethoprim at the following frequencies:
ampicillin 55.4 %, tetracycline 30 %, cephalosporins 1.5 % and aminogl
ycosides 2.6 %. Restriction enzyme analysis of 148 plasmids revealed 7
9 different profiles. Two restriction profiles represented 10.1 and 8.
8 % of these plasmids, respectively. The large number of different ant
ibiograms and restriction profiles indicates that there is a large gen
e pool of trimethoprim-resistant organisms in the faecal flora.