Increased erythromycin resistance in clinical Campylobacter in Northern Ireland—an update

Abstract

Sir, Thermophilic campylobacters, particularly Campylobacter jejuni, Campylobacter coli and Campylobacter lari, continue to remain the most common cause of acute bacterial enteritis in Northern Ireland, with ,743 laboratory reports per annum (equating to circa 44 cases per 100 000 population) and where the trend has been decreasing since 2000 (Figure 1). Previously, we have reported trends in antibiotic susceptibility in these organisms for the period 1980–2000. However, since 1999, we have noted a trend in increasing resistance (0.4%–11.3%) to erythromycin in isolates obtained from clinical faecal material. Human isolates were obtained from faecal specimens submitted to the Northern Ireland Public Health Laboratory for routine analysis from general practioners in the community, as well as from hospital wards over the period 2001–2003 (n 1⁄4 703). Isolates were obtained by direct selective plating onto Preston’s selective agar and incubated at 428C for 48 h. Antibiotic susceptibility studies were performed at 378C for human isolates by the standard disc diffusion. The following antibiotic agents were employed at the given disc concentrations: penicillin (2mg), cefalexin (30mg), erythromycin (15mg), chloramphenicol (10mg), gentamicin (10mg), tetracycline (10mg) and ciprofloxacin (1mg), as previously described. With the exception of erythromycin, susceptibility to the other antibiotics has remained relatively static over this period, most notably in relation to resistance to ciprofloxacin (13%). It is especially noteworthy that ciprofloxacin susceptibility has remained stable despite the widespread prescription of quinolone antibiotics. However, from 1999, there has been an increasing trend in erythromycin resistance, rising to 11.3% resistance in 2002, as shown in Figure 1. In concert with this, there has been a concurrent rise in erythromycin resistance in isolates originating from poultry in Northern Ireland, rising to 15.3% resistance in 2002 (Figure 1), and where there has been no other marked increased in antibiotic resistance levels in poultry isolates, [2003 data; tetracycline (16.4%); chloramphenicol (5.5%); nalidixic acid (3.8%); gentamicin (0%)]. Such patterns are in contrast with those reported for the USA, Pakistan and the Republic of Ireland, where rates of erythromycin resistance in clinical campylobacters remain unchanged at ,2%. Although the number of laboratory reports of clinical Campylobacter has been decreasing in Northern Ireland, on average, 9.4% per annum since 2000, the frequency of erythromycinresistant isolates has been increasing, to a maximum value of 11.3% resistance, as was recorded in 2002. Although antibiotic therapy is not normally given for this usually self-resolving infection, where antibiotic intervention is required, oral erythromycin is the first-line treatment. Therefore, any increase in resistance levels to the first-line treatment option is worrying and necessitates an exploration of the potential sources of acquisition of such resistant organisms in the local food chain. However, it is important to note that all clinical isolates remain susceptible to gentamicin. Concurrent with a rise in the resistance levels in human faecal isolates, there has been a rise in resistant rates in campylobacters originating from poultry, suggesting a possible association between the poultry and human isolates. The presence of macrolide resistance in poultry isolates in Northern Ireland is in contrast to other countries, where such data are available, including Russia, where Stern et al. recently described erythromycin resistance in poultry to be , 1%. Alternatively, it has been reported previously that the local pig population harbours a high-level resistant C. coli phenotype, which may be the cause of this increase in the frequency of human erythromycin-resistant campylobacters. In the previous study by Moore et al., these workers demonstrated the presence of C. coli isolates taken from pigs at slaughter, where the MIC of erythromycin was . 500 mg/L. Indeed, this high-level erythromycin resistance observation in C. coli originating from pigs is not unique to Northern Ireland, as similar observations have been made in North America.