Pseudomonas aeruginosa and Burkholderia cepacia infection in cystic fibrosis patients treated in Toronto and Copenhagen.

Differences in the course of pulmonary disease in cystic fibrosis (CF) may be altered by different treatment strategies in different CF centers. The Copenhagen clinic uses scheduled, regular and very aggressive treatment of lung infection. The Toronto clinic treats pulmonary infection with oral, inhaled, or intravenous antibiotics, and has emphasized aggressive nutritional therapy. This study compared the clinical status of CF patients treated in the two centers (Toronto, Canada, n=302, and Copenhagen, Denmark, n=214) using a cross-sectional design in terms of Pseudomonas aeruginosa (PA) and Burkholderia cepacia (BC) lung infections, pulmonary function, and levels of PA and BC precipitating antibodies (precipitins). Median ages were similar, but the age distribution was significantly different, with a higher proportion of patients under 10 and > or = 25 years in Toronto, and higher proportion of patients 11-24 years of age in Copenhagen. A higher number of female patients was observed in Copenhagen than in Toronto. Seventy-nine percent of Copenhagen patients, and 52% of Toronto patients were deltaF508 homozygous. Of all the patients, 20.1% of Copenhagen patients and 38% of Toronto patients were deltaF508 heterozygous. Ten percent of Toronto patients had two uncommon mutations. Pulmonary function and nutritional status in both groups were similar despite varying treatment strategies. The prevalence of PA was lower in Danish children and higher in Danish adults than in Canada. These differences are probably due to cohort isolation, which was introduced in Copenhagen in 1981. The prevalence of BC was higher in Toronto than in Copenhagen patients at all ages. In both centers, the number of PA and BC precipitins increased with age in patients chronically infected with PA and BC, respectively, and the number of both PA and BC precipitins rose with declining lung function. This study suggests that the clinic populations had similar pulmonary and nutritional statuses despite differing clinic antibiotic treatment strategies. Microbial colonization seemed to differ, at least in part, because of differences in cohort isolation strategies. Early, aggressive anti-pseudomonal chemotherapy may have reduced pseudomonal colonization among younger patients in Copenhagen. Future studies will be required to assess the impact of this on this cohort's outcome.