Before the introduction of the H. influenzae serotype b (Hib) conjugate vaccine, Hib was a common cause of invasive infections and one of the leading causes of bacterial meningitis in children (Wenger et al., 1992; Falla et al., 1993; Jordens & Slack, 1995). Studies in the post-Hib vaccine era have shown a drastic decrease in the rates of Hib disease in countries with routine childhood immunization programmes against Hib. However, studies in both the United States and Canada have shown a
significant increase BAY 73-4506 cell line in the frequency of invasive NT Hi disease (Dworkin et al., 2007; Tsang et al., 2007). Recent data from the EU also found that incidence of invasive NT Hi disease exceeded that of Hib and even all of the encapsulated strains combined (Ladhani et al., 2008). With routine childhood immunization resulting in the near elimination of Hib
in the population, the carriage of NT Hi in healthy individuals as a source of infection and disease has gained recent attention (Mukundan et al., 2007; Murphy et al., 2007). While only 2–4% of individuals were found to carry Hib in their respiratory tract, it is reported that up to 80% of healthy individuals carry NT Hi (Murphy, 2005). Carriage rate of other serotypeable Hi has not been widely reported in the literature, but is believed to be a rare occurrence. These increased reports of invasive NT Hi disease have led us to examine some basic questions about these strains: Are these NT Hi strains related to the serotypeable strains, including Hib? Did the NT Hi emerge from their serotypeable counterparts by shedding their capsules? What is the relationship of 4��8C invasive NT Hi compared with those Adriamycin concentration causing
respiratory tract infections? In an attempt to answer some of these questions, we examined 125 NT Hi isolates (70 from invasive and 55 from respiratory sources) for the presence of capsular polysaccharide synthesis genes, antibiotic susceptibility pattern and genetic structure by multilocus sequence typing (MLST). To understand who is at risk, we also examined the age of patients with invasive NT Hi disease. A comparison of the sequence types (STs) identified in the NT Hi isolates in Manitoba and the United States (Sacchi et al., 2005) will also be made. The objective of this report is to document the characteristics of NT strains of Hi as they are now the most common type encountered in clinical microbiology laboratories as causes of infectious diseases in both children and adults. Between 2000 and 2006, 125 NT Hi isolates recovered from individual patients in Manitoba, Canada, were selected for this study. The invasive isolates were collected for our laboratory surveillance programme on invasive Hi disease and they represented all the NT strains from the invasive Hi isolates (regardless of capsule status and type) collected from patients attending tertiary care university teaching hospitals in the city of Winnipeg (Sill et al., 2007).