Exserohilum rostratum was the cause of most cases of fungal meningitis and other infections associated with the injection of contaminated methylprednisolone acetate produced by the New England Compounding Center (NECC). Until this outbreak, very few human cases of Exserohilum infection had been reported, and very little was known about this dematiaceous fungus, which usually infects plants. Here, we report using whole-genome sequencing (WGS) for the detection of single nucleotide polymorphisms (SNPs) and phylogenetic analysis to investigate the molecular origin of the outbreak using 22 isolates of E. rostratum retrieved from 19 case patients with meningitis or epidural/spinal abscesses, 6 isolates from contaminated NECC vials, and 7 isolates unrelated to the outbreak. Our analysis indicates that all 28 isolates associated with the outbreak had nearly identical genomes of 33.8 Mb. A total of 8 SNPs were detected among the outbreak genomes, with no more than 2 SNPs separating any 2 of the 28 genomes. The outbreak genomes were separated from the next most closely related control strain by ϳ136,000 SNPs. We also observed significant genomic variability among strains unrelated to the outbreak, which may suggest the possibility of cryptic speciation in E. rostratum.
Beginning in September, 2012, the United States experienced one of the largest outbreaks of health care-associated infections ever reported. More than 13,000 people were exposed to three lots of contaminated methylprednisolone acetate (MPA) produced by a single compounding pharmacy, and Ͼ750 developed fungal infections following their MPA injections (1-3). Infections included meningitis, as well as localized epidural, paraspinal, and peripheral joint infections, complicated by arachnoiditis and abscess formation (4, 5). Although several fungal species were implicated in the outbreak, the vast majority of infections were caused by Exserohilum rostratum, a saprobic mold found in soil and plant debris worldwide (2, 6-10). Most species of Exserohilum are plant pathogens. Exserohilum rostratum and the species formerly known as Exserohilum longirostratum and Exserohilum mcginnisii are morphologically similar and are the only species known to cause human infections; however, their taxonomic status remains under investigation (11-13).DNA fingerprinting has been used as an epidemiological tool to answer questions pertaining to strain relatedness (14, 15). However, no methodologies for DNA fingerprinting of E. rostratum existed at the time of the outbreak. While whole-genome sequencing (WGS) is a relatively new tool of molecular epidemiology, it has quickly been embraced as a mechanism for inferring phylogenetic relationships among organisms. This has translated to the recent use of whole-genome single nucleotide polymorphism (SNP) typing (whole-genome sequence typing [WGST]) as a mechanism for inferring relatedness of both bacteria (16)(17)(18)(19) and fungi (20, 21) during outbreak investigations. One of the benefits of WGST is that prior knowledge of the genome i...
