Attitudes of Australasian Clinicians and Laboratory Staff to Changing Fungal Nomenclature: Has Mycological Correctness Really Gone Mad?

Fungal nomenclature changes have been a regular occurrence in recent years, eliciting heated debate on whether such changes will confuse clinicians and harm patients. We conducted surveys of Australasian laboratory staff and clinicians to assess attitudes, practices, and concerns regarding nomenclatural change. The majority of respondents to both surveys were aware of fungal nomenclatural changes (93.5% laboratories, 79.7% clinicians); 72.8% of laboratories had already implemented nomenclature changes, and 68.7% of clinicians recalled receiving at least one laboratory report utilizing updated fungal nomenclature. The vast majority of clinicians (94%) both within and outside of infection specialties supported laboratories reporting updated species names with inclusion of the previous species name. The importance of including the previous name on reports was demonstrated by 73.3% of clinicians viewing "Nakaseomyces glabrata (formerly Candida glabrata)" as clinically significant, versus only 38.2% viewing "Pichia kudriavzeveii" as significant in the absence of its former name. When asked about reporting practices, 73.9% of laboratories would report a Candida krusei isolate as "Pichia kudriavzeveii (formerly Candida krusei)," with the rest reporting as "Candida krusei" (21.7%) or "Pichia kudriavzeveii" (1.1%) without further explanation. Laboratory concerns included clinicians being confused by reports, commonly used identification platforms continuing to use superseded species names, education of staff, and delays in updating species codes in laboratory information systems. Adopting fungal name changes appears to be well supported by laboratories and clinicians in Australia and New Zealand, and can be achieved safely and unambiguously provided the former name is included on reports. IMPORTANCE Recent changes in fungal species names have been contentious, eliciting heated debate on social media. Despite available recommendations on adapting to the changes, concerns include clinicians dismissing pathogens as contaminants with patient harm as a result, and disruption of the literature. Such concerns are understandable, but are not supported by evidence and may represent a vocal minority. This survey of Australasian laboratories and clinicians assesses attitudes and practices relating to changes in fungal nomenclature and found that there is overwhelming support for adopting nomenclature changes.

Appropriateness of trimethoprim as empiric treatment for cystitis in 15-55 year-old women: an audit.

AIM: To assess whether trimethoprim remains an appropriate empiric treatment for uncomplicated cystitis in women 15-55 years old. METHODS: General practitioners in Auckland, Nelson-Marlborough, Otago and Southland were invited to participate in this audit of current practice. Participating general practitioners were asked to submit urine to the laboratory for microscopy and culture from any woman aged 15-55 years presenting with uncomplicated cystitis. Urine samples submitted as part of the audit were identified by a "copy to" code. Data on laboratory results were extracted from the laboratory information system. RESULTS: Data were collected from June 2016 to August 2018. Four hundred and eighty-one samples were submitted, of which 340 (70.7%) met the inclusion criteria of the audit. A urinary pathogen was identified in 181 (53.2%) specimens, of which 148 (81.8%) were E. coli, 13 (7.2%) other coliforms and 20 (11.0%) Staphylococcus saprophyticus. Of the E. coli isolates, 109 of 148 (73.6%, 95% CI 66.6-80.7) were susceptible to trimethoprim, 144 of 144 (100%, 95% CI 100-100) to nitrofurantoin and 143 of 148 (96.6%, 95% CI 93.7-99.5) to cefalexin. Of the urinary pathogens, 139 of 185 (75.1%, 95% CI 68.9-81.4) were susceptible to trimethoprim, 164 of 177 tested (92.7%, 95% CI 88.8-96.5) to nitrofurantoin and 166 of 178 tested (93.3%, 95% CI 89.6-96.9) to cefalexin. Overall, a uropathogen resistant to trimethoprim was detected in 13.5%, to nitrofurantoin in 3.8%, and to cefalexin in 3.5% of samples tested. CONCLUSION: Similar rates of resistance to trimethoprim were seen in women 15-55 years old presenting with cystitis compared with unselected samples submitted from the general community. Given the high rates of resistance, trimethoprim is no longer appropriate as an empiric treatment option for cystitis in this group. Nitrofurantoin or cefalexin are appropriate alternative empiric treatment options. Given the current recommendation that a urine sample should not be submitted to the laboratory from women with uncomplicated cystitis, ongoing audits will be required to ensure that empiric treatment recommendations remain appropriate.

The burden of Legionnaires' disease in New Zealand (LegiNZ): a national surveillance study.

BACKGROUND: Legionnaires' disease is under-diagnosed because of inconsistent use of diagnostic tests and uncertainty about whom to test. We assessed the increase in case detection following large-scale introduction of routine PCR testing of respiratory specimens in New Zealand. METHODS: LegiNZ was a national surveillance study done over 1-year in which active case-finding was used to maximise the identification of cases of Legionnaires' disease in hospitals. Respiratory specimens from patients of any age with pneumonia, who could provide an eligible lower respiratory specimen, admitted to one of 20 participating hospitals, covering a catchment area of 96% of New Zealand's population, were routinely tested for legionella by PCR. Additional cases of Legionnaires' disease in hospital were identified through mandatory notification. FINDINGS: Between May 21, 2015, and May 20, 2016, 5622 eligible specimens from 4862 patients were tested by PCR. From these, 197 cases of Legionnaires' disease were detected. An additional 41 cases were identified from notification data, giving 238 cases requiring hospitalisation. The overall incidence of Legionnaires' disease cases in hospital in the study area was 5·4 per 100 000 people per year, and Legionella longbeachae was the predominant cause, found in 150 (63%) of 238 cases. INTERPRETATION: The rate of notified disease during the study period was three-times the average over the preceding 3 years. Active case-finding through systematic PCR testing better clarified the regional epidemiology of Legionnaires' disease and uncovered an otherwise hidden burden of disease. These data inform local Legionnaires' disease testing strategies, allow targeted antibiotic therapy, and help identify outbreaks and effective prevention strategies. The same approach might have similar benefits if applied elsewhere in the world. FUNDING: Health Research Council of New Zealand.