Species distribution and antifungal susceptibility of clinical <i>Aspergillus</i> isolates: A multicentre study in Taiwan, 2016–2020
Hsuan‐Chen Wang, Ming‐I Hsieh, Pui‐Ching Choi, Wan‐Lin Wu, Chi‐Jung Wu
Abstract
Abstract Background Epidemiological knowledge is important to guide antifungal therapy. Objective This multicentre study aimed to investigate the species distribution and antifungal susceptibility of Aspergillus isolates in Taiwan. Method Four hundred and ninety‐two clinical Aspergillus isolates, collected during 2016 – 2020, were identified by calmodulin sequencing and tested for antifungal susceptibility using CLSI M38‐A3. The Cyp51A sequences of azole‐resistant Aspergillus fumigatus and Aspergillus flavus isolates were analysed. Results This collection comprised 30 species from eight Aspergillus sections— Flavi (33.5%), Nigri (26.0%), Fumigati (24.2%), Terrei (10.0%), Nidulantes (5.1%), Circumdati (0.8%), Restricti (0.2%) and Aspergillus (0.2%). Sections Fumigati , Flavi and Terrei were primarily represented by A. fumigatus (99.2%), A. flavus (95.8%) and A. terreus (100%), respectively. Section Nigri comprised nine species, mostly A. welwitschiae (60.2%), A. niger ( 12.5%), A. brunneoviolaceus (10.9%) and A. tubingensis (10.2%). A. fumigatus (39.6%) and A. flavus (26.4%) predominated among 53 isolates from lower respiratory samples, whereas section Nigri species (46.2%) and A. terreus (29.2%) predominated among 65 isolates from ear samples. Reduced susceptibility to amphotericin B (minimal inhibitory concentration (MIC) > 1 μg/mL) was noted in A. flavus (7.0%), A. terreus (6.1%), A. nidulans and section Circumdati ( A. flocculosus , A. subramanianii and A. westerdijkiae ) isolates. Acquired azole resistance was observed in seven A. fumigatus (5.9%), all of which carried TR 34 /L98H or TR 34 /L98H/S297T/F495I mutation, and three A. flavus (1.9%), one of which carried G441S mutation. Reduced susceptibility to itraconazole (MIC >1 μg/mL) was noted in 55.5% of section Nigri isolates, mainly in A. welwitschiae , A. niger and A. tubingensis , whereas A. brunneoviolaceus , A. aculeatinus and A. japonicus were hypersusceptible to azoles. Anidulafungin was active against all isolates except for one isolate. Conclusions This study depicted the molecular epidemiology and species‐specific characteristics of Aspergillus in Taiwan, which aids in appropriate antifungal therapy and underlines the need of speciation and susceptibility testing of disease‐causing Aspergillus.