TY - JOUR
T1 - Phylogenetic diversity of human pathogenic Fusarium and emergence of uncommon virulent species
AU - Salah, Husam
AU - Al-Hatmi, Abdullah M.S.
AU - Theelen, Bart
AU - Abukamar, Mohammed
AU - Hashim, Samar
AU - Van Diepeningen, Anne D.
AU - Lass-Florl, Cornelia
AU - Boekhout, Teun
AU - Almaslamani, Muna
AU - Taj-Aldeen, Saad J.
N1 - Publisher Copyright:
© 2015 The British Infection Association.
PY - 2015/12
Y1 - 2015/12
N2 - Objectives: Fusarium species cause a broad spectrum of infections. However, little is known about the etiological agents to the species level. We identified Fusarium species isolated from clinical specimens including those of high risk patients to better understand the species involved in the pathogenesis. Methods: A set of 44 Fusarium isolates were identified by two-locus sequence typing using partial sequences of the second largest subunit of RNA polymerase (RPB2) and translation elongation factor 1 alpha (TEF-1α). Results: The identified species belonged to four species complexes (SC); the most common SC was Fusarium solani (FSSC) (75%), followed by Fusarium oxysporum (FOSC) (4.5%), Fusarium fujikuroi (FFSC) (13.6%), and Fusarium dimerum (FDSC) (6.8%). Sites of infections were nails (n = 19, 43.2%), skin (n = 7, 15.9%), cornea (n = 6, 13.6%), blood (n = 3, 9%), wound (n = 4, 6.8%), burn (n = 2, 4.5%), tissue (n = 2, 4.5%), and urine (n = 1, 2.27%). Fusarium acutatum was rare and seem restricted to the Middle East. Comorbidities associated with invasive infections were hematological malignancy and autoimmune disorders. Conclusions: Members of the FSSC predominantly caused cornea, nail and bloodstream infections. Less frequently encountered were the FOSC, FFSC and FDSC. More accurate molecular identification of Fusarium species is important to predict therapeutic outcome and the emergence of these species.
AB - Objectives: Fusarium species cause a broad spectrum of infections. However, little is known about the etiological agents to the species level. We identified Fusarium species isolated from clinical specimens including those of high risk patients to better understand the species involved in the pathogenesis. Methods: A set of 44 Fusarium isolates were identified by two-locus sequence typing using partial sequences of the second largest subunit of RNA polymerase (RPB2) and translation elongation factor 1 alpha (TEF-1α). Results: The identified species belonged to four species complexes (SC); the most common SC was Fusarium solani (FSSC) (75%), followed by Fusarium oxysporum (FOSC) (4.5%), Fusarium fujikuroi (FFSC) (13.6%), and Fusarium dimerum (FDSC) (6.8%). Sites of infections were nails (n = 19, 43.2%), skin (n = 7, 15.9%), cornea (n = 6, 13.6%), blood (n = 3, 9%), wound (n = 4, 6.8%), burn (n = 2, 4.5%), tissue (n = 2, 4.5%), and urine (n = 1, 2.27%). Fusarium acutatum was rare and seem restricted to the Middle East. Comorbidities associated with invasive infections were hematological malignancy and autoimmune disorders. Conclusions: Members of the FSSC predominantly caused cornea, nail and bloodstream infections. Less frequently encountered were the FOSC, FFSC and FDSC. More accurate molecular identification of Fusarium species is important to predict therapeutic outcome and the emergence of these species.
KW - Emerging fungal infections
KW - Fusarium
KW - Invasive infections
KW - Local infections
KW - Two-locus sequence typing
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U2 - 10.1016/j.jinf.2015.08.011
DO - 10.1016/j.jinf.2015.08.011
M3 - Article
C2 - 26348828
AN - SCOPUS:84947617508
SN - 0163-4453
VL - 71
SP - 658
EP - 666
JO - Journal of Infection
JF - Journal of Infection
IS - 6
ER -