A new approach by optical coherence tomography for elucidating biofilm formation by emergent Candida species.

Melyna Chaves Leite De Andrade,Guilherme Maranhão Chaves,Franz De Assis Graciano Dos Santos,Rejane Pereira Neves,Renato Evangelista De Araujo,Ildnay De Souza Lima Brandão,Marcos Andre Soares De Oliveira,Pamella De Brito Ximenes Vilela,Henrique Jonh Pereira Neves,Reginaldo Gonçalves De Lima Neto,Danielle Patrícia Cerqueira Macêdo,Michellangelo Nunes Da Silva,David R Andes

doi:10.1371/journal.pone.0188020

Melyna Chaves Leite De Andrade, Guilherme Maranhão Chaves + Show 11 more

Open Access

https://doi.org/10.1371/journal.pone.0188020

Copy DOI

Abstract

The majority of microorganisms present a community lifestyle, establishing biofilm ecosystems. However, little is known about its formation in emergent Candida species involved in catheter-related infections. Thus, various techniques may be used in the biofilm detection to elucidate structure and clinical impact. In this context, we report the ability of emergent Candida species (Candida haemulonii, C. lusitaniae, C. pelliculosa, C.guilliermondii, C. famata and C. ciferrii) on developing well structured biofilms with cell viability and architecture, using optical coherence tomography (OCT). This new approach was compared with XTT analyses and Scanning Electron Microscopy (SEM). A positive correlation between oxidative activity (XTT) and OCT results (r = 0.8752, p < 0.0001) was observed. SEM images demonstrated cells attachment, multilayer and morphologic characteristics of the biofilm structure. C. lusitaniae was the emergent species which revealed the highest scattering extension length and oxidative metabolism when evaluated by OCT and XTT methods, respectively. Herein, information on C. ciferri biofilm structure were presented for the first time. The OCT results are independently among Candida strains and no species-specific pattern was observed. Our findings strongly contribute for clinical management based on the knowledge of pathogenicity mechanisms involving emergent yeasts.

Highlights

Several biological mechanisms involved in fungal infections are not yet fully understood
The emergent Candida species included in the present study were as follows: Candida haemulonii (3 strains), C. lusitaniae (3), C. pelliculosa (3), C. guilliermondii (4), C. famata (1) and C. ciferri (1)
During the oxidative activity with the colorimetric assays based on XTT reduction, we observed that the emergent Candida strains used in the study were able to form an active biofilm

Summary

Introduction

Several biological mechanisms involved in fungal infections are not yet fully understood. A major concern involves the understanding and characterization of emergent Candida species [1]. Optical coherence tomography and biofilm by emergent Candida species and analysis, decision to publish, or preparation of the manuscript

Objectives

Methods

Results

Conclusion