Use of Raman spectroscopy to decrease time for identifying the species of Candida growth in cultures

Nitin S. Chouthai; Anuj A. Shah; Hossein Salimnia; Olena Palyvoda; Suneetha Devpura; Michael Klein; Basim Asmar

Use of Raman spectroscopy to decrease time for identifying the species of Candida growth in cultures

Nitin S. Chouthai, Anuj A. Shah, Hossein Salimnia, Olena Palyvoda, Suneetha Devpura, Michael Klein, Basim Asmar

Research output: Contribution to journal › Article › peer-review

Abstract

Background: The objective of this study is to establish Raman signatures from pure cultures of different Candida species using Raman Spectroscopy (RS) and use these signatures for rapid identification of unknown Candida species.

Methods: Pure cultures of five Candida species were evaluated using RS to build a limited signature library. ‘Raman Processing’ (RP) software was used for Principal Component Analysis (PCA) and Differential Functional Analysis (DFA).

Results: Eleven principal components described at least 95% variance in the spectra. Raman signatures from these known Candida species were able to identify the species of unknown Candida cultures with 100% accuracy.

Conclusion: Raman spectroscopy can improve early identification of Candida species and may facilitate early optimal antifungal therapy.

Original language	English (US)
Pages (from-to)	45-48
Number of pages	4
Journal	Avicenna Journal of Medical Biotechnology
Volume	7
Issue number	1
State	Published - 2015
Externally published	Yes

Keywords

Candida species
Raman
Spectrum analysis

ASJC Scopus subject areas

Biotechnology
Bioengineering
Applied Microbiology and Biotechnology
Biomedical Engineering

Cite this

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title = "Use of Raman spectroscopy to decrease time for identifying the species of Candida growth in cultures",

abstract = "Background: The objective of this study is to establish Raman signatures from pure cultures of different Candida species using Raman Spectroscopy (RS) and use these signatures for rapid identification of unknown Candida species.Methods: Pure cultures of five Candida species were evaluated using RS to build a limited signature library. {\textquoteleft}Raman Processing{\textquoteright} (RP) software was used for Principal Component Analysis (PCA) and Differential Functional Analysis (DFA).Results: Eleven principal components described at least 95% variance in the spectra. Raman signatures from these known Candida species were able to identify the species of unknown Candida cultures with 100% accuracy.Conclusion: Raman spectroscopy can improve early identification of Candida species and may facilitate early optimal antifungal therapy.",

keywords = "Candida species, Raman, Spectrum analysis",

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T1 - Use of Raman spectroscopy to decrease time for identifying the species of Candida growth in cultures

AU - Chouthai, Nitin S.

AU - Shah, Anuj A.

AU - Salimnia, Hossein

AU - Palyvoda, Olena

AU - Devpura, Suneetha

AU - Klein, Michael

AU - Asmar, Basim

PY - 2015

Y1 - 2015

N2 - Background: The objective of this study is to establish Raman signatures from pure cultures of different Candida species using Raman Spectroscopy (RS) and use these signatures for rapid identification of unknown Candida species.Methods: Pure cultures of five Candida species were evaluated using RS to build a limited signature library. ‘Raman Processing’ (RP) software was used for Principal Component Analysis (PCA) and Differential Functional Analysis (DFA).Results: Eleven principal components described at least 95% variance in the spectra. Raman signatures from these known Candida species were able to identify the species of unknown Candida cultures with 100% accuracy.Conclusion: Raman spectroscopy can improve early identification of Candida species and may facilitate early optimal antifungal therapy.

AB - Background: The objective of this study is to establish Raman signatures from pure cultures of different Candida species using Raman Spectroscopy (RS) and use these signatures for rapid identification of unknown Candida species.Methods: Pure cultures of five Candida species were evaluated using RS to build a limited signature library. ‘Raman Processing’ (RP) software was used for Principal Component Analysis (PCA) and Differential Functional Analysis (DFA).Results: Eleven principal components described at least 95% variance in the spectra. Raman signatures from these known Candida species were able to identify the species of unknown Candida cultures with 100% accuracy.Conclusion: Raman spectroscopy can improve early identification of Candida species and may facilitate early optimal antifungal therapy.

KW - Candida species

KW - Raman

KW - Spectrum analysis

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Use of Raman spectroscopy to decrease time for identifying the species of Candida growth in cultures

Abstract

Keywords

ASJC Scopus subject areas

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