Investigation of Cell Culture Media Infected with Viruses by Pyrolysis Mass Spectrometry: Implications for Bioaerosol Detection

Overview

Journal J Am Soc Mass Spectrom

Specialty Chemistry

Date 1999 Jun 16

PMID 10368945

Citations 1

Authors

A J Madonna

K J Voorhees

T L Hadfield

E J Hilyard

Affiliations

Soon will be listed here.

Abstract

Mass spectrometry coupled with a pyrolysis inlet system was used to investigate media from cell cultures infected with viruses. Cell culture media is an intricate mixture of numerous chemical constituents and cells that collectively produce complicated mass spectra. Cholesterol and free fatty acids were identified and attributed to lipid sources in the media (blood serum supplement and plasma membranes of host cells). These lipid moieties could be utilized as signature markers for rapidly detecting the cell culture media. Viruses are intracellular parasites and are dependent upon host cells in order to exist. Therefore, it is highly probable that significant quantities of media needed to grow and maintain viable host cells would be present if a viral agent were disseminated as an aerosol into the environment. Cholesterol was also detected from a purified virus sample, further substantiating its use as a target compound for detection. Implications of this research for detection of viral bioaerosols, using a field-portable pyrolysis mass spectrometer, is described.

Citing Articles

Rapid detection of taxonomically important fatty acid methyl ester and steroid biomarkers using in situ thermal hydrolysis/methylation mass spectrometry (THM-MS): implications for bioaerosol detection.

Madonna A, Voorhees K, Hadfield T J Anal Appl Pyrolysis. 2020; 61(1):65-89.

PMID: 32287530 PMC: 7127332. DOI: 10.1016/S0165-2370(01)00136-X.

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