Utilisation of Ambient Laser Desorption Ionisation Mass Spectrometry (ALDI-MS) Improves Lipid-Based Microbial Species Level Identification

Simon J S Cameron,Monica Rebec,Kate Alexander-Hardiman,Adam Burke,Alvaro Perdones-Montero,Burak Temelkuran,Michel Salzet,Zoltán Takáts,Isabelle Fournier,Frances Bolt,Zsolt Bodai

doi:10.1038/s41598-019-39815-w

Abstract

The accurate and timely identification of the causative organism of infection is important in ensuring the optimum treatment regimen is prescribed for a patient. Rapid evaporative ionisation mass spectrometry (REIMS), using electrical diathermy for the thermal disruption of a sample, has been shown to provide fast and accurate identification of microorganisms directly from culture. However, this method requires contact to be made between the REIMS probe and microbial biomass; resulting in the necessity to clean or replace the probes between analyses. Here, optimisation and utilisation of ambient laser desorption ionisation (ALDI) for improved speciation accuracy and analytical throughput is shown. Optimisation was completed on 15 isolates of Escherichia coli, showing 5 W in pulsatile mode produced the highest signal-to-noise ratio. These parameters were used in the analysis of 150 clinical isolates from ten microbial species, resulting in a speciation accuracy of 99.4% - higher than all previously reported REIMS modalities. Comparison of spectral data showed high levels of similarity between previously published electrical diathermy REIMS data. ALDI does not require contact to be made with the sample during analysis, meaning analytical throughput can be substantially improved, and further, increases the range of sample types which can be analysed in potential direct-from-sample pathogen detection.

Highlights

The ability to differentiate bacteria directly from culture with no preparative steps, albeit using a small number of species
The combination of laser ablation and mass spectrometry was first reported over 40 years ago, such as in the form of the laser microprobe mass analyser (LAMMA)[26]
Unsupervised principal component analysis (PCA) modelling of species-level mass spectra obtained using the three rapid evaporative ionisation mass spectrometry (REIMS) approaches (Supplementary Fig. S3a–j) show that for the vast majority of microbial species analysed, ambient laser desorption ionisation (ALDI)-MS produced significantly different mass spectra as compared to the electrical diathermy REIMS approaches

Summary

Desorption Ionisation Mass

Rapid evaporative ionisation mass spectrometry (REIMS), using electrical diathermy for the thermal disruption of a sample, has been shown to provide fast and accurate identification of microorganisms directly from culture. This method requires contact to be made between the REIMS probe and microbial biomass; resulting in the necessity to clean or replace the probes between analyses. We report on the first use of ALDI mass spectrometry analyse 150 microbial isolates, including the assessment of various operational parameters of the instrument This resulted in improved sample throughput and taxonomic classification accuracy; with regards to microbial species producing low biomass during growth

Results and Discussion

Bipolar REIMS

Author Contributions

Additional Information