Your search keyword '"Rabus, D"' showing total 2 results

1. Micro-nano-bio acoustic system for the detection of foodborne pathogens in real samples.

Author

Papadakis G, Murasova P, Hamiot A, Tsougeni K, Kaprou G, Eck M, Rabus D, Bilkova Z, Dupuy B, Jobst G, Tserepi A, Gogolides E, and Gizeli E

Subjects

Animals, DNA, Bacterial analysis, DNA, Bacterial genetics, Equipment Design, Food Contamination analysis, Food Microbiology, Humans, Lab-On-A-Chip Devices, Limit of Detection, Salmonella genetics, Sound, Acoustics instrumentation, Biosensing Techniques instrumentation, Food Analysis instrumentation, Foodborne Diseases microbiology, Milk microbiology, Salmonella isolation & purification, Salmonella Infections microbiology

Abstract

The fast and efficient detection of foodborne pathogens is a societal priority, given the large number of food-poisoning outbreaks, and a scientific and technological challenge, given the need to detect as little as 1 viable cell in 25 gr of food. Here, we present the first approach that achieves the above goal, thanks to the use of a micro/nano-technology and the detection capability of acoustic wave sensors. Starting from 1 Salmonella cell in 25 ml of milk, we employ immuno-magnetic beads to capture cells after only 3 h of pre-enrichment and subsequently demonstrate efficient DNA amplification using the Loop Mediated Isothermal Amplification method (LAMP) and acoustic detection in an integrated platform, within an additional ½ h. The demonstrated 4 h sample-to-analysis time comes as a huge improvement to the current need of few days to obtain the same result. In addition, the work presents the first reported Lab-on-Chip platform that comprises an acoustic device as the sensing element, exhibiting impressive analytical features, namely, an acoustic limit of detection of 2 cells/μl or 3 aM of the DNA target and ability to detect in a label-free manner dsDNA amplicons in impure samples. The use of food samples together with the incorporation of the necessary pre-enrichment step and ability for multiple analysis with an internal control, make the proposed methodology highly relevant to real-world applications. Moreover, the work suggests that acoustic wave devices can be used as an attractive alternative to electrochemical sensors in integrated platforms for applications in food safety and the point-of-care diagnostics., (Copyright © 2018. Published by Elsevier B.V.)

Published

2018

2. Optimized acoustic biochip integrated with microfluidics for biomarkers detection in molecular diagnostics.

Author

Papadakis G, Friedt JM, Eck M, Rabus D, Jobst G, and Gizeli E

Subjects

Biomarkers analysis, Equipment Design, Acoustics, Biosensing Techniques instrumentation, Lab-On-A-Chip Devices, Molecular Diagnostic Techniques instrumentation

Abstract

The development of integrated platforms incorporating an acoustic device as the detection element requires addressing simultaneously several challenges of technological and scientific nature. The present work was focused on the design of a microfluidic module, which, combined with a dual or array type Love wave acoustic chip could be applied to biomedical applications and molecular diagnostics. Based on a systematic study we optimized the mechanics of the flow cell attachment and the sealing material so that fluidic interfacing/encapsulation would impose minimal losses to the acoustic wave. We have also investigated combinations of operating frequencies with waveguide materials and thicknesses for maximum sensitivity during the detection of protein and DNA biomarkers. Within our investigations neutravidin was used as a model protein biomarker and unpurified PCR amplified Salmonella DNA as the model genetic target. Our results clearly indicate the need for experimental verification of the optimum engineering and analytical parameters, in order to develop commercially viable systems for integrated analysis. The good reproducibility of the signal together with the ability of the array biochip to detect multiple samples hold promise for the future use of the integrated system in a Lab-on-a-Chip platform for application to molecular diagnostics.

Published

2017