The Bundesanstalt für Materialforschung und -prüfung (Federal Institute for Materials Research and Testing, BAM) and Analytik Jena AG have agreed to cooperate extensively in the research and development of optical spectrometry in the area of elemental analysis. The two parties signed a corr ... more
Aviation safety: Rapid test for harmful microbes in kerosene developed
Faster and more robust than a PCR test
Fuels such as kerosene or diesel can be contaminated by fungi or bacteria. The microorganisms settle in the liquid itself, on the inner walls of tanks and pipes or in fuel filters and feed on carbon atoms. Since the fungi and bacteria multiply well in this environment, they can form a streaky biofilm and clog fuel lines and filters. This is a problem, especially in aviation.
To prevent engines from failing in extreme cases, airlines already have kerosene tested before refuelling and the tanks of their jets checked for microbial infestation. The International Air Transport Association (IATA) also recommends such tests at regular intervals. Depending on the risk of contamination - short distances, low altitude or a warm, humid climate, for example, favour microbial growth - the checks take place annually or even monthly. Safety is therefore guaranteed.
So far, however, the detection of microbes has been time-consuming: samples have to be taken from the tanks and sent to a laboratory. The evaluation takes up to four days. "We wanted to develop an automated and mobile detection system that would allow untrained personnel on site to detect and quantify microorganisms in tank fillings within 30 minutes," says Hans-Jörg Kunte of the Bundesanstalt für Materialforschung und -prüfung (BAM). The microbiologist is an expert on material damage caused by microorganisms.
Together with the Fraunhofer Institute for Cell Therapy and Immunology, Branch Bioanalytics and Bioprocesses (IZI-BB), Potsdam, and the company M2 Automation, Kunte and his team developed a rapid test based on DNA analysis of the harmful bacteria and fungi. Microbes are isolated from a sample, their cell wall is enzymatically digested, the DNA is purified, amplified and labelled with a fluorescent dye. In this way - similar to the polymerase chain reaction test (PCR) for the detection of SARS-CoV-2 - microbes present can be detected via a detector that reads fluorescent light. At the same time, the new detection is faster and more robust than a PCR test: it takes no longer than 30 minutes, works even in fluctuating outside temperatures and covers a broader spectrum of microbes than the previously common laboratory detections. BAM has now registered the method with the European Patent Office.
At the same time, the team from Fraunhofer IZI-BB and BAM is already working on converting the detection into a handy and easy-to-use detection device and miniaturizing all components for this purpose. A prototype is to be developed for this purpose.
Such a device could be on the market by 2025. So far, such a rapid test does not exist anywhere in the world. "Biofuels will become more important in the future - they are more sustainable but are preferred by microbes as a food source. With our patented rapid test, we want to help detect fungi and bacteria in jet fuels more quickly and comprehensively," says Hans-Jörg Kunte.
- detection systems
- rapid tests
- DNA analytics
The causes of accidents can be diverse, whether it is an explosion in a chemical plant or a fire on a dangerous goods freighter. Prevention starts in the laboratory where chemicals are tested for their hazardous properties. Safety experts, haulage contractors or traders must be able to rely ... more
A new analytical centrifuge is being used to test adhesive bonds, coatings and composites. BAM Federal Institute for Materials Research and Testing’s scientists had the idea that samples should no longer be clamped, but simply inserted. Simply inserting the specimen makes rapid loading poss ... more
- 1Detect neurodegenerative diseases such as Alzheimer's by a simple eye scan?
- 2Fluorescence microscopy at highest spatial and temporal resolution
- 3The Mechanics of the Immune System
- 4Resolve Biosciences Launches New Era in Single-Cell Spatial Analysis
- 5Quick look under the skin
- 6New ion trap to create the world's most accurate mass spectrometer
- 7How does your computer smell?
- 8Clocking electron movements inside an atom
- 9Sartorius closes 2020 with strong growth
- 10A clear path to better insights into biomolecules
- Simple to use device rapidly detects infectious diseases
- Fundamental regulation mechanism of proteins discovered
- Eppendorf achieves record revenue and best result in the company’s history in 2020
- New dimension for efficient laboratory work
- Researchers investigate structural changes in snap-frozen proteins