Airports are international travel hubs visited by large numbers of people. London Heathrow, for example, has an average of 205,400 travellers every day and saw 75 million people arriving and departing from all over the world in 2015. A study just published in the journal Clinical Microbiology and Infection suggest that international travellers can acquire antimicrobial-resistant bacteria and may spread these bacteria in their home countries after returning from abroad
It seems plausible that drug-resistant bacteria from an individual traveller could be transferred to inanimate surfaces and then picked up by others but studying and quantifying this is fraught with problems. A group of researchers led by Frieder Schaumburg from the University Hospital Münster, Germany, came with an ingenious approach.
Every time a member of their research group travelled internationally and passed through an airport, they swabbed the surface of an internal airport toilet door, preserving the swab for later culture when they returned to the lab.
The study demonstrates that travel through airports does have the potential to introduce antibiotic-resistant bacteria onto surfaces that could pose a public health risk. However, as the authors point out, the study does have many limitations, not least the small sample numbers, the time delay between sampling and culture as well as the lack of information about the type of door handle and the cleaning protocols in use at each facility.
Lead author Frieder Schaumburg (University Hospital Münster, Germany) notes that “the ST672-MRSA-V (PVL-negative) is an emerging community-associated MRSA clone from the Indian subcontinent and has been very rarely reported elsewhere.”
During the course of the study, 400 toilet door handles in 136 airports in 59 countries were sampled in this way. 60% of the samples were taken in the men’s room with 40% in the women’s toilets and, on average, the time between sampling and culture in the lab was seven days. Samples were taken in the airport of arrival (80.75%) a stop-off point (2.75%), or the destination (16.5%) and the results make fascinating reading.
The vast majority of the bacteria cultured from the swabs were Staphylococcus aureus, which were present in 5.5% of the samples. Staphylococcus maltophilia was found in 2% and bacteria of the Acinetobacter baumannii complex were found in 1.3%. The other bacteria isolated were mainly enterococci and other Gram-negative rod bacteria, bugs that are common signs of faecal contamination.
Importantly, other pathogens of major concern, including Pseudomonas aeroginosa, Enterococcus species resistant to the antibiotic vancomycin (VRE) or extended-spectrum beta-lactamase (ESBL)-producing Enterobacteriaceae were not detected, the researchers wrote in their paper.
