In spring 2020, a joint agreement of cooperation on a research project was signed by the University of Helsinki, HUS, University of Eastern Finland, University of Oulu and NGO Wise Nose - The Smell Detection Association in Finland.
Research aimed first to investigate if trained dogs were able to identify and clearly point out positive samples of Covid-19 from urine and sweat (wiped from skin) samples. The aim of the study was to enable immediate and cost effective early diagnosis of the disease at a strategic site, the Helsinki-Vantaa International airport in Finland.
In addition, two yet to be published studies document how small concentrations trained dogs indicate successfully and how the dogs can be trained to work in smell detection, in order to create cost effective training programs for dogs in the future.
The project was launched in autumn 2020 by docent
The Covid-19 detection dog validation article is now accepted and will soon be published (14.3.2022).
Project has been extensively covered in international media. Here are some selected picks.
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The Finnish Kennel Club
Please find our scent detection dog research with links to the full articles listed below.
Dogs have an extraordinary sense of smell that is far superior to humans’, thanks to their unique anatomy and physiology. This remarkable ability allows them to detect and differentiate between very low concentrations of odor molecules, but the threshold seems to depend on the target odor. This study focused on determining the lowest concentration of Eucalyptus hydrolat that would be detectable by trained dogs. This substance was selected for the study as it is used in a dog scent training sport called “nose work”. The research involved testing dogs with progressively diluted concentrations of this hydrolat until they could no longer identify it, thus determining their scent detection threshold. When dogs were trained to respond to the Eucalyptus hydrolat at decreasing concentrations, they successfully detected the scent even when it was diluted to ratios between 1:1017 and 1:1021. The study also used analytical spectroscopy to analyze the contents of ten commercial Eucalyptus hydrolats, revealing variations in their ingredients. The findings highlight two key points. First, with appropriate training, dogs can learn to identify very low concentrations of Eucalyptus hydrolat. Second, the consistency of the scent source is crucial in training a dog, not only in canine sport competitions, but also in olfactory research.
This large randomised controlled triple-blinded validation study with a precalculated sample size conducted at an international airport showed that trained scent dogs screen airport passenger samples with high accuracy. One of our findings highlights the importance of continuous retraining as new variants emerge. Using scent dogs may present a valuable approach for high-throughput, rapid screening of large numbers of people.
Team leader
Anna Hielm-Björkman
PI, Docent, ELT
University of Helsinki, DogRisk
Anu Kantele
Professor
HUS
Olli Vapalahti
Professor
University of Helsinki