Over 600 million people in the world get ill from unsafe food each year, resulting in 420,000 deaths. In Europe, over 23 million people get sick due to contaminated raw vegetables, ready-to-eat meals, processed meats, smoked fish or soft cheeses. In addition, food-related contaminations represent a significant economic burden; salmonellosis alone could represent €3 billion a year. Therefore, early routine tests to detect food pathogens are needed. Biomode Probe4@ solutions based on Peptide Nucleic Acid Fluorescence in situ Hybridization (PNA-FISH) address this problem, since they provide a fast, accurate, robust, simple and cost-efficient test for the detection of pathogens in a broad range of food samples. In addition to food samples, Biomode products are applied for the detection of microorganisms in environmental and clinical samples. With our feasibility study, our aim was to get the Probe4@ products to market readiness and to leverage the diagnostic possibilities of PNA-FISH for all its applications in the food safety, clinical, veterinary and environmental fields. In particular, we aimed to deepen the assessment of our market and focus on dissemination and marketing, to evaluate the technological feasibility of developing an integrated microfluidics system and to strategically define the next pathogens to be targeted. It was also relevant to plan our work schedule for the next two years of the Phase 2 project, as well as our business plan.