J. David Legan, PhD
Director of Science
David earned his Ph.D. in Food Technology from the University of Reading in the UK by modeling the ecology of mixed microbial populations, and then moved to Campden BRI in a variety of microbiological food safety research and client service roles. During that time, he was project lead for the Bacillus component of the UK’s pathogen modeling program. He moved again to Nabisco Research in New Jersey where he ran the corporate microbiology lab and developed a program of preservation technology development and microbial modeling. After the Kraft Foods acquisition, he moved to Chicago to work on Food Safety and Preservation research, and through modeling and validation studies:
- Optimized Oscar Mayer’s use of lactate and diacetate and their naturally cultured alternatives as Listeria-control agents in Ready to Eat meats
- Specified process conditions central to Oscar Mayer’s commercial launch of High Pressure Pasteurization of naturally cured RTE meats
David had responsibility for the Kraft cultures R&D group, developed a partnership to explore microwave sterilization leading to several patents, and led a program that developed an internal proprietary natural antimicrobial commercialized in several Kraft products. Technologies from his group supported approximately $4 billion in annual sales.
After years as a microbiology "client", he is now back in the "provider" role as Director of Science at Eurofins Microbiology Laboratories, Inc., by way of the Covance Food Solutions group based in Madison, WI, which he joined in 2016. In this role, he ensures appropriate method validation, explores new testing technologies, and fields multiple complicated food microbiology questions.
Products that his team has evaluated or developed and launched include:
- The 3M MDS platform in the Madison microbiology laboratory
- Flow cytometry for enumeration of probiotics
- Strain-level confirmation of probiotic identification using the polymerase chain reaction (PCR)
- Next-generation sequencing using the Oxford Nanopore Technologies GridION sequencing platform for microbial identification and microbiome analysis
Below are resources from David:
Food fraud is a widespread and worldwide problem. Watch this video to learn more about which products are most frequently impacted, and how it can impact your business.
We recently hosted a webinar titled "GC-MS Techniques for Troubleshooting Off-Flavor, Off-Odor, and Flavor Scalping in Foods and Beverages Webinar." This Q&A with Dr. Jamie Willems provides a deeper look in to common questions associated with GC-MS, contaminant detection, and out capabilities at Eurofins.
Pathogen testing is a key part of product development. It can prevent foodborne outbreaks and protect consumers' health and brand reputation. Before developing a testing plan, it is important to understand how any why testing is conducted. This White Paper provides an overview of the types of pathogens to test for and the testing options at Eurofins.
Natural and synthetic food dyes are used in almost all industries. Understanding the potential for dye adulteration is critical to knowing how and why products are affected. Furthermore, testing with a third-party lab can lead to standardized product coloration and reliable ingredient claims. This White Paper introduces the types of food dyes, the benefits of testing, types of tests, and considerations for choosing a third-party lab.
When a product doesn't taste or smell right, it is a good indicator of contamination or packaging and processing issues. GCMS analysis is reliable method for finding the cause of off-odor or flavor and getting your products back to normal! This infographic provides an overview and a case study of how GCMS is used for off-odor and flavor analysis.
This webinar outlines the concept, design and execution of appropriate validation strategies and procedures intended to mitigate microbiological hazards in Low-Water Activity Foods. In the context of FDA regulations, low-water activity foods (LWAF) are those products with a water activity (aw) of less than 0.85. For many decades, these products were believed to present a low microbiological hazard risk. Various food related illness outbreaks, starting with a massive outbreak of salmonellosis due to peanut butter consumption in 2008-2009, raised awareness of the risk resulting from extended survival of pathogens in these products even in the absence of active growth. Original airdate August 23, 2022.
August 5, 2022, Eurofins Craft Technologies’ newly validated phenolic method will initially offer 16 analytes and will continue to expand based on market demands. The new offering covers the following hydroxybenzoic, cinnamic, and hydroxycinnamic acids. Read the full press release to learn more.
Learn about frequent causes of off-flavor, off-odor, and flavor scalping in packaged foods, beverages, and pet food products, including analytical techniques ranging from GCMS to ICP to LCMSMS for troubleshooting and detection, with a focus on SPME-GC-MS analysis. Learn how improper product packaging, production, or transportation issues can cause your product to be recalled. Factors that can negatively impact flavor and aroma. The analytical techniques range from GCMS to ICP to LCMSMS for troubleshooting and detection.
Food fraud can result in serious public health consequences and damage to your brand's reputation. Learn about products at risk for food fraud and steps you can take to protect your company.
Contaminated peanut butter recalls have wreaked havoc on the food industry. By understanding how to prevent and mitigate risk of Salmonella contamination, we can prevent economic loss and illness. Learn more in this article about why it keeps happening.
