On-site food safety detection: Opportunities, advancements, and prospects

Abstract

As unsafe food production poses global health threats, especially in developing countries, food safety detection always significantly impacts all fields of the food industry, such as production, processing, transportation, storage, and consumption. Many classical food safety detecting methods have been widely used to provide accurate, sensitive, and reliable analytical characteristics, while they rely on clean laboratories, bulky setups, trained personnel, and long-time detection. Because of those conditions, they are not suitable for on-site food safety detecting applications. To solve this problem, various food safety detecting approaches relying on field-portable devices and field-operable techniques have been designed and successfully used, indicating that they are potentially ideal solutions for on-site applications. This review summarizes the progress on on-site food safety detecting approaches and applications for various risk factors, including bacteria, parasites, viruses, toxins, pesticide and veterinary drug residues, illegal food additives, restricted food ingredients, and heavy metals. It outlines recent advances in field-portable devices and field-operable techniques that provide conditions for on-site food safety detection. Recommended on-site food safety detecting approaches for different food safety risk factors are comprehensively suggested considering detecting feasibility, accuracy, and speed. These approaches reveal an attractive and promising route for future practical food safety detecting applications with the merits of portable devices, simple user-friendly operation, and rapid on-site detection. This review further addresses current challenges, and finally discusses future trends and strategies that could be employed in on-site food safety detection.