Optimization of compression formulation and load of food-grade tracers for grain traceability using central composite design

Abstract: Food-grade tracers have been developed as an identification technology for grain traceability from original harvest to final destination for transportation. The characteristics of food-grade tracers must be able to satisfy the environmental demands for grain traceability. To optimize the food-grade tracer production process, the effects of direct compression formulation and load on the mechanical characteristics were studied using response surface methodology (RSM) with central composite design (CCD). Among th… Show more

“…However, several bulk ingredients such as grains, soybean meal, and other commodities are difficult to identify by source of origin and trace throughout the supply chain because of mixing of sources from various origins (Comba et al, 2013;Thakur & Hurburgh, 2009). Various food-grade tracers consisting of powder and caplet formulations (lactose, microcrystalline 10 https://www.ibuttonlink.com/collections/temperature-sensing-ibuttons cellulose, pre-gelatinized starch, magnesium stearate), with and without printed data matrix codes, have been evaluated for use in bulk grain supply chains, but generally require further improvements for widespread application (Kun et al, 2017). In contrast, the use of barcode microbe technology, such as barcoded yeast (Delneri, 2010;Smith et al, 2011), can also provide this capability in the feed industry.…”

Can we effectively manage parasites, prions, and pathogens in the global feed industry to achieve One Health?

“…However, several bulk ingredients such as grains, soybean meal, and other commodities are difficult to identify by source of origin and trace throughout the supply chain because of mixing of sources from various origins (Comba et al, 2013;Thakur & Hurburgh, 2009). Various food-grade tracers consisting of powder and caplet formulations (lactose, microcrystalline 10 https://www.ibuttonlink.com/collections/temperature-sensing-ibuttons cellulose, pre-gelatinized starch, magnesium stearate), with and without printed data matrix codes, have been evaluated for use in bulk grain supply chains, but generally require further improvements for widespread application (Kun et al, 2017). In contrast, the use of barcode microbe technology, such as barcoded yeast (Delneri, 2010;Smith et al, 2011), can also provide this capability in the feed industry.…”

Can we effectively manage parasites, prions, and pathogens in the global feed industry to achieve One Health?