Abstract
Vacuum packaging (VP) is used to reduce exposure of retail meat samples to ambient oxygen (O(2)) and preserve their quality. A simple sensor system produced from commercial components is described, which allows for non-destructive monitoring of the O(2) concentration in VP raw meat samples. Disposable O(2) sensor inserts were produced by spotting small aliquots of the cocktail of the Pt-benzoporphyrin dye and polystyrene in ethyl acetate onto pieces of a PVDF membrane and allowing them to air-dry. These sensor dots were placed on top of the beef cuts and vacuum-packed. A handheld reader, FirestinGO2, was used to read nondestructively the sensor phase shift signals (dphi°) and relate them to the O(2) levels in packs (kPa or %). The system was validated under industrial settings at a meat processing plant to monitor O(2) in VP meat over nine weeks of shelf life storage. The dphi° readings from individual batch-calibrated sensors were converted into the O(2) concentration by applying the following calibration equation: O(2) (%) = 0.034 * dphi°(2) - 3.413 * dphi° + 85.02. In the VP meat samples, the O(2) levels were seen to range between 0.12% and 0.27%, with the sensor dphi signals ranging from 44.03° to 56.02°. The DIY sensor system demonstrated ease of use on-site, fast measurement time, high sample throughput, low cost and flexibility.