Abstract
Heavy metals in food packaging materials have been indicated to release into the environment at slow rates. Heavy metal contamination, especially that of cadmium (Cd), is widely acknowledged as a global environment threat that leads to continuous growing pollution levels in the environment. Traditionally, the detection of the concentration of Cd relies on expensive precision instruments, such as inductively coupled plasma mass spectrometry (ICP-MS) and inductively coupled plasma-atomic emission spectrometry (ICP-AES). In this study, an indirect competitive enzyme-linked immunosorbent assay (ic-ELISA) based on a specific monoclonal antibody was proposed to rapidly detect Cd. The half-inhibitory concentration and detection sensitivity of the anti-cadmium monoclonal antibody of the ic-ELISA were 5.53 ng mL−1 and 0.35 ng mL−1, respectively. The anti-Cd monoclonal antibody possessed high specificity while diagnosising other heavy metal ions, including Al (III), Ca (II), Cu (II), Fe (III), Hg (II), Mg (II), Mn (II), Pb (II), Zn (II), Cr (III) and Ni (II). The average recovery rates of Cd ranged from 89.03–95.81% in the spiked samples of packing materials, with intra- and inter-board variation coefficients of 7.20% and 6.74%, respectively. The ic-ELISA for Cd detection was applied on 72 food packaging samples that consisted of three material categories—ceramic, glass and paper. Comparison of the detection results with ICP-AES verified the accuracy of the ic-ELISA. The correlation coefficient between the ic-ELISA and the ICP-AES methods was 0.9634, demonstrating that the proposed ic-ELISA approach could be a useful and effective tool for the rapid detection of Cd in food packaging materials.
Highlights
Due to its favourable toughness and ductility [1,2,3], cadmium (Cd) is becoming one of the most frequently used elements in the manufacturing of metal, plastic and dyestuff materials, which are commonly used in food packaging, kitchenware, plastics, bottles and boxes [4,5]
The results show that this method is in good agreement with inductively coupled plasma-atomic emission spectrometry (ICP-AES) in food packing materials samples and has an extremely high practical application value
The characteristic peak of Cd-ITCBE was found at 245.0 nm (1.43 mg/mL) and that of bovine serum albumin (BSA) was found at 280.0 nm (1.0 mg/mL)
Summary
Due to its favourable toughness and ductility [1,2,3], cadmium (Cd) is becoming one of the most frequently used elements in the manufacturing of metal, plastic and dyestuff materials, which are commonly used in food packaging, kitchenware, plastics, bottles and boxes [4,5]. Cd pollution has been identified as one of the most major factors affecting food safety in many countries [8,9,10], especially in nori (restaurant-served and ready-to-eat sushi in the Polish market) [11]. The quality and safety of food packing materials are closely related to people’s health and happiness [13]. To strengthen the treatment and management of cadmium pollution, it is imperative to regulate the arbitrary discharge of cadmium materials [14]
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