The Toxicological Risk Assessment of Trace Elements (Co, Cu, Fe, and Zn) in Snacks from Ijebu Ode, Ogun State, Southwest, Nigeria.

Snacks or junk foods are a form of relatively small, packaged, ready-to-eat fast foods, usually taken not as a regular, but as a stopgap. However, contamination of snacks with trace elemental impurities may pose serious health risk to consumers. The main objective of the present study is to assess the toxicological risk of trace elements TEs (Co, Cu, Fe, and Zn) in commonly consumed snack/junk foods from Ijebu Ode, Ogun State, Southwest, Nigeria. A total of sixty snack food samples were purchased and assayed in replicates for Co, Cu, Fe, and Zn using atomic absorption spectrophotometer. Trace elements data were manipulated for simple descriptive and inferential statistics. The toxicological risk of metals was estimated for average daily dose (ADD), hazard quotient (HQ), hazard index (HI), and cancer risk (CR). Results showed Fe as the most abundant TE in the snacks showing insignificant mean concentrations (p > 0.05) varying from 38.10 ± 1.98 mg kg-1 (potato chip) to 71.25 ± 14.68 mg kg-1 (cashew nut). Cashew nut had the highest amounts of the TEs. The HQs of Co in all the snacks except corn flakes consumed by children were greater than the threshold limit of 1.0, indicating non-carcinogenic adverse effects. The CRs of Co in all the food samples exceeded the acceptable limit of 1.0 × 10-4, suggesting possible development of cancer by the consumers. Co is a trace metal of health issues in the snack/junk foods. This study therefore recommends periodic monitoring and toxicological assessment of metals in snacks, especially the raw materials and processing feedstocks.

In vitro and in vivo evaluation of Weissella cibaria and Lactobacillus plantarum for their protective effect against cadmium and lead toxicities.

Thirty-two lactic acid bacteria (LAB) isolates were obtained from fermenting cassava mash and wara (African soft cheese) and screened for their resistance to cadmium and lead toxicities at 550-1050 mg l-1 and probiotic potentials. Four LAB strains that tolerated the heavy metals at 1050 mg l-1 were selected for antioxidative capacities, tolerance to acid, bile salts and simulated gastric and intestinal tract and safety status. The results revealed that Weissella cibaria WD2 and Lactobacillus plantarum CaD1 exhibited comparatively higher antioxidative capacities, survived in simulated gastric and intestinal transit, tolerated acid and bile salt and possessed safety status. The two strains were employed for the in vivo studies, which was monitored in male albino Wistar rats using skim milk as a carrier for the cultures over a period of 28 days. The rats given the cultures of W. cibaria WD2 and L. plantarum CaD1 in addition with the administration of heavy metals had improved renal and hepatic impairment, while damage was observed in rats fed with cadmium and lead only. Weissella cibaria WD2 and L. plantarum CaD1 demonstrated probiotic potentials and safety status. These strains can be used to effectively amend hepatic and renal histopathological alterations in rats caused by ingestion of cadmium and lead. SIGNIFICANCE AND IMPACT OF THE STUDY: This present study highlights the presence of lactic acid bacteria (LAB) from traditional fermented foods that were cadmium and lead resistant and possessed probiotic potentials. Weissella cibaria WD2 and Lactobacillus plantarum CaD1 selected for the in vivo studies ameliorated the build-up of cadmium and lead in the organs of the animals. This indicated that good cadmium and lead binding and probiotic lactic acid bacteria can be used to prevent exposure to these heavy metals.