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This article examines the economic and regulatory consequences of operating in modern food and consumer product markets without a credible, independently verified heavy-metal control framework. Using regulatory surveillance data, litigation trends, and retailer compliance requirements, the paper evaluates how trace contaminants such as lead (Pb), inorganic arsenic (iAs), cadmium (Cd), nickel (Ni), and mercury (Hg) have become measurable and legally consequential features of the global food supply. Evidence from the FDA Total Diet Study, recent multidistrict litigation involving heavy metals in baby food, emerging state disclosure laws, and evolving retailer sourcing standards demonstrates that heavy-metal contamination is no longer treated as a rare anomaly but as a foreseeable and manageable risk. The analysis integrates contamination prevalence, enforcement trajectories, and brand-level financial exposure to estimate the potential cost of a single heavy-metal event across firms of different scales. Modeling indicates that contamination-triggered disruptions can impose multi-million to multi-hundred-million dollar losses through recalls, litigation, delisting, reputational damage, and market exclusion. The paper further evaluates the role of ISO/IEC 17025 laboratory testing and structured third-party certification systems in reducing these risks by providing defensible documentation, standardized testing protocols, and verifiable supply-chain controls. The findings suggest that independent heavy-metal testing and certification should be understood not only as a food safety tool but as a strategic risk-management infrastructure that protects brands, supports retailer due diligence, and strengthens consumer trust in contaminated-risk product categories.