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The Human Plastiphere: A Bioparticulate System Challenging Microplastic Risk Assessment and Governance

Shruti Venkata Chari, Gurusamy Kutralam-Muniasamy

2025Environmental Science & Technology9 citationsDOIOpen Access PDF

Abstract

The infiltration of microplastics (MPs) into human tissues represents a paradigm shift in environmental health, transforming external pollution into internal biological integration. Drawing on 90 clinical studies (2016-2025), we define the human plastiphere as a bioparticulate system composed of nonendogenous plastic particles that accumulate, distribute, and interact with host tissues. This system displays key biological features: persistence (decade-scale tissue retention), organized distribution (organotropism across 63 human biological compartments), and active biological engagement (e.g., cardiovascular, reproductive, and metabolic interference). We identify eight unresolved paradoxes─ranging from size-defying barrier penetration to absent toxicity thresholds─that highlight critical gaps in synthetic particle biology. The plastiphere challenges conventional toxicology by showing that MPs: (1) follow selective biological rules (e.g., vascular trafficking) while violating others (e.g., phagocytic clearance), and (2) form a measurable, transgenerational burden with escalating health risks as plastic production continues to rise. To address this emerging bioparticulate phenomenon, we propose three urgent actions: harmonized detection protocols, polymer-specific safety thresholds, and source-targeted policy interventions. The plastiphere, both as a biological system and a conceptual framework, offers a roadmap for advancing science from descriptive detection to health-relevant, mechanistically grounded, and policy-actionable solutions.

Topics & Concepts

MicroplasticsRisk analysis (engineering)Risk assessmentHuman healthCorporate governanceEnvironmental planningBusinessRisk managementBiological hazardPlastic pollutionEnvironmental resource managementRisk governanceBiological materialsBiological safetySystemic riskConceptual frameworkEnvironmental healthParadigm shiftProfiling (computer programming)Biochemical engineeringTransgenerational epigeneticsMicroplastics and Plastic PollutionRecycling and Waste Management TechniquesSustainable Supply Chain Management
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