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Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Environmental Sources Human Health Effects Nanoplastics Policy & Risk Sign in to save

Nanoplastics: Immune Impact, Detection, and Internalization after Human Blood Exposure by Single‐Cell Mass Cytometry

Advanced Materials 2024 25 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 65 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Roman B. Schefer, Laura Fusco, Laura Fusco, Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Roman B. Schefer, Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Arianna Gazzi, Arianna Gazzi, Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Roman B. Schefer, Roman B. Schefer, Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Roman B. Schefer, Linda Giro, Linda Giro, Denise M. Mitrano Roman B. Schefer, Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Roman B. Schefer, Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Laura Fusco, Denise M. Mitrano Denise M. Mitrano Sènan Mickaël D'Almeida, Sènan Mickaël D'Almeida, Roberta Cagliani, Roberta Cagliani, Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Lucia Gemma Delogu, Roberta Cagliani, Roberta Cagliani, Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Martina Zoccheddu, Martina Zoccheddu, Açelya Yılmazer, Denise M. Mitrano Recep Uyar, Recep Uyar, Denise M. Mitrano Ömür Beşbinar, Ömür Beşbinar, Denise M. Mitrano Doğantan Çelik, Doğantan Çelik, Doğantan Çelik, Doğantan Çelik, Açelya Yılmazer, Açelya Yılmazer, Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Denise M. Mitrano Marco Orecchioni, Denise M. Mitrano Marco Orecchioni, Lucia Gemma Delogu, Lucia Gemma Delogu, Denise M. Mitrano Denise M. Mitrano

Summary

Using a new single-cell detection method, researchers tracked how nanoplastics interact with 37 different types of human immune cells from blood samples. The nanoplastics were absorbed by and interfered with several immune cell types, particularly monocytes, macrophages, and dendritic cells. Mouse experiments confirmed the nanoplastics accumulated in immune cells in the liver, blood, and spleen, raising concerns about how plastic exposure could disrupt immune function.

Polymers
PS
Body Systems
Hepatic Immune
Models
Human Mouse
Study Type In vivo

The increasing exposure to nanoplastics (NPs) raises significant concerns for human health, primarily due to their potential bioaccumulative properties. While NPs have recently been detected in human blood, their interactions with specific immune cell subtypes and their impact on immune regulation remain unclear. In this proof-of-concept study, model palladium-doped polystyrene NPs (PS-Pd NPs) are utilized to enable single-cell mass cytometry (CyTOF) detection. The size-dependent impact of carboxylate polystyrene NPs (50-200 nm) is investigated across 15 primary immune cell subpopulations using CyTOF. By taking advantage of Pd-doping for detecting PS-Pd NPs, this work evaluates their impact on human immune-cells at the single-cell level following blood exposure. This work traces PS-Pd NPs in 37 primary immune-cell subpopulations from human blood, quantifying the palladium atom count per cell by CyTOF while simultaneously assessing the impact of PS-Pd NPs on cell viability, functionality, and uptake. These results demonstrate that NPs can interact with, interfere with, and translocate into several immune cell subpopulations after exposure. In vivo distribution experiments in mice further confirmed their accumulation in immune cells within the liver, blood, and spleen, particularly in monocytes, macrophages, and dendritic cells. These findings provide valuable insights into the impact of NPs on human health.

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