Nanoplastics: Immune Impact, Detection, and Internalization after Human Blood Exposure by Single‐Cell Mass Cytometry (Adv. Mater. 12/2025)

Laura Fusco; Arianna Gazzi; Linda Giro; Roman B. Schefer; Sènan Mickaël D'Almeida; Roberta Cagliani; Martina Zoccheddu; Recep Uyar; Ömür Beşbinar; Doğantan Çelik; Açelya Yılmazer; Denise M. Mitrano; Marco Orecchioni; Lucia Gemma Delogu

doi:10.1002/adma.202570099

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Nanoplastics: Immune Impact, Detection, and Internalization after Human Blood Exposure by Single‐Cell Mass Cytometry (Adv. Mater. 12/2025)

Advanced Materials 2025

Laura Fusco, Arianna Gazzi, Linda Giro, Roman B. Schefer, Sènan Mickaël D'Almeida, Roberta Cagliani, Martina Zoccheddu, Recep Uyar, Ömür Beşbinar, Doğantan Çelik, Açelya Yılmazer, Denise M. Mitrano, Marco Orecchioni, Lucia Gemma Delogu

Summary

Researchers used single-cell mass cytometry to investigate how nanoplastics interact with human immune cells in blood samples. Nanoplastics were taken up by multiple immune cell subpopulations and affected cell viability and functionality, with the study cover image illustrating the findings from article number 2413413 in Advanced Materials.

Body Systems

Immune

Models

Human

Nanoplastics In article number 2413413, Acelya Yilmazer, Marco Orecchioni, Lucia Gemma Delogu, and co-workers explore the interaction of nanoplastics with human immune cells, using advanced single-cell mass cytometry. Findings reveal nanoplastics uptake on several immune cell subpopulations, affecting cell viability and functionality. Art by the team of INMYWORK Studio.

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