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Detection Methods
Human Health Effects
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Analytical and toxicological aspects of nanomaterials in different product groups: Challenges and opportunities
NanoImpact2022
22 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 50
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Katrin Loeschner,
Andrea Haase,
Andrea Haase,
Wendel Wohlleben
Andrea Haase,
Wendel Wohlleben
Wendel Wohlleben
Wendel Wohlleben
Harald Rune Tschiche,
Harald Rune Tschiche,
Katrin Loeschner,
Andrea Haase,
Katrin Loeschner,
Kerstin Hund‐Rinke,
Kerstin Hund‐Rinke,
Kirsten Rasmussen,
Katrin Loeschner,
Frank S. Bierkandt,
Wendel Wohlleben
Wendel Wohlleben
Wendel Wohlleben
Karl‐Heinz Haas,
Wendel Wohlleben
Wendel Wohlleben
Karl‐Heinz Haas,
Katrin Loeschner,
Karl‐Heinz Haas,
Karl‐Heinz Haas,
Roland Franz,
Frank S. Bierkandt,
Katrin Loeschner,
Paul Westerhoff,
Katrin Loeschner,
Otto Creutzenberg,
Otto Creutzenberg,
Wendel Wohlleben
Kerstin Hund‐Rinke,
Kerstin Hund‐Rinke,
Claudia Som,
Claudia Som,
Wendel Wohlleben
Katrin Loeschner,
Wendel Wohlleben
Wendel Wohlleben
Wendel Wohlleben
Otto Creutzenberg,
Otto Creutzenberg,
Peter Laux,
Katrin Loeschner,
Katrin Loeschner,
Katrin Loeschner,
Peter Laux,
Peter Laux,
Wendel Wohlleben
Valérie Fessard,
Andreas Luch,
Valérie Fessard,
Ralf Greiner,
Hubert Rauscher,
Kirsten Rasmussen,
Andrea Haase,
Claudia Som,
Katrin Loeschner,
Andrea Haase,
Wendel Wohlleben
Andrea Haase,
Andreas Luch,
Valérie Fessard,
Andreas Luch,
Claudia Som,
Andreas Luch,
Ralf Greiner,
Ralf Greiner,
Ralf Greiner,
Ralf Greiner,
Ralf Greiner,
Ralf Greiner,
Peter Laux,
Katrin Loeschner,
Hubert Rauscher,
Roland Franz,
Roland Franz,
Katrin Loeschner,
Andrea Haase,
Claudia Som,
Ralf Greiner,
Andrea Haase,
Kerstin Hund‐Rinke,
Wendel Wohlleben
Valérie Fessard,
Valérie Fessard,
Hubert Rauscher,
Wendel Wohlleben
Claudia Som,
Andreas Luch,
Wendel Wohlleben
Bernhard Hesse,
Carmen Gruber‐Traub,
Wendel Wohlleben
Wendel Wohlleben
Ralf Greiner,
Karl‐Heinz Haas,
Wendel Wohlleben
Wendel Wohlleben
Karl‐Heinz Haas,
Karl‐Heinz Haas,
Karl‐Heinz Haas,
Claudia Som,
Andrea Haase,
Wendel Wohlleben
Wendel Wohlleben
Paul Westerhoff,
Claudia Som,
Andrea Haase,
Andrea Haase,
Wendel Wohlleben
Andrea Hartwig,
Wendel Wohlleben
Andrea Hartwig,
Paul Westerhoff,
Günter E. M. Tovar,
Andrea Haase,
Wendel Wohlleben
Wendel Wohlleben
Andrea Haase,
Wendel Wohlleben
Andrea Hartwig,
Andrea Hartwig,
Wendel Wohlleben
Bernhard Hesse,
Kerstin Hund‐Rinke,
Andrea Haase,
Wendel Wohlleben
Wendel Wohlleben
Otmar Schmid,
Otmar Schmid,
Harald Rune Tschiche,
Wendel Wohlleben
Wendel Wohlleben
Pauline Iden,
Pauline Iden,
Kerstin Hund‐Rinke,
Günter E. M. Tovar,
Charlotte Kromer,
Pauline Iden,
Pauline Iden,
Katrin Loeschner,
Charlotte Kromer,
Katrin Loeschner,
Wendel Wohlleben
Katrin Loeschner,
Diana Mutz,
Katrin Loeschner,
Diana Mutz,
Kerstin Hund‐Rinke,
Diana Mutz,
Diana Mutz,
Anastasia Rakow,
Anastasia Rakow,
Valérie Fessard,
Kirsten Rasmussen,
Hubert Rauscher,
Kirsten Rasmussen,
Hubert Rauscher,
Wendel Wohlleben
Hans Richter,
Janosch Schoon,
Hans Richter,
Janosch Schoon,
Otmar Schmid,
Claudia Som,
Otmar Schmid,
Claudia Som,
Günter E. M. Tovar,
Paul Westerhoff,
Lena Marie Spindler,
Lena Marie Spindler,
Otmar Schmid,
Günter E. M. Tovar,
Wendel Wohlleben
Paul Westerhoff,
Andreas Luch,
Wendel Wohlleben
Peter Laux,
Andreas Luch,
Peter Laux,
Wendel Wohlleben
Summary
This review examined the analytical and toxicological challenges of engineered nanomaterials across consumer and industrial product groups, discussing release pathways, detection difficulties, and safety considerations including dose-metrics for assessing consumer risk.
The widespread integration of engineered nanomaterials into consumer and industrial products creates new challenges and requires innovative approaches in terms of design, testing, reliability, and safety of nanotechnology. The aim of this review article is to give an overview of different product groups in which nanomaterials are present and outline their safety aspects for consumers. Here, release of nanomaterials and related analytical challenges and solutions as well as toxicological considerations, such as dose-metrics, are discussed. Additionally, the utilization of engineered nanomaterials as pharmaceuticals or nutraceuticals to deliver and release cargo molecules is covered. Furthermore, critical pathways for human exposure to nanomaterials, namely inhalation and ingestion, are discussed in the context of risk assessment. Analysis of NMs in food, innovative medicine or food contact materials is discussed. Specific focus is on the presence and release of nanomaterials, including whether nanomaterials can migrate from polymer nanocomposites used in food contact materials. With regard to the toxicology and toxicokinetics of nanomaterials, aspects of dose metrics of inhalation toxicity as well as ingestion toxicology and comparison between in vitro and in vivo conclusions are considered. The definition of dose descriptors to be applied in toxicological testing is emphasized. In relation to potential exposure from different products, opportunities arising from the use of advanced analytical techniques in more unique scenarios such as release of nanomaterials from medical devices such as orthopedic implants are addressed. Alongside higher product performance and complexity, further challenges regarding material characterization and safety, as well as acceptance by the general public are expected.