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Pernille Hogh Danielsen

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Articles 31
Citations 728
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Recent Articles
1.
McCarrick S, Malmborg V, Gren L, Danielsen P, Tuner M, Palmberg L, et al.
Arch Toxicol . 2024 Dec; 99(2):797-814. PMID: 39739031
Exposure to diesel exhaust is associated with increased risk of cardiovascular and lung disease. Substituting petroleum diesel with renewable diesel can alter emission properties but the potential health effects remain...
2.
Di Battista V, Danielsen P, Gajewicz-Skretna A, Kedziorski A, Seiffert S, Ma-Hock L, et al.
ACS Nano . 2024 Nov; 18(47):32672-32693. PMID: 39537340
Oxide-perovskites designed for automotive catalysts contain multiple metal elements whose presence is crucial to achieving the targeted performance. They are highly stable in exhaust operating conditions; however, little is known...
3.
Danielsen P, Poulsen S, Knudsen K, Clausen P, Jensen K, Wallin H, et al.
Environ Toxicol Pharmacol . 2024 Mar; 107:104413. PMID: 38485102
Carbon nanotubes (CNTs) vary in physicochemical properties which makes risk assessment challenging. Mice were pulmonary exposed to 26 well-characterized CNTs using the same experimental design and followed for one day,...
4.
Solorio-Rodriguez S, Williams A, Poulsen S, Knudsen K, Jensen K, Clausen P, et al.
Nanomaterials (Basel) . 2023 Mar; 13(6). PMID: 36985953
Single-walled carbon nanotubes (SWCNTs) and multi-walled carbon nanotubes (MWCNTs) are nanomaterials with one or multiple layers of carbon sheets. While it is suggested that various properties influence their toxicity, the...
5.
Tanabe S, OBrien J, Tollefsen K, Kim Y, Chauhan V, Yauk C, et al.
Front Toxicol . 2022 Jul; 4:887135. PMID: 35875696
Reactive oxygen species (ROS) and reactive nitrogen species (RNS) are formed as a result of natural cellular processes, intracellular signaling, or as adverse responses associated with diseases or exposure to...
6.
Danielsen P, Bendtsen K, Knudsen K, Poulsen S, Stoeger T, Vogel U
Part Fibre Toxicol . 2021 Oct; 18(1):40. PMID: 34717665
Background: Pulmonary exposure to high doses of engineered carbonaceous nanomaterials (NMs) is known to trigger inflammation in the lungs paralleled by an acute phase response. Toll-like receptors (TLRs), particularly TLR2...
7.
Kokot H, Kokot B, Sebastijanovic A, Voss C, Podlipec R, Zawilska P, et al.
Adv Mater . 2020 Oct; 32(47):e2003913. PMID: 33073368
On a daily basis, people are exposed to a multitude of health-hazardous airborne particulate matter with notable deposition in the fragile alveolar region of the lungs. Hence, there is a...
8.
Halappanavar S, van den Brule S, Nymark P, Gate L, Seidel C, Valentino S, et al.
Part Fibre Toxicol . 2020 May; 17(1):16. PMID: 32450889
Toxicity testing and regulation of advanced materials at the nanoscale, i.e. nanosafety, is challenged by the growing number of nanomaterials and their property variants requiring assessment for potential human health...
9.
Danielsen P, Knudsen K, Strancar J, Umek P, Koklic T, Garvas M, et al.
Toxicol Appl Pharmacol . 2019 Nov; 386:114830. PMID: 31734322
Nanomaterial (NM) characteristics may affect the pulmonary toxicity and inflammatory response, including specific surface area, size, shape, crystal phase or other surface characteristics. Grouping of TiO in hazard assessment might...
10.
Brown D, Danielsen P, Derr R, Moelijker N, Fowler P, Stone V, et al.
Toxicol In Vitro . 2019 Jul; 61:104594. PMID: 31279906
The rapid expansion of the incorporation of nano-sized materials in consumer products overlaps with the necessity for high-throughput reliable screening tools for the identification of the potential hazardous properties of...