Karine Elihn
Overview
Explore the profile of Karine Elihn including associated specialties, affiliations and a list of published articles.
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22
Citations
333
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Recent Articles
1.
Kuhn J, Vallabani N, Montes A, Juarez-Facio A, Introna M, Steimer S, et al.
Environ Res
. 2025 Feb;
271:121027.
PMID: 39909088
Nanoparticles (ultrafine particles) are prevalent in various environments and raise concerns due to their potential health effects. In this study, we aimed to enhance the understanding of the toxicity associated...
2.
Ricarte M, Portugal J, Amato F, van Drooge B, Jaen C, Pyambri M, et al.
Sci Total Environ
. 2025 Jan;
963():178435.
PMID: 39827641
Airborne quasi-ultrafine particle samples were collected from different outdoor sites in Barcelona (NE Spain, 35 samples) and the Valencia subway (about 400 km south of Barcelona, 3 samples). Locations and...
3.
Patel A, Aggarwal S, Bard L, Durif O, Introna M, Juarez-Facio A, et al.
Sci Rep
. 2024 Oct;
14(1):23253.
PMID: 39370421
Road traffic is an important source of urban air pollutants. Due to increasingly strict controls of exhaust emissions from road traffic, their contribution to the total emissions has strongly decreased...
4.
Boroumand N, Baghdissar C, Elihn K, Lundholm L
Ecotoxicol Environ Saf
. 2024 Sep;
284:117009.
PMID: 39244876
Purpose: Epidemiological studies show that radon and cigarette smoke interact in inducing lung cancer, but the contribution of nicotine in response to alpha radiation emitted by radon is not well...
5.
Portugal J, Bedia C, Amato F, Juarez-Facio A, Stamatiou R, Lazou A, et al.
Environ Int
. 2024 Jul;
190:108889.
PMID: 39042967
Air pollution is one of the most severe environmental healthhazards, and airborne nanoparticles (diameter <100 nm) are considered particularly hazardous to human health. They are produced by various sources such...
6.
Vallabani N, Gruzieva O, Elihn K, Juarez-Facio A, Steimer S, Kuhn J, et al.
Environ Res
. 2023 May;
231(Pt 2):116186.
PMID: 37224945
Exposure to particulate matter (PM) has been associated with a wide range of adverse health effects, but it is still unclear how particles from various transport modes differ in terms...
7.
Fromell K, Johansson U, Abadgar S, Bourzeix P, Lundholm L, Elihn K
Toxicol In Vitro
. 2023 Mar;
89:105586.
PMID: 36931534
A better understanding of the mechanisms behind adverse health effects caused by airborne fine particles and nanoparticles (NP) is essential to improve risk assessment and identification the most critical particle...
8.
Cappellini F, Di Bucchianico S, Karri V, Latvala S, Malmlof M, Kippler M, et al.
Nanomaterials (Basel)
. 2020 Apr;
10(4).
PMID: 32230801
Relevant in vitro assays that can simulate exposure to nanoparticles (NPs) via inhalation are urgently needed. Presently, the most common method employed is to expose lung cells under submerged conditions,...
9.
Latvala S, Vare D, Karlsson H, Elihn K
J Appl Toxicol
. 2017 Aug;
37(12):1420-1427.
PMID: 28815640
Studies using advanced toxicological methods enabling in vitro conditions that are more realistic are currently needed for understanding the risks of pulmonary exposure to airborne nanoparticles. Owing to the carcinogenicity...
10.
Todea A, Beckmann S, Kaminski H, Bard D, Bau S, Clavaguera S, et al.
Sci Total Environ
. 2017 Jul;
605-606:929-945.
PMID: 28688352
Personal monitors based on unipolar diffusion charging (miniDiSC/DiSCmini, NanoTracer, Partector) can be used to assess the individual exposure to nanoparticles in different environments. The charge acquired by the aerosol particles...