Villem Aruoja
Overview
Explore the profile of Villem Aruoja including associated specialties, affiliations and a list of published articles.
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Articles
17
Citations
497
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Recent Articles
1.
Aruoja V, Tunens J, Kahru A, Blinova I, Heinlaan M
Heliyon
. 2024 Aug;
10(15):e35213.
PMID: 39166034
The planktonic Crustacea are among the most employed organisms in ecotoxicology, mainly in regulatory assays that follow OECD/ISO protocols. The most common endpoint for acute testing (24-48 h) without feeding...
2.
Curcuruto G, Scamporrino A, Puglisi R, Nicotra G, Sfuncia G, Impellizzeri G, et al.
Polymers (Basel)
. 2024 Aug;
16(15).
PMID: 39125126
A hydrogel formulation of 2-hydroxy ethyl methacrylate (HEMA) containing covalently linked magnetite nanoparticles was developed to actively facilitate the selective removal and photocatalytic degradation of antibiotics. To this purpose, the...
3.
Sanka I, Bartkova S, Pata P, Ernits M, Meinberg M, Agu N, et al.
Anal Chim Acta
. 2023 Jun;
1272:341397.
PMID: 37355339
Water-in-oil droplets allow performing massive experimental parallelization and high-throughput studies, such as single-cell experiments. However, analyzing such vast arrays of droplets usually requires advanced expertise and sophisticated workflow tools, which...
4.
Heinlaan M, Kasemets K, Aruoja V, Blinova I, Bondarenko O, Lukjanova A, et al.
Sci Total Environ
. 2019 Dec;
707:136073.
PMID: 31869615
Plastic is a wide-spread pollutant and must be evaluated for potential adverse effects of its breakdown product, microplastic (≤5 mm) along with its subfraction, nanoplastic (1-100 nm). Risk assessment of...
5.
Joonas E, Aruoja V, Olli K, Kahru A
Sci Total Environ
. 2018 Sep;
647:973-980.
PMID: 30180372
Most research on nanoparticle (NP) ecotoxicological effects has been conducted on single species in laboratory conditions that are not environmentally representative. We compared the effects of CuO NPs, CuSO (ionic...
6.
Joonas E, Aruoja V, Olli K, Syvertsen-Wiig G, Vija H, Kahru A
Sci Total Environ
. 2017 Apr;
593-594:478-486.
PMID: 28359999
Use of rare earth elements (REEs) has increased rapidly in recent decades due to technological advances. It has been accompanied by recurring rare earth element anomalies in water bodies. In...
7.
Brehm M, Kafka A, Bamler M, Kuhne R, Schuurmann G, Sikk L, et al.
Adv Exp Med Biol
. 2017 Feb;
947:257-301.
PMID: 28168671
The development and implementation of safe-by-design strategies is key for the safe development of future generations of nanotechnology enabled products. The safety testing of the huge variety of nanomaterials that...
8.
Jemec A, Kahru A, Potthoff A, Drobne D, Heinlaan M, Bohme S, et al.
Environ Int
. 2015 Dec;
87:20-32.
PMID: 26638016
Within the FP7 EU project NanoValid a consortium of six partners jointly investigated the hazard of silver nanoparticles (AgNPs) paying special attention to methodical aspects that are important for providing...
9.
Suppi S, Kasemets K, Ivask A, Kunnis-Beres K, Sihtmae M, Kurvet I, et al.
J Hazard Mater
. 2015 Jan;
286:75-84.
PMID: 25559861
Toxicity testing of nanomaterials (NMs) is experimentally challenging because NMs may interfere with test environment and assay components. In this work we propose a simple and reliable method--a 'spot test'...
10.
Ivask A, Kurvet I, Kasemets K, Blinova I, Aruoja V, Suppi S, et al.
PLoS One
. 2014 Jul;
9(7):e102108.
PMID: 25048192
The concept of nanotechnologies is based on size-dependent properties of particles in the 1-100 nm range. However, the relation between the particle size and biological effects is still unclear. The...