Olivier Ramalho
Overview
Explore the profile of Olivier Ramalho including associated specialties, affiliations and a list of published articles.
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Articles
21
Citations
111
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0
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Recent Articles
1.
Audignon-Durand S, Ramalho O, Mandin C, Roudil A, Le Bihan O, Delva F, et al.
Sci Total Environ
. 2023 Sep;
904:166947.
PMID: 37690752
Ultrafine particles (< 100 nm) are of increasing concern because of their toxicological potential. Emission processes suggest their presence in all environments, including at home, where particularly at-risk populations may...
2.
Wei W, Little J, Nicolas M, Ramalho O, Mandin C
Int J Environ Res Public Health
. 2022 Aug;
19(16).
PMID: 36011756
Liquid products applied on material surfaces and human skin, including many household cleaning products and personal care products, can lead to intermittent emissions of chemicals and peak concentrations in indoor...
3.
Wei W, Dassonville C, Sivanantham S, Gregoire A, Mercier F, Le Bot B, et al.
Indoor Air
. 2021 Jan;
31(1):156-169.
PMID: 33439520
The indoor environmental quality in classrooms can largely affect children's daily exposure to indoor chemicals in schools. To date, there has not been a comprehensive study of the concentrations of...
4.
Wei W, Sivanantham S, Malingre L, Ramalho O, Mandin C
Environ Pollut
. 2020 Jul;
266(Pt 2):115050.
PMID: 32652384
Semivolatile organic compounds (SVOCs) in air can react with hydroxyl radicals (OH), nitrate radicals (NO) and ozone (O). Two questions regarding SVOC reactivity with OH, NO and O in the...
5.
Wei W, Ramalho O, Mandin C
Int J Hyg Environ Health
. 2020 Jan;
224:113436.
PMID: 31978732
The bioaccessibility of semivolatile organic compounds (SVOCs) via inhalation has rarely been studied, as indicated by the literature. There is no model to calculate the SVOC bioaccessibility following inhalation, and...
6.
Wei W, Ramalho O, Malingre L, Sivanantham S, Little J, Mandin C
Indoor Air
. 2019 Jun;
29(5):704-726.
PMID: 31220370
Indoor air quality (IAQ), as determined by the concentrations of indoor air pollutants, can be predicted using either physically based mechanistic models or statistical models that are driven by measured...
7.
Wei W, Mandin C, Blanchard O, Mercier F, Pelletier M, Le Bot B, et al.
Sci Total Environ
. 2018 Oct;
650(Pt 2):2742-2750.
PMID: 30373052
Semi-volatile organic compounds (SVOCs) are present in the gas phase, particulate phase and settled dust in the indoor environment, resulting in human exposure through different pathways. Sometimes, SVOCs are only...
8.
Pelletier M, Glorennec P, Mandin C, Le Bot B, Ramalho O, Mercier F, et al.
Environ Int
. 2018 Apr;
117:22-32.
PMID: 29705548
Background: The toxic effects of environmental exposure to chemicals are increasingly being studied and confirmed, notably for semivolatile organic compounds (SVOCs). These are found in many products and housing materials,...
9.
Wei W, Bonvallot N, Gustafsson A, Raffy G, Glorennec P, Krais A, et al.
Environ Int
. 2018 Feb;
113:202-213.
PMID: 29448239
Semi-volatile organic compounds (SVOCs) present in indoor environments are known to cause adverse health effects through multiple routes of exposure. To assess the aggregate exposure, the bioaccessibility and bioavailability of...
10.
Wei W, Mandin C, Ramalho O
Chemosphere
. 2017 Dec;
195:223-235.
PMID: 29268180
Semi-volatile organic compounds (SVOCs) in indoor environments can partition among the gas phase, airborne particles, settled dust, and available surfaces. The mass transfer parameters of SVOCs, such as the mass...