Kevin McAdam
Overview
Explore the profile of Kevin McAdam including associated specialties, affiliations and a list of published articles.
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28
Citations
510
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Recent Articles
1.
Cunningham A, McAdam K, Thissen J, Digard H
Front Toxicol
. 2022 Mar;
2:586674.
PMID: 35296117
E-cigarette designs, materials, and ingredients are continually evolving, with cotton wicks and diverse coil materials emerging as the popular components of atomisers. Another recent development is the use of nicotine...
2.
McAdam K, Waters G, Moldoveanu S, Margham J, Cunningham A, Vas C, et al.
Front Chem
. 2021 Oct;
9:742538.
PMID: 34631664
Concerns over the presence of the diketones 2,4 butanedione (DA) and 2,3 pentanedione (AP) in e-cigarettes arise from their potential to cause respiratory diseases. Their presence in e-liquids is a...
3.
Vas C, Porter A, McAdam K
Food Chem Toxicol
. 2019 Aug;
133:110727.
PMID: 31377138
Use of the e-liquid flavourings diacetyl and acetyl propionyl has raised concerns that they might cause respiratory diseases amongst vapers. Product surveys show that these compounds, plus a less toxic...
4.
McAdam K, Warrington A, Hughes A, Adams D, Margham J, Vas C, et al.
Regul Toxicol Pharmacol
. 2019 Jul;
107:104423.
PMID: 31310846
The recent growth in e-cigarette use has presented many challenges to Public Health research, including understanding the potential for e-cigarettes to generate toxic aerosol constituents during use. Recent research has...
5.
Eldridge A, Betson T, Gama M, Errington G, McAdam K
Regul Toxicol Pharmacol
. 2019 Jun;
107:104402.
PMID: 31199996
There has been increased interest in recent years in regulatory reporting of cigarette smoke toxicants. There is a great deal of diversity in current regulatory standards around the world in...
6.
McAdam K, Enos T, Goss C, Kimpton H, Faizi A, Edwards S, et al.
Chem Cent J
. 2018 Dec;
12(1):142.
PMID: 30569337
Differences in health risks between different styles of smokeless tobacco products (STPs) have prompted interest in their relative levels of toxic chemicals. We report here the development of methods for...
7.
Crooks I, Neilson L, Scott K, Reynolds L, Oke T, Forster M, et al.
Food Chem Toxicol
. 2018 Jun;
118:940-952.
PMID: 29879435
We designed a novel tobacco-heating product (THP) that heats tobacco to release nicotine and aerosolised components, such as glycerol and tobacco volatiles from a tobacco rod (Neostik). Heating tobacco significantly...
8.
McAdam K, Murphy J, Eldridge A, Meredith C, Proctor C
Regul Toxicol Pharmacol
. 2018 Mar;
95:102-114.
PMID: 29526814
The concept of a risk continuum for tobacco and nicotine products has been proposed, which differentiates products according to their propensity to reduce toxicant exposure and risk. Cigarettes are deemed...
9.
Murphy J, Liu C, McAdam K, Gaa M, Prasad K, Camacho O, et al.
Regul Toxicol Pharmacol
. 2017 Oct;
93:92-104.
PMID: 29080852
This series of nine papers described the operation and pre-clinical assessment of a tobacco heating product THP1.0. This last paper contextualises the pre-clinical assessment data on THP1.0 with data from...
10.
Eaton D, Jakaj B, Forster M, Nicol J, Mavropoulou E, Scott K, et al.
Regul Toxicol Pharmacol
. 2017 Oct;
93:4-13.
PMID: 29080851
A novel tobacco heating product, THP1.0, that heats tobacco below 245 °C is described. It was designed to eliminate tobacco combustion, while heating tobacco to release nicotine, tobacco volatiles and...