Literature DB >> 19299402

Is house-dust nicotine a good surrogate for household smoking?

Todd Whitehead1, Catherine Metayer, Mary H Ward, Marcia G Nishioka, Robert Gunier, Joanne S Colt, Peggy Reynolds, Steve Selvin, Patricia Buffler, Stephen M Rappaport.   

Abstract

The literature is inconsistent regarding associations between parental smoking and childhood leukemia, possibly because previous studies used self-reported smoking habits as surrogates for children's true exposures to cigarette smoke. Here, the authors investigated the use of nicotine concentrations in house dust as measures of children's exposure to cigarette smoke in 469 households from the Northern California Childhood Leukemia Study (1999-2007). House dust was collected by using high-volume surface samplers and household vacuum cleaners and was analyzed for nicotine via gas chromatography-mass spectrometry. Using multivariable linear regression, the authors evaluated the effects of self-reported parental smoking, parental demographics, house characteristics, and other covariates on house-dust nicotine concentrations. They observed that nicotine concentrations in house dust were associated with self-reported smoking for periods of months and years before dust collection. Furthermore, the authors found that the relation between nicotine dust levels and self-reported smoking varied by parental age and socioeconomic status. These findings suggest that house-dust nicotine concentrations reflect long-term exposures to cigarette smoke in the home and that they may be less biased surrogates for children's exposures to cigarette smoke than self-reported smoking habits.

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Year:  2009        PMID: 19299402      PMCID: PMC2727236          DOI: 10.1093/aje/kwp021

Source DB:  PubMed          Journal:  Am J Epidemiol        ISSN: 0002-9262            Impact factor:   4.897


  30 in total

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Journal:  Matern Child Health J       Date:  1998-06

2.  Parental smoking, CYP1A1 genetic polymorphisms and childhood leukemia (Québec, Canada).

Authors:  C Infante-Rivard; M Krajinovic; D Labuda; D Sinnett
Journal:  Cancer Causes Control       Date:  2000-07       Impact factor: 2.506

3.  Paternal smoking, genetic polymorphisms in CYP1A1 and childhood leukemia risk.

Authors:  Kyoung-Mu Lee; Mary H Ward; Sohee Han; Hyo Seop Ahn; Hyoung Jin Kang; Hyung Soo Choi; Hee Young Shin; Hong-Hoe Koo; Jong-Jin Seo; Ji-Eun Choi; Yoon-Ok Ahn; Daehee Kang
Journal:  Leuk Res       Date:  2008-08-08       Impact factor: 3.156

4.  Measurement of nicotine in household dust.

Authors:  Sungroul Kim; Ther Aung; Emily Berkeley; Gregory B Diette; Patrick N Breysse
Journal:  Environ Res       Date:  2008-08-27       Impact factor: 6.498

5.  Factors associated with discrepancies between self-reports on cigarette smoking and measured serum cotinine levels among persons aged 17 years or older: Third National Health and Nutrition Examination Survey, 1988-1994.

Authors:  R S Caraballo; G A Giovino; T F Pechacek; P D Mowery
Journal:  Am J Epidemiol       Date:  2001-04-15       Impact factor: 4.897

6.  Assessment of environmental tobacco smoke exposure: urinary cotinine concentrations in children are strongly associated with the house dust concentrations of nicotine at home.

Authors:  S Willers; H O Hein; L Jansson
Journal:  Indoor Air       Date:  2004-04       Impact factor: 5.770

7.  Maternal smoking and childhood leukemia and lymphoma risk among 1,440,542 Swedish children.

Authors:  Lorelei A Mucci; Frederik Granath; Sven Cnattingius
Journal:  Cancer Epidemiol Biomarkers Prev       Date:  2004-09       Impact factor: 4.254

8.  Households contaminated by environmental tobacco smoke: sources of infant exposures.

Authors:  G E Matt; P J E Quintana; M F Hovell; J T Bernert; S Song; N Novianti; T Juarez; J Floro; C Gehrman; M Garcia; S Larson
Journal:  Tob Control       Date:  2004-03       Impact factor: 7.552

9.  Parental smoking and childhood cancer: results from the United Kingdom Childhood Cancer Study.

Authors:  D Pang; R McNally; J M Birch
Journal:  Br J Cancer       Date:  2003-02-10       Impact factor: 7.640

10.  Household vacuum cleaners vs. the high-volume surface sampler for collection of carpet dust samples in epidemiologic studies of children.

Authors:  Joanne S Colt; Robert B Gunier; Catherine Metayer; Marcia G Nishioka; Erin M Bell; Peggy Reynolds; Patricia A Buffler; Mary H Ward
Journal:  Environ Health       Date:  2008-02-21       Impact factor: 5.984
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  10 in total

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2.  Levels of nicotine in dust from homes of smokeless tobacco users.

Authors:  Todd P Whitehead; Catherine Metayer; June-Soo Park; Monique Does; Patricia A Buffler; Stephen M Rappaport
Journal:  Nicotine Tob Res       Date:  2013-07-24       Impact factor: 4.244

3.  A comparison of subject room dust with home vacuum dust for evaluation of dust-borne aeroallergens.

Authors:  Charles Barnes; Jay M Portnoy; Christina E Ciaccio; Freddy Pacheco
Journal:  Ann Allergy Asthma Immunol       Date:  2013-03-07       Impact factor: 6.347

4.  Assessing progress in protecting non-smokers from secondhand smoke.

Authors:  Sean Semple; Will Mueller; Alastair H Leyland; Linsay Gray; John W Cherrie
Journal:  Tob Control       Date:  2018-08-29       Impact factor: 7.552

5.  Tobacco alkaloids and tobacco-specific nitrosamines in dust from homes of smokeless tobacco users, active smokers, and nontobacco users.

Authors:  Todd P Whitehead; Christopher Havel; Catherine Metayer; Neal L Benowitz; Peyton Jacob
Journal:  Chem Res Toxicol       Date:  2015-04-02       Impact factor: 3.739

6.  Regulation of smoking in public housing.

Authors:  Jonathan P Winickoff; Mark Gottlieb; Michelle M Mello
Journal:  N Engl J Med       Date:  2010-06-17       Impact factor: 91.245

7.  Determinants of polycyclic aromatic hydrocarbon levels in house dust.

Authors:  Todd Whitehead; Catherine Metayer; Robert B Gunier; Mary H Ward; Marcia G Nishioka; Patricia Buffler; Stephen M Rappaport
Journal:  J Expo Sci Environ Epidemiol       Date:  2009-12-30       Impact factor: 5.563

8.  Carpet-dust chemicals as measures of exposure: Implications of variability.

Authors:  Todd P Whitehead; John R Nuckols; Mary H Ward; Stephen M Rappaport
Journal:  Emerg Themes Epidemiol       Date:  2012-03-23

Review 9.  Environmental monitoring of secondhand smoke exposure.

Authors:  Benjamin J Apelberg; Lisa M Hepp; Erika Avila-Tang; Lara Gundel; S Katharine Hammond; Melbourne F Hovell; Andrew Hyland; Neil E Klepeis; Camille C Madsen; Ana Navas-Acien; James Repace; Jonathan M Samet; Patrick N Breysse
Journal:  Tob Control       Date:  2012-09-04       Impact factor: 7.552

10.  A Health Threat to Bystanders Living in the Homes of Smokers: How Smoke Toxins Deposited on Surfaces Can Cause Insulin Resistance.

Authors:  Neema Adhami; Shelley R Starck; Cristina Flores; Manuela Martins Green
Journal:  PLoS One       Date:  2016-03-02       Impact factor: 3.240
  10 in total

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