Literature DB >> 3661797

Comparison of tests used to distinguish smokers from nonsmokers.

M J Jarvis1, H Tunstall-Pedoe, C Feyerabend, C Vesey, Y Saloojee.   

Abstract

Questionnaire and biochemical measures of smoking were studied in 211 hospital outpatients. Eleven different tests of smoke intake were compared for their ability to categorize smokers and nonsmokers correctly. The concentration of cotinine, whether measured in plasma, saliva, or urine, was the best indicator of smoking, with sensitivity of 96-97 per cent and specificity of 99-100 per cent. Thiocyanate provided the poorest discrimination. Carbon monoxide measured as blood carboxyhaemoglobin or in expired air gave sensitivity and specificity of about 90 per cent. Sensitivities of the tests were little affected by the presence among the claimed nonsmokers of a group of 21 "deceivers" who concealed their smoking. It is concluded that cotinine is the measure of choice, but for most clinical applications carbon monoxide provides an acceptable degree of discrimination and is considerably cheaper and simpler to apply.

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Year:  1987        PMID: 3661797      PMCID: PMC1647100          DOI: 10.2105/ajph.77.11.1435

Source DB:  PubMed          Journal:  Am J Public Health        ISSN: 0090-0036            Impact factor:   9.308


  18 in total

1.  Passive exposure to tobacco smoke: saliva cotinine concentrations in a representative population sample of non-smoking schoolchildren.

Authors:  M J Jarvis; M A Russell; C Feyerabend; J R Eiser; M Morgan; P Gammage; E M Gray
Journal:  Br Med J (Clin Res Ed)       Date:  1985-10-05

2.  Two automated methods for measuring plasma thiocyanate compared.

Authors:  C J Vesey; C J Kirk
Journal:  Clin Chem       Date:  1985-02       Impact factor: 8.327

3.  Low cost carbon monoxide monitors in smoking assessment.

Authors:  M J Jarvis; M Belcher; C Vesey; D C Hutchison
Journal:  Thorax       Date:  1986-11       Impact factor: 9.139

4.  Validation of self-reported smoking behavior: biochemical analyses of cotinine and thiocyanate.

Authors:  N J Haley; C M Axelrad; K A Tilton
Journal:  Am J Public Health       Date:  1983-10       Impact factor: 9.308

5.  Blood carboxyhaemoglobin, plasma thiocyanate, and cigarette consumption: implications for epidemiological studies in smokers.

Authors:  C J Vesey; Y Saloojee; P V Cole; M A Russell
Journal:  Br Med J (Clin Res Ed)       Date:  1982-05-22

6.  Carboxyhaemoglobin and plasma thiocyanate: complementary indicators of smoking behaviour?

Authors:  Y Saloojee; C J Vesey; P V Cole; M A Russell
Journal:  Thorax       Date:  1982-07       Impact factor: 9.139

7.  Controlled trial of three different antismoking interventions in general practice.

Authors:  K Jamrozik; M Vessey; G Fowler; N Wald; G Parker; H Van Vunakis
Journal:  Br Med J (Clin Res Ed)       Date:  1984-05-19

8.  Expired air carbon monoxide and serum thiocyanate as objective measures of cigarette exposure.

Authors:  T M Vogt; S Selvin; G Widdowson; S B Hulley
Journal:  Am J Public Health       Date:  1977-06       Impact factor: 9.308

9.  Carbon monoxide blood levels and reported cessation of smoking.

Authors:  P Ohlin; B Lundh; H Westling
Journal:  Psychopharmacology (Berl)       Date:  1976-09-29       Impact factor: 4.530

10.  Carboxyhemoglobin, cotinine, and thiocyanate assay compared for distinguishing smokers from non-smokers.

Authors:  R Pojer; J B Whitfield; V Poulos; I F Eckhard; R Richmond; W J Hensley
Journal:  Clin Chem       Date:  1984-08       Impact factor: 8.327
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  261 in total

1.  Quality of measurement of smoking status by self-report and saliva cotinine among pregnant women.

Authors:  N R Boyd; R A Windsor; L L Perkins; J B Lowe
Journal:  Matern Child Health J       Date:  1998-06

2.  Applying the quit & win contest model in the Vietnamese community in Santa Clara county.

Authors:  K Q Lai; S J McPhee; C N Jenkins; C Wong
Journal:  Tob Control       Date:  2000       Impact factor: 7.552

3.  Passive smoking in the home: plasma cotinine concentrations in non-smokers with smoking partners.

Authors:  M J Jarvis; C Feyerabend; A Bryant; B Hedges; P Primatesta
Journal:  Tob Control       Date:  2001-12       Impact factor: 7.552

4.  Breath analysis to detect recent exposure to carbon monoxide.

Authors:  A J Cunnington; P Hormbrey
Journal:  Postgrad Med J       Date:  2002-04       Impact factor: 2.401

5.  Airway function at one year: association with premorbid airway function, wheezing, and maternal smoking.

Authors:  C Dezateux; J Stocks; A M Wade; I Dundas; M E Fletcher
Journal:  Thorax       Date:  2001-09       Impact factor: 9.139

6.  High Maternal Circulating Cotinine During Pregnancy is Associated With Persistently Shorter Stature From Birth to Five Years in an Asian Cohort.

Authors:  Sharon Ng; Izzuddin M Aris; Mya Thway Tint; Peter D Gluckman; Keith M Godfrey; Lynette Pei-Chi Shek; Fabian Yap; Kok Hian Tan; Ngee Lek; Oon Hoe Teoh; Yiong Huak Chan; Mary Foong-Fong Chong; Yung Seng Lee; Yap-Seng Chong; Michael S Kramer; Shiao-Yng Chan
Journal:  Nicotine Tob Res       Date:  2019-07-17       Impact factor: 4.244

7.  Short-term weight gain by menstrual phase following smoking cessation in women.

Authors:  Sharon S Allen; Alicia M Allen; Marc Mooney; Tracy Bade
Journal:  Eat Behav       Date:  2008-10-28

8.  Chronic distress and acute vascular stress responses associated with ambulatory blood pressure in low-testosterone African men: the SABPA Study.

Authors:  N T Malan; T Stalder; M P Schlaich; G W Lambert; M Hamer; A E Schutte; H W Huisman; R Schutte; W Smith; C M C Mels; J M van Rooyen; L Malan
Journal:  J Hum Hypertens       Date:  2013-11-28       Impact factor: 3.012

9.  Optimal Carbon Monoxide Criteria to Confirm Smoking Status Among Postpartum Women.

Authors:  Rebecca L Emery; Michele D Levine
Journal:  Nicotine Tob Res       Date:  2015-09-18       Impact factor: 4.244

10.  Serum cotinine levels and diabetes mellitus in never smokers.

Authors:  Omayma Alshaarawy; Hosam A Elbaz
Journal:  J Diabetes Complications       Date:  2015-08-24       Impact factor: 2.852
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