Smoking topography, brand switching, and nicotine delivery: results from an in vivo study.
about
Trends in nicotine yield in smoke and its relationship with design characteristics among popular US cigarette brands, 1997-2005The genetics of substance dependenceRole of cigarette sensory cues in modifying puffing topographyMethodologies for the quantitative estimation of toxicant dose to cigarette smokers using physical, chemical and bioanalytical dataDevelopment, validation and application of a device to measure e-cigarette users' puffing topography.beta2-Nicotinic acetylcholine receptor availability during acute and prolonged abstinence from tobacco smoking.Clinical trials methods for evaluation of potential reduced exposure productsPuffing behavior during the smoking of a single cigarette in tobacco-dependent adolescents.Epidemiology, determinants, and consequences of cigarette smoking in African American women: an integrative review.The GABA B agonist baclofen reduces cigarette consumption in a preliminary double-blind placebo-controlled smoking reduction study.Make your own cigarettes: toxicant exposure, smoking topography, and subjective effects.Defining and understanding success at smoking reduction: a mixed-methods studyBeliefs about the relative harm of "light" and "low tar" cigarettes: findings from the International Tobacco Control (ITC) China SurveyInitial puffing behaviors and subjective responses differ between an electronic nicotine delivery system and traditional cigarettesA Critical Review of the Effects of Nicotine and Alcohol Coadministration in Human Laboratory Studies.Mouth-level intake of benzo[a]pyrene from reduced nicotine cigarettes.Predictors and sequelae of smoking topography over the course of a single cigarette in adolescent light smokersPuffing topography and nicotine intake of electronic cigarette users.Influence of measurement setting and home smoking policy on smoking topography.Electronic Cigarette Topography in the Natural EnvironmentChanges in puffing behavior among smokers who switched from tobacco to electronic cigarettes.Genetic toxicology and toxicogenomic analysis of three cigarette smoke condensates in vitro reveals few differences among full-flavor, blonde, and light products.Development of a method to estimate mouth-level benzo[a]pyrene intake by filter analysis.Effect of differing levels of tobacco-specific nitrosamines in cigarette smoke on the levels of biomarkers in smokers.What happened to smokers' beliefs about light cigarettes when "light/mild" brand descriptors were banned in the UK? Findings from the International Tobacco Control (ITC) Four Country Survey.Building the evidence base for effective tobacco control policies: the International Tobacco Control Policy Evaluation Project (the ITC Project).Smoking topography and biomarkers of exposure among Japanese smokers: associations with cigarette emissions obtained using machine smoking protocolsCharacterizing smoking topography of cannabis in heavy users.Dependence of tar, nicotine and carbon monoxide yields on physical parameters: implications for exposure, emissions control and monitoringShorter interpuff interval is associated with higher nicotine intake in smokers with schizophreniaMarlboro UltraSmooth: a potentially reduced exposure cigarette?Comparison of Puff Volume With Cigarettes per Day in Predicting Nicotine Uptake Among Daily Smokers.Monitoring the tobacco use epidemic II: The agent: Current and emerging tobacco products.Analysis of the Paternalistic Justification of an Agenda Setting Public Health Policy: The Case of Tobacco Plain PackagingA wearable sensor system for monitoring cigarette smoking.Week Long Topography Study of Young Adults Using Electronic Cigarettes in Their Natural Environment.["How does smoker really smoke?"--preliminary report on smoking topography among Polish smokers]Reconciling human smoking behavior and machine smoking patterns: implications for understanding smoking behavior and the impact on laboratory studies.Cigarette filter-based assays as proxies for toxicant exposure and smoking behavior--a literature review.Reduced-nicotine content cigarettes: Is there potential to aid smoking cessation?
P2860
Q24647677-AEB47E5E-5D49-43BC-B6BA-89128BA6CAC7Q27002251-1A4B858A-2422-41F2-ABA2-4598EA9E2B46Q27015058-FC93CC3F-660B-49FD-A835-02B65535B288Q30641986-9829B7C9-7623-4B94-9012-67E920DAA07AQ30819751-87091AD2-1820-4718-BD93-C6CFE3F0E7DCQ33551855-C4B96BCC-91B3-43C3-9446-C4E6EB56EB6EQ33562506-4597C0BD-38F6-4BFE-AF94-46E5A897DBE1Q33629193-C6AC6449-DE59-46BF-A314-7457BD041979Q33695828-F645D90D-DA9F-40CB-8CA0-563E516F68E9Q33757216-E6E832CF-BC5B-4830-97DA-0EEFF8BD8996Q34135370-3FFB50EC-ED78-425E-B6EC-3BCDBBDD42DFQ34271703-AFBFE78F-49B9-4934-960F-5CCB1B1A37E7Q34289452-AAB052FD-8386-4D6F-9F23-671141168763Q34350685-F0D800BC-9744-4451-96F7-127486AEAA1DQ34552358-91026706-D478-4A4C-8CE5-4923C06384F7Q34578470-1D6C5CA6-67CB-496D-BD18-0FEFC0080C64Q34602043-10297332-1534-4AF8-8419-22A5712A47C2Q35064291-FF5051B5-69F1-4037-A15F-456A9061E838Q35423161-0D5CC10B-EC06-4D06-9774-0F99232AF9DFQ35656330-3E2E56CF-0F85-49C8-BDA0-298FA3D06DCEQ35688790-E3D45D91-292A-4DCB-A773-908099D78B4CQ35954486-9F869479-0773-4433-8D70-E1151106B1B5Q36019988-352D341F-1F60-4587-BFAC-6EBECB9A9E25Q36047534-5506A058-0854-48BE-B821-26D572905DB5Q36316019-6080F79E-3B43-4834-B76E-F337C812377EQ36497801-BF676F86-967E-42FF-8F69-81A62B9F379CQ36662489-0FA3760B-07FE-4808-8CBD-CFBD40592620Q36811395-0BDED558-E47F-4003-A6A4-28C6B2FBB0D9Q36848065-CF27457C-0F85-4C6E-B86C-1028CAFD698AQ36848924-C7458F65-931F-4296-AADB-3D673709E40DQ36928182-0611E6C6-3A6A-4DE1-9D75-40C5BFE8673BQ37056893-1B561E78-84B2-4C9F-8D84-1EAB6A0D62BEQ37155822-41283B95-1D27-4849-966A-A4778ADCEB80Q37177685-8C8ACE3E-DD03-453B-863B-4FFF84B9D4D8Q37278704-7EA73323-9309-4FE9-BDB5-AC22D0034A98Q37337993-37D7838F-BD4D-4A14-9C1F-EC80326D73DEQ37428053-A4383505-2D90-4D0A-9790-C32AEE3BFC5CQ37461696-4383F163-E5BC-4BAB-879B-6624610CD064Q37486147-B22AD03B-03CF-435C-993C-04937E717C0BQ37606130-245EA0D5-9966-4654-9978-938157175082
P2860
Smoking topography, brand switching, and nicotine delivery: results from an in vivo study.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Smoking topography, brand swit ...... results from an in vivo study.
@en
Smoking topography, brand swit ...... results from an in vivo study.
@nl
type
label
Smoking topography, brand swit ...... results from an in vivo study.
@en
Smoking topography, brand swit ...... results from an in vivo study.
@nl
prefLabel
Smoking topography, brand swit ...... results from an in vivo study.
@en
Smoking topography, brand swit ...... results from an in vivo study.
@nl
P2093
P1476
Smoking topography, brand swit ...... results from an in vivo study.
@en
P2093
Andrew Hyland
David Hammond
Geoffrey T Fong
K Michael Cummings
P304
P356
10.1158/1055-9965.EPI-04-0498
P577
2005-06-01T00:00:00Z