Effects of watercress consumption on urinary metabolites of nicotine in smokers.
about
Cruciferous vegetable intake is inversely associated with lung cancer risk among smokers: a case-control studyNicotine chemistry, metabolism, kinetics and biomarkersCruciferous vegetables and human cancer risk: epidemiologic evidence and mechanistic basisCruciferous vegetable feeding alters UGT1A1 activity: diet- and genotype-dependent changes in serum bilirubin in a controlled feeding trialIn vivo modulation of 4E binding protein 1 (4E-BP1) phosphorylation by watercress: a pilot studyModulation of the metabolism of airborne pollutants by glucoraphanin-rich and sulforaphane-rich broccoli sprout beverages in Qidong, ChinaNicotine metabolism in African Americans and European Americans: variation in glucuronidation by ethnicity and UGT2B10 haplotype.Smoking reduction fails to improve clinical and biological markers of cardiac disease: a randomized controlled trial.Glucuronidation genotypes and nicotine metabolic phenotypes: importance of functional UGT2B10 and UGT2B17 polymorphisms1,3-Butadiene exposure and metabolism among Japanese American, Native Hawaiian, and White smokers.Effect of orally administered phenethyl isothiocyanate on hepatic gene expression in ratsPhenethyl isothiocyanate: a comprehensive review of anti-cancer mechanisms.Urinary isothiocyanate levels and lung cancer risk among non-smoking women: a prospective investigationEvidence supporting product standards for carcinogens in smokeless tobacco products.Modulation of Metabolic Detoxification Pathways Using Foods and Food-Derived Components: A Scientific Review with Clinical Application2'-Hydroxylation of nicotine by cytochrome P450 2A6 and human liver microsomes: formation of a lung carcinogen precursor.Reduced nicotine content cigarettes: effects on toxicant exposure, dependence and cessation.Urinary levels of cigarette smoke constituent metabolites are prospectively associated with lung cancer development in smokers.Keap1-nrf2 signaling: a target for cancer prevention by sulforaphaneClinical Trial of 2-Phenethyl Isothiocyanate as an Inhibitor of Metabolic Activation of a Tobacco-Specific Lung Carcinogen in Cigarette Smokers.Reduced nicotine content cigarettes and nicotine patchCruciferous vegetables consumption and the risk of female lung cancer: a prospective study and a meta-analysisSmokers with the CHRNA lung cancer-associated variants are exposed to higher levels of nicotine equivalents and a carcinogenic tobacco-specific nitrosamine.Nicotine metabolism in three ethnic/racial groups with different risks of lung cancer.Citrus fruit intake is associated with lower serum bilirubin concentration among women with the UGT1A1*28 polymorphismUrinary levels of tobacco-specific nitrosamine metabolites in relation to lung cancer development in two prospective cohorts of cigarette smokers.Induction of epoxide hydrolase, glucuronosyl transferase, and sulfotransferase by phenethyl isothiocyanate in male Wistar albino rats.High Level of Tobacco Carcinogen-Derived DNA Damage in Oral Cells Is an Independent Predictor of Oral/Head and Neck Cancer Risk in Smokers.Association of internal smoking dose with blood DNA methylation in three racial/ethnic populations
P2860
Q24608114-78381B25-FF03-4A5D-ACC2-5349C26A2A41Q24632647-0C529892-3748-4A2E-8600-BE03783301FCQ24641921-95E03B4F-6EF9-4AF5-AB83-40ECC77CABACQ24645424-651CC6DF-553D-44D2-960C-63CB0F22FF90Q28285194-C410A22A-7381-420B-B6D3-3EFDF706552FQ28732170-659EC068-851A-45F4-A2A7-80724F5E8744Q33574895-1BA47745-375F-47F1-BA5F-9BA39EAED017Q33949619-141A1520-A15D-43B6-BFA5-CB6FCEB85B9DQ34390412-31FBF1DF-8064-4888-B749-7B613EEA88EEQ34452819-D444D398-D856-4260-B8CC-5574DE9EAEB3Q34474743-34BBB615-D09E-4F83-A914-CBE0ADDA4277Q34663720-20DE0F67-7D22-4575-9D43-2B2F2E4AE6B3Q34770580-EC07295C-98FE-4957-927E-F7FAAC3D45C9Q34987618-5EB555CC-3D57-4FBA-A428-6C7E59DB15A6Q35806779-2F1B4560-5A9F-41AE-ADA1-30C7C7E62684Q35815009-DCCB4670-71D7-4FEB-98F3-1A3FAD102D0CQ36047601-48737338-4F91-4BCB-98CD-FC6DE166D8DCQ36085208-DADF018A-B48E-436C-B964-52A88F4B7FC4Q36557973-81C7E262-C16F-41E6-BA7A-5EDFC4764E9EQ36863232-9BB57C74-27EF-4622-AF84-DAEA6E811A34Q36927046-361FBC92-1B06-4ACF-B3B3-1EAFAE495D2EQ36950491-342D7F24-135E-4B7F-B359-3E6FA07B2CACQ36983085-804E7043-2830-4C95-A468-D1801CFFB87BQ37008114-1C2BEAA9-558A-464B-B11F-40C2BE254E29Q37105826-D204FB97-AA36-4585-BDEA-510DF2FAF0E1Q37149026-A0AE7E97-E421-41F4-ADAB-34C6C1F6DD4EQ37579397-BC65EF4D-24F0-4CC1-8ECE-FCEBDEABFDE9Q47160812-C38087B0-BBAB-4CEC-B999-5EC14898982AQ58713713-383606DC-8E0A-4375-8502-8025764AD1DB
P2860
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
description
1999 nî lūn-bûn
@nan
1999 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@ast
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@en
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@nl
type
label
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@ast
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@en
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@nl
prefLabel
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@ast
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@en
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@nl
P2093
P1476
Effects of watercress consumption on urinary metabolites of nicotine in smokers.
@en
P2093
S E Murphy
S G Carmella
P304
P577
1999-10-01T00:00:00Z