Factors affecting exposure to nicotine and carbon monoxide in adult cigarette smokers

Exposure to cigarette smoke among smokers is highly variable. This variability has been attributed to differences in smoking behavior as measured by smoking topography, as well as other behavioral and subjective aspects of smoking. The objective of this study was to determine the factors affecting smoke exposure as estimated by biomarkers of exposure to nicotine and carbon monoxide (CO). In a multi-center cross-sectional study of 3585 adult smokers and 1077 adult nonsmokers, exposure to nicotine and CO was estimated by 24h urinary excretion of nicotine and five of its metabolites and by blood carboxyhemoglobin, respectively. Number of cigarettes smoked per day (CPD) was determined from cigarette butts returned. Puffing parameters were determined through a CreSS® micro device and a 182-item adult smoker questionnaire (ASQ) was administered. The relationship between exposure and demographic factors, smoking machine measured tar yield and CPD was examined in a statistical model (Model A). Topography parameters were added to this model (Model B) which was further expanded (Model C) by adding selected questions from the ASQ identified by a data reduction process. In all the models, CPD was the most important and highest ranking factor determining daily exposure. Other statistically significant factors were number of years smoked, questions related to morning smoking, topography and tar yield categories. In conclusion, the models investigated in this analysis, explain about 30-40% of variability in exposure to nicotine and CO.

Concordance between proguanil phenotype and CYP2C19 genotype in Chinese

OBJECTIVE

To investigate whether urinary proguanil (chlorguanide) metabolite ratios incorporating its minor metabolite, 4-chlorophenylbiguanide, define individuals as extensive metabolisers (EMs) or poor metabolisers (PMs) of CYP2C19 more reliably than the standard phenotyping ratio [proguanil/cycloguanil (PG/CG)].

METHODS

Thirty-eight ethnic Chinese subjects ingested 100 mg proguanil, collected urine for 8 h and were genotyped for CYP2C19*1, *2 and *3 alleles. Proguanil metabolite ratios (PG/CG; proguanil/4-chlorophenylbiguanide (PG/CPB); proguanil/(cycloguanil+4-chlorophenylbiguanide) [PG/(CG+CPB)] were determined from the urinary recoveries of proguanil, cycloguanil and 4-chlorophenylbiguanide. Proguanil phenotypes were determined from the ratios using frequency distribution histograms, probit and normal test variable plots.

RESULTS

Data from 35 subjects were suitable for analysis. Of subjects, 5 were CYP2C19*2/*2, 1 was *2/*3, 21 were *1/*2 and 8 were *1/*1. A rank order of proguanil metabolic ratios was observed, with *1/*1 subjects having the lowest, *1/*2 intermediate and *2/*2, *2/*3 having the highest ratios (P<0.0001). All subjects with PM genotypes were classified as PMs of proguanil by probit analysis of PG/CPB and PG/(CG+CPB) ratios, but not PG/CG.

CONCLUSION

A gene-dose effect of CYP2C19 genotype on the conversion of proguanil to cycloguanil and 4-chlorophenylbiguanide has been demonstrated in ethnic Chinese subjects. Complete concordance between PM CYP2C19 genotype and PM phenotype was only achieved with probit analysis of proguanil metabolite ratios that incorporated 4-chlorophenylbiguanide.

Elimination of nonspecific radioactivity from [76Br]bromide in PET study with [76Br]bromodeoxyuridine

[76Br]Bromodeoxyuridine ([76Br]BrdU) might allow a determination of proliferation in vivo using positron emission tomography (PET), but only with consideration of organ nonspecific radioactivity constituted by [76Br]bromide. A first study assessed the potential of diuretics to eliminate [76Br]bromide. [76Br]Bromide was injected in the vein of rats and different diuretic combinations were given. Urine was collected and radioactivity measured. Torasemide plus sodium chloride gave better 76Br elimination than the other diuretics. In a second experiment, rats were given [76Br]BrdU. After the radioactivity injection, the rats of the treatment group were given torasemide plus NaCl. At 44 h after the radioactivity injection, the radioactivity concentration and the fraction incorporated into DNA were measured in different organs. Using diuretics, the elimination of [76Br]bromide was increased. The radioactivity decreased 30-50% in most of the organs but the highest radioactivity uptake was found in the organs with more active DNA synthesis. This method may facilitate the use of [76Br]BrdU as a tracer for DNA synthesis using PET.

Determination of ftorafur and 5-fluorouracil levels in plasma and urine

A gas chromatographic method was developed for ftorafur (Ft) detection in plasma and urine with a sensitivity of 1 mug/ml. Specific determination of its metabolite 5-fluorouracil (FU) with a sensitivity of 1 ng/ml was achieved by column chromatographic separation from Ft and subsequent gas chromatography-mass spectrometry of bis-silyl-FU in the selected ion mode (GC-MS-SIM) using bis-15N-FU as internal standard. Intravenous injections of 2-14C-Ft and 2',5'-14C-Ft were given to rats and rabbits respectively, and plasma and urine were analyzed for Ft, and 14C activity. Unchanged Ft accounted for most of the 14C activity in plasma, while FU concentrations were below 0.15% and 0.4% relative to Ft concentrations in the rabbit and the rat, respectively. 30-60% of the urinary 14C activity was unchanged Ft and less than 0.2% FU. The significance or low FU levels is discussed in view of the hypothesis that Ft acts as a transport form of its metabolite FU.