INTRODUCTION: An important basis for risk estimation for e-cigarette (e-cig) users is a well-founded dosimetry. The objective of this study was to assess the applicability of stable-isotope e-liquid ingredients for exposure studies in vapers. METHODS: E-cigs with 10% of labeled propylene glycol (PG), glycerol (G), and nicotine was used by 20 experienced vapers under controlled (Part A) and free (Part B) conditions. In Part A, 10 subjects vaped at 10 W and another 10 subjects at 18 W power setting of the e-cig. In Part B, the same subjects used the same product ad libitum in their usual environment. Five smokers, smoking 10 non-filter cigarettes, spiked with labeled PG, G, and nicotine, served as positive control during Part A. PG, G, nicotine and its metabolites were measured in plasma, urine, and saliva. RESULTS: Peak nicotine levels (sum of measured labeled and unlabeled) in plasma were lower in vapers (15.8 to 19.6 ng/mL) than in smokers (36 ng/mL). The labeled plasma nicotine levels were ten times lower than the unlabeled, reflecting the ratio in the e-liquid. PG levels in plasma and urine also reflected the vaping activities in Part A, while G in these body fluids showed no association with vaping. CONCLUSIONS: This proof of concept study shows that the application of labeled e-liquid ingredients allows the accurate quantification of the dose of nicotine and PG when other nicotine and tobacco products were used simultaneously. Unchanged G was not assessable by this approach. IMPLICATIONS: This approach allows the investigations of the absorption of potential PG-, G-, and nicotine-derived vapor constituents (eg, aldehydes and epoxides) by vaping. Appropriate studies are in progress in our laboratory.
INTRODUCTION: An important basis for risk estimation for e-cigarette (e-cig) users is a well-founded dosimetry. The objective of this study was to assess the applicability of stable-isotope e-liquid ingredients for exposure studies in vapers. METHODS: E-cigs with 10% of labeled propylene glycol (PG), glycerol (G), and nicotine was used by 20 experienced vapers under controlled (Part A) and free (Part B) conditions. In Part A, 10 subjects vaped at 10 W and another 10 subjects at 18 W power setting of the e-cig. In Part B, the same subjects used the same product ad libitum in their usual environment. Five smokers, smoking 10 non-filter cigarettes, spiked with labeled PG, G, and nicotine, served as positive control during Part A. PG, G, nicotine and its metabolites were measured in plasma, urine, and saliva. RESULTS: Peak nicotine levels (sum of measured labeled and unlabeled) in plasma were lower in vapers (15.8 to 19.6 ng/mL) than in smokers (36 ng/mL). The labeled plasma nicotine levels were ten times lower than the unlabeled, reflecting the ratio in the e-liquid. PG levels in plasma and urine also reflected the vaping activities in Part A, while G in these body fluids showed no association with vaping. CONCLUSIONS: This proof of concept study shows that the application of labeled e-liquid ingredients allows the accurate quantification of the dose of nicotine and PG when other nicotine and tobacco products were used simultaneously. Unchanged G was not assessable by this approach. IMPLICATIONS: This approach allows the investigations of the absorption of potential PG-, G-, and nicotine-derived vapor constituents (eg, aldehydes and epoxides) by vaping. Appropriate studies are in progress in our laboratory.
Authors: Min-Ae Song; Jo L Freudenheim; Theodore M Brasky; Ewy A Mathe; Joseph P McElroy; Quentin A Nickerson; Sarah A Reisinger; Dominic J Smiraglia; Daniel Y Weng; Kevin L Ying; Mark D Wewers; Peter G Shields Journal: Cancer Epidemiol Biomarkers Prev Date: 2019-12-17 Impact factor: 4.254
Authors: Martin Chaumont; Vanessa Tagliatti; El Mehdi Channan; Jean-Marie Colet; Alfred Bernard; Sofia Morra; Guillaume Deprez; Alain Van Muylem; Nadia Debbas; Thomas Schaefer; Vitalie Faoro; Philippe van de Borne Journal: Am J Physiol Lung Cell Mol Physiol Date: 2019-11-13 Impact factor: 5.464
Authors: Pavel N Lizhnyak; Brendan Noggle; Lai Wei; Jeffery Edmiston; Elizabeth Becker; Ryan A Black; Mohamadi Sarkar Journal: Harm Reduct J Date: 2022-08-17
Authors: Anne Landmesser; Max Scherer; Gerhard Scherer; Mohamadi Sarkar; Jeffery S Edmiston; Reinhard Niessner; Nikola Pluym Journal: Arch Toxicol Date: 2021-06-22 Impact factor: 5.153