State-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco products

State-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco products

Tobacco harm reduction is increasingly recognized as a promising approach to accelerate the decline in smoking prevalence and smoking-related population harm. Potential modified risk tobacco products (MRTPs) must undergo a rigorous premarket toxicological risk assessment. The ability to reproducibly...

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Main Authors: Stéphanie Boué, Didier Goedertier, Julia Hoeng, Arkadiusz Kuczaj, Shoaib Majeed, Carole Mathis, Anne May, Blaine Phillips, Manuel C Peitsch, Falk Radtke, Walter K Schlage, Wei Teck Tan, Patrick Vanscheeuwijck
Format: Article
Language:English
Published: SAGE Publishing 2020-01-01
Series:Toxicology Research and Application
Online Access:https://doi.org/10.1177/2397847319897869
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spelling doaj-ccabe6239c2a4122b384924fd54f183c2020-11-25T02:54:21ZengSAGE PublishingToxicology Research and Application2397-84732020-01-01410.1177/2397847319897869State-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco productsStéphanie Boué0Didier Goedertier1Julia Hoeng2Arkadiusz Kuczaj3Shoaib Majeed4Carole Mathis5Anne May6Blaine Phillips7Manuel C Peitsch8Falk Radtke9Walter K Schlage10Wei Teck Tan11Patrick Vanscheeuwijck12 Philip Morris International (PMI) Research & Development, Philip Morris Products S.A., Neuchâtel, Switzerland Philip Morris International (PMI) Research & Development, Philip Morris Products S.A., Neuchâtel, Switzerland Philip Morris International (PMI) Research & Development, Philip Morris Products S.A., Neuchâtel, Switzerland Philip Morris International (PMI) Research & Development, Philip Morris Products S.A., Neuchâtel, Switzerland Philip Morris International (PMI) Research & Development, Philip Morris Products S.A., Neuchâtel, Switzerland Philip Morris International (PMI) Research & Development, Philip Morris Products S.A., Neuchâtel, Switzerland Consultants in Science, Epalinges, Switzerland Philip Morris International (PMI) Research & Development, Philip Morris International Research Laboratories Pte. Ltd, Science Park II, Singapore Philip Morris International (PMI) Research & Development, Philip Morris Products S.A., Neuchâtel, Switzerland Philip Morris International (PMI) Research & Development, Philip Morris Products S.A., Neuchâtel, Switzerland Biology Consultant, Bergisch Gladbach, Germany Philip Morris International (PMI) Research & Development, Philip Morris International Research Laboratories Pte. Ltd, Science Park II, Singapore Philip Morris International (PMI) Research & Development, Philip Morris Products S.A., Neuchâtel, SwitzerlandTobacco harm reduction is increasingly recognized as a promising approach to accelerate the decline in smoking prevalence and smoking-related population harm. Potential modified risk tobacco products (MRTPs) must undergo a rigorous premarket toxicological risk assessment. The ability to reproducibly generate, collect, and use aerosols is critical for the characterization, and preclinical assessment of aerosol-based candidate MRTPs (cMRTPs), such as noncombusted cigarettes, also referred to as heated tobacco products, tobacco heating products, or heat-not-burn (HNB) tobacco products. HNB tobacco products generate a nicotine-containing aerosol by heating tobacco instead of burning it. The aerosols generated by HNB products are qualitatively and quantitatively highly different from cigarette smoke (CS). This constitutes technical and experimental challenges comparing the toxicity of HNB aerosols with CS. The methods and experimental setups that have been developed for the study of CS cannot be directly transposed to the study of HNB aerosols. Significant research efforts are dedicated to the development, characterization, and validation of experimental setups and methods suitable for HNB aerosols. They are described in this review, with a particular focus on the Tobacco Heating System version 2.2. This is intended to support further studies, the objective evaluation and verification of existing evidence, and the development of scientifically substantiated HNB MRTPs.https://doi.org/10.1177/2397847319897869
collection DOAJ
language English
format Article
sources DOAJ
author Stéphanie Boué
Didier Goedertier
Julia Hoeng
Arkadiusz Kuczaj
Shoaib Majeed
Carole Mathis
Anne May
Blaine Phillips
Manuel C Peitsch
Falk Radtke
Walter K Schlage
Wei Teck Tan
Patrick Vanscheeuwijck
spellingShingle Stéphanie Boué
Didier Goedertier
Julia Hoeng
Arkadiusz Kuczaj
Shoaib Majeed
Carole Mathis
Anne May
Blaine Phillips
Manuel C Peitsch
Falk Radtke
Walter K Schlage
Wei Teck Tan
Patrick Vanscheeuwijck
State-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco products
Toxicology Research and Application
author_facet Stéphanie Boué
Didier Goedertier
Julia Hoeng
Arkadiusz Kuczaj
Shoaib Majeed
Carole Mathis
Anne May
Blaine Phillips
Manuel C Peitsch
Falk Radtke
Walter K Schlage
Wei Teck Tan
Patrick Vanscheeuwijck
author_sort Stéphanie Boué
title State-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco products
title_short State-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco products
title_full State-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco products
title_fullStr State-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco products
title_full_unstemmed State-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco products
title_sort state-of-the-art methods and devices for the generation, exposure, and collection of aerosols from heat-not-burn tobacco products
publisher SAGE Publishing
series Toxicology Research and Application
issn 2397-8473
publishDate 2020-01-01
description Tobacco harm reduction is increasingly recognized as a promising approach to accelerate the decline in smoking prevalence and smoking-related population harm. Potential modified risk tobacco products (MRTPs) must undergo a rigorous premarket toxicological risk assessment. The ability to reproducibly generate, collect, and use aerosols is critical for the characterization, and preclinical assessment of aerosol-based candidate MRTPs (cMRTPs), such as noncombusted cigarettes, also referred to as heated tobacco products, tobacco heating products, or heat-not-burn (HNB) tobacco products. HNB tobacco products generate a nicotine-containing aerosol by heating tobacco instead of burning it. The aerosols generated by HNB products are qualitatively and quantitatively highly different from cigarette smoke (CS). This constitutes technical and experimental challenges comparing the toxicity of HNB aerosols with CS. The methods and experimental setups that have been developed for the study of CS cannot be directly transposed to the study of HNB aerosols. Significant research efforts are dedicated to the development, characterization, and validation of experimental setups and methods suitable for HNB aerosols. They are described in this review, with a particular focus on the Tobacco Heating System version 2.2. This is intended to support further studies, the objective evaluation and verification of existing evidence, and the development of scientifically substantiated HNB MRTPs.
url https://doi.org/10.1177/2397847319897869
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