Our platform development process follows the principle of “Quality by Design.” This means that the platforms are specifically designed to eliminate or reduce the levels of HPHCs found in the aerosol compared to those found in cigarette smoke.
Aerosol Science
Particles of very small sizes, such as droplets or fine solid particles, do not settle when surrounded by gas; they instead form a suspended mixture called an aerosol.
Aerosol Science plays a fundamental role in the development of smoke-free products. Chemical characterization of the inhaled aerosol is imperative since the aerosol chemicals are absorbed in the body and have biological effects.
Cigarette smoke is a type of aerosol; in addition to water droplets, it contains over 6000 different chemicals identified to date. Solid carbon-based particles are also present in cigarette smoke, produced as a result of tobacco combustion.
Heated tobacco products and e-vapor products also produce aerosols, but they are very different from cigarette smoke in their composition. Since these products are designed to operate without combustion, carbon-based solid particles are not present in their aerosols, only liquid droplets.
Cigarette smoke is a type of aerosol; in addition to water droplets, it contains over 6000 different chemicals identified to date. Solid carbon-based particles are also present in cigarette smoke, produced as a result of tobacco combustion.
Aerosol Chemistry
What compounds are found in smoke-free aerosols and cigarette smoke?
At PMI, we have been studying the chemical composition of a variety of aerosols for over a decade.
Based on the guidelines and regulations of health authorities, such as the WHO1, FDA2 and HC3, we have consolidated a list of 58 chemicals that are relevant to the analysis of cigarette smoke and smoke-free aerosols.
The list contains constituents that may pose health risks to humans – which is why our products are specifically designed to reduce them at the lowest possible levels. Through careful monitoring, we are able to determine whether we can effectively reach our aim of eliminating or substantially reducing these constituents.
Besides targeting known constituents, we also perform analyses to identify constituents that may emerge via the evolution of our products. Our scientists have had to overcome analytical challenges to identify and quantify these constituents, due to their chemical diversity.
[2] Harmful and Potentially Harmful Constituents in Tobacco Products and Tobacco Smoke; Established List
[3] Tobacco Reporting Regulations (SOR/2000-273)
WHO Study Group on Tobacco Product Regulation Report on the Scientific Basis of Tobacco Product Regulation
WHO Technical Report Series, no. 951 ISBN: 978 92 4 120951 9 2008
Harmful and Potentially Harmful Constituents in Tobacco Products and Tobacco Smoke; Established List
Federal Register Harmful and Potentially Harmful Constituents in Tobacco Products and Tobacco Smoke; Established List A Notice by the Food and Drug Administration on 04/03/2012
Tobacco Reporting Regulations (SOR/2000-273)
Minister of Justice Canada Tobacco Reporting Regulations SOR/2000-273 2016
Droplets need to be smaller than 2.5 micrometers to be respirable.
Indoor Air Quality
Smoke-free products are also designed to reduce the number of chemicals released into a given space, as compared with the quantities released by cigarette smoke.
Products in the lab and products in real life
Stability and Robustness
What happens when our products leave the lab? They can stay in storage for a certain period of time and be exposed to large variations in humidity and temperature conditions, and careful thought is given to these parameters.
We also take into account that different people have different puffing behaviors, and that these behaviors may be very different from the conditions that we simulate in the laboratory unless we make sure to use a variety of puffing regimes.
Therefore, to ensure that our measurements hold true in real-life conditions, we test our products in a range of conditions that resemble probable scenarios. We use these results to continuously improve the design of the platforms. This ensures that when the products are used in real life, the composition of the aerosol will remain within defined and understood parameters.
Developing robust products is only the first step towards a smoke-free future. Toxicity tests, clinical studies and consumer acceptance all provide valuable information that is continuously fed back into our design to achieve our ultimate goal of being able to positively impact population health.
Our Findings
Read our findings with relevance to this topic