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General Information on Environmental Tobacco Smoke (ETS) and its Health Effects

General Information on Environmental Tobacco Smoke (ETS) and its Health Effects
"""ETS stands for Environmental Tobacco Smoke.

Environmental tobacco smoke (ETS) is the term used to describe exposure to tobacco smoke that didn't come from your own use of cigarettes, cigars, or pipes, but rather from being around it. The substance in indoor air that comes from tobacco smoking is known as ETS. ETS is also referred to as second-hand smoke, involuntary smoking, or passive smoking.

What details are included in this document?

The fundamental questions of what ambient tobacco smoke is and how passive smoking affects health will be covered in this document. The topic of secondhand inhalation of e-cigarette vapours will also be explored. Where feasible, instances of workplace exposure are used. Please refer to the OSH Answers publication Environmental Tobacco Smoke: Workplace Policy for details on policies and initiatives pertaining to the workplace.

What does tobacco smoke consist of in general?

Gases and solid particles make up tobacco smoke. In tobacco smoke, more than 7,000 distinct compounds have been found. There are reportedly roughly 70 of these compounds that have been linked to cancer in either people, animals, or both. Around 10% of tobacco smoke is made up of solid particles, including nicotine and ""tar."" About 90% of tobacco smoke is made up of gases or vapours. Carbon monoxide is the predominant gas in the area. Others are acrylonitrile, hydrogen cyanide, vinyl chloride, acrolein, ammonia, nitrogen oxides, pyridine, hydrogen cyanide, and nitrosodimethylamine. Formaldehyde, N-nitrosodimethylamine, and vinyl chloride are among those that are known or probable human carcinogens. Animal studies have demonstrated that acrylonitrile can cause cancer.

What does the vapour from electronic cigarettes (or ""e-cigarettes"") often consist of?

The most popular non-tobacco nicotine (NTN) delivery method is the e-cigarette, which consists of a device with a heating element that atomizes a mixture of water, nicotine, propylene glycol, vegetable glycerin, and typically some flavoring. The nicotine-containing gadgets have improved over time and now dispense nicotine more efficiently. The method and frequency of puffing (vaping) have an impact on how much nicotine is delivered to the user. E-cigarettes emit fewer of the toxins contained in tobacco smoke than conventional cigarettes do. Especially in relation to nicotine concentration, the concentration of propylene glycol, glycerine, and flavoring in solution (e-liquid) can vary greatly. The e-cigarette liquid might not contain any nicotine. The selling of electronic cigarettes with nicotine has not been authorized in Canada. Although at far lower concentrations than in cigarette smoke, the vapour produced by e-cigarettes contains potentially dangerous substances like volatile organic compounds, aldehydes, tobacco-specific nitrosamines (TSNAs), carbonyls, and metal particles. Formaldehyde and other aldehydes can be produced at significantly higher amounts during high-temperature vaporization. Because e-cigarettes have only been around since roughly 2003, it is less known how long-term deleterious effects on users and from passive exposure to e-cigarette vapour compare to those from ETS. Device, e-liquid ingredients, and vaping method all affect passive exposure in different ways. According to one study, nicotine from exhaled vapour can be left behind on objects, although at such low concentrations that it is highly improbable that it could cause harm if it were to enter the body.

What do ""mainstream"" and ""sidestream"" smoke mean?

Mainstream smoke is the smoke that a smoker inhales and subsequently exhales from their lungs (MS). The smoke that emanates directly from the burning end of a cigarette, cigar, or pipe is referred to as sidestream smoke (SS). Typically, the smoking end of a cigarette does not get hot enough for the tobacco to completely burn. Undiluted sidestream smoke has larger quantities of numerous compounds than the mainstream smoke that the smoker inhales because some chemicals are favored by this incomplete burning. These substances include carbon monoxide, 4-aminobiphenyl, N-nitrosodimethylamine, and 2-naphthylamine. Mainstream and sidestream smoke both make up environmental tobacco smoke (ETS). ETS is less concentrated than mainstream or sidestream smoke because it is diluted by the air in the room before it is inhaled. Because sidestream smoke makes up almost 85% of the ETS in a room, everyone in it, smokers and non-smokers alike, will be exposed to it similarly. Additionally, the smoker is exposed to ambient smoke, but only for as long as it takes to smoke a cigarette. However, throughout the entire time spent in that environment, exposure to ETS is constant. Vaping does not generate sidestream vapour between puffs although some mainstream vapour is emitted when an e-cigarette user exhales.

Can one measure one's exposure to ETS?

It is hard to measure the exposure of a passive smoker to environmental tobacco smoke. The exposure varies according to the type and number of cigarettes or other tobacco products burned, the number of smokers present, the rate and manner of smoking, the room volume, the room ventilation rate, and the percentage of fresh (or makeup) air supplied. Exposure to ETS has been estimated in terms of """"cigarette equivalents"""". Cigarette equivalents can be measured by determining carboxyhemoglobin levels in blood. Carboxyhemoglobin is formed in the blood when someone inhales carbon monoxide. The hemoglobin in the blood that has oxygen bound to it is called oxyhemoglobin. It is the oxyhemoglobin that carries oxygen to the tissues. However, carbon monoxide has a much stronger attraction to hemoglobin than oxygen. Thus, inhaled carbon monoxide quickly replaces the oxygen in the oxyhemoglobin and binds to the hemoglobin to form carboxyhemoglobin which can be measured. Some studies use a urine test that measures the amount of cotinine in the body. Most of the nicotine absorbed by the body is broken down (metabolized) rapidly to form cotinine as the major by-product (metabolite). Cotinine stays in the blood about 30 hours and reaches high concentrations in blood and urine. Other studies can test for the level of nicotine in hair. Hair nicotine levels are a more accurate biomarker than urine cotinine.

Briefly, what would some """"exposure equivalents"""" be?

Various studies suggest that passive exposure to ETS over an eight-hour day is comparable to directly smoking one to three cigarettes. Such estimates depend greatly on the particular tobacco smoke contaminant chosen for the active/passive smoking comparisons. For example, it is thought that someone exposed to ETS will breathe in the same amount of the following contaminants as if they actively smoked one cigarette: same amount of carbon monoxide in one or two hours, same number of smoke particles in eleven hours, same amount of acrolein in seven hours, and same amounts of nicotine and hydrogen cyanide in fifty hours.

What should I know about the research into the health effects of ETS?

There is a consistent finding of a relative risk* greater than 1.0 for non-smokers who are exposed to ETS. This finding shows that there is an association between certain diseases and exposure to ETS. While no single study can say that there is a 100% chance of health problems as a result of exposure to ETS, an association between ETS and various health conditions is considered very likely because there is: the proven link between heart diseases and lung cancer to active smoking, the presence of several known carcinogens in environmental tobacco smoke, and the general acceptance that the risks of certain diseases are directly related to the amount of tobacco smoke inhaled. * Briefly, a relative risk of 3.0 or greater would indicate a very positive association (what could be reasonably termed a """"cause"""" of the disease) while a relative risk of 1.0 is considered neutral. In more general terms, a risk of 1.3 translates into about seven excess deaths in 1000 persons over a lifetime, or an extra 30% chance of developing the disease.

What are the health effects from exposure to ETS?

Lung Cancer

When evidence from various studies is combined, they indicate that exposure to ETS increases the number of lung cancers detected in non-smokers. Non-smoking co-workers of smokers have a relative risk of approximately 1.39. Cancers Other than Lung Cancer Traditionally, studies focused on finding the effects of ETS on the respiratory system. More recently, studies show that exposure to ETS may increase the risk of cancer at sites other than the lung. While there have been fewer studies conducted, associations have been found with cancers such as cervical, bladder, nasal-sinus, and brain. In addition to the cancers mentioned for passive smokers, studies of active smokers have also recorded a risk of cancer to: the renal pelvis (part of the ureter that receives urine from the kidney), the adrenal glands (renal adenocarcinoma), parts of the mouth and throat such as the lip, oropharynx (the back of the mouth), larynx (voice box), and hypopharynx (area below the pharynx or throat), the esophagus (tube from the pharynx to the stomach), stomach, liver, bladder, and pancreatic cancers. In addition, animal studies have seen cancers of the liver, pancreas, and aerodigestive tract (head and neck, esophagus, and lungs). Heart Disease It is known that active smoking is a cause of heart disease. Some studies have found an association between ETS exposure and an increase of heart disease among persons who never smoked. Among non-smokers exposed to ETS, there is an estimated 20 to 30% increase (relative risk of 1.2 to 1.3) in the risk of death from myocardial infarctions (heart attacks) or ischemic heart disease (group of diseases caused by inadequate oxygen supply to the heart caused by constricted blood vessels and resulting decreased blood supply). In addition, it was found in experimental studies on the effects of ETS on the heart, that ETS exposure has damaging effects on blood platelets (needed for clotting) and the endothelium (tissues lining the heart, blood vessels, lymph vessels, etc.). Effects on Persons with Pre-Existing Diseases Non-smokers with heart disease (angina pectoris) exposed to ETS in ventilated and unventilated rooms had increased heart rates, elevated blood pressures and increased carbon monoxide in the blood. ETS aggravates allergy symptoms. It is generally more irritating to the respiratory tract of asthmatics and it can aggravate some asthmatic symptoms such as wheezing. Pregnant Workers (Effects on Fetus) While only a limited number of studies have looked at the possibility that exposure to ETS in the workplace may have effects on the fetus, there is some indication that non-smoking women exposed to passive smoke are 2-4 times more likely to have a baby born with a low birth weight (less than 2,500 grams or 5.5 pounds – premature birth or small for their gestational age). Generally speaking, babies with low birth weight have a smaller chance of survival. Other studies have listed effects such as congenital anomalies, longer body lengths, and smaller head circumferences. These babies were also found to have an increased risk of developing asthma and allergy related symptoms and behavioural problems in childhood. Note: The Public Health Agency of Canada defines a congenital anomaly as """"are abnormalities that are present at birth, even if not diagnosed until months or years later. They are usually structural in nature and can be present from the time of conception (e.g., Down syndrome), but largely occur in the embyonic period (up to the end of the seventh week of gestation e.g., spina bifida), or in the early fetal period (eight to sixteenth week). """"From: Congenital Abnormalities in Canada 2013: A Perinatal Health Surveillance Report. Irritant Effects Many of the substances in cigarette smoke are very irritating to the eyes, throat and respiratory mucous membranes. A high proportion of non-smokers report eye irritation, headache, nasal discomfort, cough, sore throat, or sneezing when exposed to cigarette smoke. Eye irritation seems the main symptom during passive exposure to cigarette smoke.

Why is there still some debate about the extent of these health effects?

Sometimes finding answers in scientific studies is not clear cut. When studying ETS, it is often difficult to determine what exact level of smoke a person was exposed to as most studies rely on a person's memory about events that happened a long time ago. In these situations, small increases in risk are hard to detect. However, ETS is considered to increase a person's risk of certain health effects for the following reasons: an elevated risk is seen when all of the studies of ETS are pooled together, the chemicals in ETS and in the mainstream smoke of an active smoker are very similar,it makes biological sense (biological plausibility) that these chemicals will cause the health effects observed, and the evidence that there is a dose-related risk of lung cancer in active smokers.

Does exposure to ETS have other health implications in the workplace?

Yes. While most of the studies have looked at the health effect of active smokers, it has been shown that tobacco smoke can interact with other materials and chemicals in the workplace. Cigarette smoke can: transform existing chemicals into more harmful ones increase exposure to existing toxic chemicals add to the biological effects caused by certain chemicals, and interact synergistically with existing chemicals (the effects will be more than the sum of the effects from the exposure to each chemical or material alone). (Also known as multiplicative effects)

What are examples of smoke interacting with other occupational hazards?

Examples of these situations (as studied with active smokers) is as follows: Occupation Exposure Smoking / Occupation Interaction +: Additive X: Multiplicative X?: Probably Multiplicative Disease Asbestos workers, construction workers and others in contact with asbestos Asbestos + , X Lung cancer Chronic lung disease Aluminum smelter workers Polynuclear aromatic hydrocarbons (PAHs) + or X Bladder cancer Aircraft and mining industry and many others Noise + Loss of hearing and hearing acuity Cement workers Cement dust + Chronic bronchitis Obstructive lung disease Chlorine manufacturing Chlorine + Chronic obstructive lung disease Coal miners Coal dust + Chronic obstructive lung disease Copper smelter workers Sulphur dioxide + Chronic obstructive lung disease Arsenic + or X Lung cancer Grain workers Grain dust + Chronic bronchitis Obstructive lung disease Organic chemicals Carcinogens + or X Cancer of various organs and tissues Rock cutters Foundry workers Silica dust + Chronic obstructive lung disease Textile workers Cotton, hemp, flax, dust X? Acute airway obstruction (byssinosis) Chronic bronchitis Uranium miners and many other workers in radioactive environments Alpha radiation (Radon) X? Lung cancer Welders Irritant gases, metal fumes, dusts, (Radon) + Chronic bronchitis Obstructive lung disease Source: Smoking Control in the Workplace. J. Rudnick. In Encyclopaedia of Occupational Health and Safety. 4th edition. Geneva: International Labour Office, 1998. page 15.37

What is third-hand smoke?

Third hand smoke is cigarette smoke particles that become re-suspended in air after being on the furniture or clothes. For example, when smoking indoors, smoke particles can become adsorbed into indoor surfaces such as clothes, curtains, carpets or cushions and remain on these surfaces even after the room has been ventilated. One study found ETS exposure in women whose husbands smoke outside the house to be similar with those women whose husbands smoke inside the house. This finding implies that cigarette smoke that becomes adsorbed onto the clothing of smokers (third hand smoke) pose a similar risk to second hand smoke. Smoker’s breath may also contribute to third hand smoke. A relatively high level of benzene can be detected in the breath of a smoker immediately after smoking. Currently, little is known about what chemicals contribute to third hand smoke, and whether third hand smoke poses a health risk and to what extent."""
 

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"General Information on Environmental Tobacco Smoke (ETS) and its Health Effects" was written by Mary under the Health category. It has been read 23 times and generated 0 comments. The article was created on and updated on 23 November 2022.
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