Inhalation exposure
Encyclopedia
Inhalation is a major route of exposure that occurs when an individual breathes in polluted air which enters the respiratory tract. Identification of the pollutant uptake by the respiratory system can determine how the resulting exposure contributes to the dose
. In this way, the mechanism of pollutant uptake by the respiratory system can be used to predict potential health impacts within the human population.
Intake dose is the mass of the pollutant that crosses the contact boundary and is inhaled by the individual. Some of this pollutant is exhaled, and the fraction that is absorbed by the respiratory system is known as the absorbed dose
. A portion of the pollutant may also be expelled by sneezing, coughing, spitting, or swallowing. The remaining pollutant that is transported through the liquid layer, making contact with the respiratory tract tissues is the fraction of bioavailability
, called the effective dose
.
Estimates of the resistance for gas mucus and tissue in the terminal bronchioles for , , and CO show that has the quickest uptake due to its high aqueous solubility and very low resistance of mucus and tissue layers. Ozone and CO, have lower aqueous solubilities and higher resistance to mass transfer. Ozone is the most reactive, reducing mass transfer into tissue and blood. CO has the slowest uptake and the highest resistance into the terminal bronchioles.
causes the random collision of gas molecules against the particle, until the particle goes into the respiratory tract.
Prediction of the location of particle deposition into the respiratory tract depends on the size and type of particle. Coarse particles, originating from natural sources such as dust, sand and gravel, tend to deposit in the nasal-pharyngeal region. Fine particles, derived from anthropogenic sources such as fossil fuels and smoking, typically deposit in the pulmonary region. Most gas exchange occurs in the pulmonary region due to the alveoli, which contain a large surface area.
have the ability to become permanently enlodged into the alveoli causing cancer in some cases.
Soluble particulate matter can be highly detrimental to the respirator tract because of their ability to dissolve into the mucus or surfactant layer. This can irritate tissues by changing pH, and transport into the rest of the body or gastrointestinal tract. Insoluble PM, such as lead particles, deposit in the nasal-pharyngeal region and can be cleared by blowing, sniffling, or spitting. However, swallowing can cause the particles to deposit into th GI tract. Particles in the tracheobronchial region can be cleared by the cilia, which will move particles into the mucus. Insoluble particles that enter the pulmonary region cause swelling of the alveoli, coughing, and shortness of breath.
A baseline level of carboxyhemoglobin
, (COHb) is contained in the blood due to small quantities of CO as a by-product in the body. The total amount of COHb present within the body is equivalent to the COHb baseline level in addition to the COHb exogenous level.
[COHb] total = [COHb] bas + [COHb] exo
Dose (biochemistry)
A dose is a quantity of something that may impact an organism biologically; the greater the quantity, the larger the dose. In nutrition, the term is usually applied to how much of a specific nutrient is in a person's diet or in a particular food, meal, or dietary supplement...
. In this way, the mechanism of pollutant uptake by the respiratory system can be used to predict potential health impacts within the human population.
Definition
Inhalation exposure is the concentration of the airborne pollutant in the air at the mouth and nose boundary. An assumption is that this concentration is inhaled by the person. The contact boundary, a particular nasal or oral region, is selected by the analyst.Intake dose is the mass of the pollutant that crosses the contact boundary and is inhaled by the individual. Some of this pollutant is exhaled, and the fraction that is absorbed by the respiratory system is known as the absorbed dose
Absorbed dose
Absorbed dose is a measure of the energy deposited in a medium by ionizing radiation per unit mass...
. A portion of the pollutant may also be expelled by sneezing, coughing, spitting, or swallowing. The remaining pollutant that is transported through the liquid layer, making contact with the respiratory tract tissues is the fraction of bioavailability
Bioavailability
In pharmacology, bioavailability is a subcategory of absorption and is used to describe the fraction of an administered dose of unchanged drug that reaches the systemic circulation, one of the principal pharmacokinetic properties of drugs. By definition, when a medication is administered...
, called the effective dose
Effective dose
Effective dose may refer to:*Effective dose the dose of pharmacologic agent which will have a therapeutic effect in some fraction of the population receiving the drug...
.
Major Pollutants of Concern
In 1970, the Clean Air Act Amendments set six criteria air pollutants which are updated periodically by the National Air Quality Standards (NAAQS) and the U.S Environmental Protection Agency (USEPA). The six criteria pollutants were identified based on scientific knowledge of health effects caused by the pollutants. The six criteria are the following: particulate matter (PM), nitrogen oxide , ozone , sulfur dioxide , carbon monoxide (CO), and nonmethane hydrocarbons (NHMC). Particulate matter (PM) is divided into two sizes, PM10 which is called inhalable PM, and PM2.5, which is called fine PM.Uptake of Gaseous Pollutants
The diffusion of from the air in the lungs to the bloodstream, and diffusion of from the bloodstream back out to the lungs is an essential part of human respiration. The absorption and diffusion of gases is a bidirectional process. Once the gases are absorbed into the mucus or surfactant layer , the dissolved gases can desorb back to the air in the lungs. Gases may diffuse in either direction depending on the concentration gradient between the two layers. Gases may react chemically during transport into the bloodstream.Estimates of the resistance for gas mucus and tissue in the terminal bronchioles for , , and CO show that has the quickest uptake due to its high aqueous solubility and very low resistance of mucus and tissue layers. Ozone and CO, have lower aqueous solubilities and higher resistance to mass transfer. Ozone is the most reactive, reducing mass transfer into tissue and blood. CO has the slowest uptake and the highest resistance into the terminal bronchioles.
Estimates of Resistances (10^10 m^2 Pa sec mol^-1) in the Terminal Bronchioles | ||||
---|---|---|---|---|
Gas |
Mucus |
Tissue |
Overall |
|
0.05 | 0.00015 | 0.0011 | 0.05 | |
0.071 | 16.95 | 120.5 | 137.0 | |
0.077 | 0.91 | 0.20 | 1.19 |
Uptake of Particulate Pollutants
The deposition of particulate pollutants into the lungs is necessary before the particles can travel through the mucus into the lung tissue. There are four mechanisms of deposition: interception, impaction, gravitational settling, and Brownian diffusion. Interception happens when a particle is removed after brushing up against an obstacle. Impaction happens when the particle collides into the surface of the respiratory tract due to the high inertia. Gravitational settling is influenced by the force of gravity which causes the particle to settle on the respiratory tract. Brownian motionBrownian motion
Brownian motion or pedesis is the presumably random drifting of particles suspended in a fluid or the mathematical model used to describe such random movements, which is often called a particle theory.The mathematical model of Brownian motion has several real-world applications...
causes the random collision of gas molecules against the particle, until the particle goes into the respiratory tract.
Prediction of the location of particle deposition into the respiratory tract depends on the size and type of particle. Coarse particles, originating from natural sources such as dust, sand and gravel, tend to deposit in the nasal-pharyngeal region. Fine particles, derived from anthropogenic sources such as fossil fuels and smoking, typically deposit in the pulmonary region. Most gas exchange occurs in the pulmonary region due to the alveoli, which contain a large surface area.
Health Impacts of Particulate Pollutants
Scientists have identified a positive correlation between particulate matter concentrations being the causative factor of respiratory and cardiovascular disease. Particulate matter may also be responsible for as many as 20,000 deaths annually, and exacerbation of asthma. Quantification of dose, determining total number of particles deposited in the pulmonary region, surface area of particles, acidity of particles, and shape are important in determining health impacts. A larger surface area will cause more toxins to be available for absorption into the mucus. Particles such as asbestosAsbestos
Asbestos is a set of six naturally occurring silicate minerals used commercially for their desirable physical properties. They all have in common their eponymous, asbestiform habit: long, thin fibrous crystals...
have the ability to become permanently enlodged into the alveoli causing cancer in some cases.
Soluble particulate matter can be highly detrimental to the respirator tract because of their ability to dissolve into the mucus or surfactant layer. This can irritate tissues by changing pH, and transport into the rest of the body or gastrointestinal tract. Insoluble PM, such as lead particles, deposit in the nasal-pharyngeal region and can be cleared by blowing, sniffling, or spitting. However, swallowing can cause the particles to deposit into th GI tract. Particles in the tracheobronchial region can be cleared by the cilia, which will move particles into the mucus. Insoluble particles that enter the pulmonary region cause swelling of the alveoli, coughing, and shortness of breath.
Uptake of Carbon Monoxide
Carbon monoxide is a relatively nonreactive gas with limited solubility. High CO levels build up in the pulmonary region over several hours, and equilibrate with inhaled CO concentrations. Exposure to carbon monoxide is dangerous because of its toxic, odorless nature. Since the gas takes time to build up in the pulmonary region, an inhaled concentration of 600 ppm would cause a headache and reduce mental capacity within an hour, without any other symptoms. Eventually, the substance would induce a coma. Equilibrium of CO in the blood is reached between 6–8 hours of exposure to constant concentration in the air.A baseline level of carboxyhemoglobin
Carboxyhemoglobin
Carboxyhemoglobin is a stable complex of carbon monoxide and hemoglobin that forms in red blood cells when carbon monoxide is inhaled or produced in normal metabolism. Large quantities of it hinder delivery of oxygen to the body...
, (COHb) is contained in the blood due to small quantities of CO as a by-product in the body. The total amount of COHb present within the body is equivalent to the COHb baseline level in addition to the COHb exogenous level.
[COHb] total = [COHb] bas + [COHb] exo