In a normal person the respiratory drive is controlled by the central chemoreceptors in the hypothalmous. These receptors are sensitive to changes in pH. CO2 effects pH by the hasselbach equation:
H+HCO3 = CO2+H2O
So basically the more CO2 your body has on bord the lower the pH is and the more stimmulation there is to the central chemoreceptors causing a desire to breath and blow off that CO2. In emphasima patients their Co2 is so chronically high their respiration is driven by their peripheral chemoreceptors that are sensitve to O2 levels in the blood not pH. This is why one needs to be very careful when giving oxygen to emphasima patients. If the O2 level of their blood is too high there would be no stimulation to breath and they could stop breathing.
Many gases are released by Stratoolcanoes, including Sulphur Dioxide (which harms the Ozone layer and cause acid rain), Carbon Dioxide (which causes a natural "Greenhouse effect"*) , hydrogen chloride (which effects animals eyes and respiratory system causing them to irritate and can cause effects on human beings.) Thank you very much for reading, Fumfig.
Breathing in saturated air can lead to increased moisture in the lungs, making it harder for the body to exchange oxygen and carbon dioxide. This can result in difficulty breathing, coughing, and potential respiratory issues.
When fuels such as coal and gas are burned, they release carbon dioxide, sulfur dioxide, and nitrogen oxides into the atmosphere, contributing to air pollution and greenhouse gas emissions. These emissions can have detrimental effects on human health and the environment, including climate change and respiratory issues.
Nitrogen dioxide is a major air pollutant that can contribute to respiratory problems such as asthma and bronchitis. Additionally, it can react with other air pollutants to form smog and acid rain, which can have harmful effects on human health and the environment. Long-term exposure to nitrogen dioxide has been linked to decreased lung function and increased risk of respiratory infections.
Some medications can lead to increased carbon dioxide production in the body as a side effect, particularly those that affect metabolism or respiratory function. For example, certain drugs may influence the body's acid-base balance or respiratory drive, potentially leading to elevated carbon dioxide levels. However, pills themselves do not produce carbon dioxide; rather, they can affect the body’s physiological processes that regulate gas exchange and metabolism. Always consult a healthcare professional for specific concerns related to medications and their effects on respiratory health.
Sulfur dioxide can irritate the respiratory tract, causing symptoms like coughing, wheezing, and shortness of breath. Prolonged exposure to high levels of sulfur dioxide can worsen respiratory conditions such as asthma and increase the risk of respiratory infections. Inhaling sulfur dioxide can also react with moisture in the lungs to form sulfuric acid, leading to more severe respiratory issues.
Effects of increased no of domestic airlines
Side effects of sulfur dioxide exposure can include irritation of the eyes, nose, and throat, coughing, and shortness of breath. Allergic reactions to sulfur dioxide are rare but can manifest as hives, difficulty breathing, and swelling of the face, lips, or throat. Individuals with asthma or other respiratory conditions may be more sensitive to sulfur dioxide and experience more severe symptoms when exposed.
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Yes you can. But do not overdo it on the dose.Beware that central nervous system- and/or respiratory-depressant effects may be additively or synergistically increased in patients taking multiple drugs that cause these effects, especially in elderly or debilitated patients.
Yes, sulfur dioxide is a common air pollutant that can be found in the atmosphere. It is primarily released into the air through industrial processes, burning of fossil fuels, and volcanic eruptions. Sulfur dioxide can have harmful effects on human health and the environment, contributing to respiratory issues and acid rain.
Some harmful gases include carbon monoxide (CO) which can lead to poisoning and decreased oxygen transport in the body, sulfur dioxide (SO2) which can cause respiratory issues and contribute to acid rain, and nitrogen dioxide (NO2) which can worsen respiratory conditions and contribute to smog formation. These gases can have negative impacts on human health and the environment.