Spirometers are a very useful tool for a doctor to diagnose breathing conditions such as chronic obstructive disease (COPD) and lung capacity in general for those who present symptoms of concern. They are a great diagnostic tool for those who are currently under treatment for lung conditions to see if the treatment is effective. It measures the flow of air going in and out of the lungs and how fast it is moving.
If a doctor suspects symptoms are caused by such conditions as pulmonary fibrosis, emphysema, chronic bronchitis, COPD, or asthma, a test may be ordered. For those who have been diagnosed with one of these conditions, this test can be used to see how effective medication is working and to make sure symptoms are under control.
Before the test is performed, patients who are on inhalant or other medications should skip using them during testing. Avoid eating a large meal so as to make breathing easier and wear loose clothing so that breathing will be unconstricted.
When taking the test a soft clip will be placed on the nostrils to keep them closed and filtered mouthpieces may be used to prevent the spread of germs. The patient will then take a deep breath and breathe out as hard as possible for a few seconds into a tube that is attached to the spirometer. Dizziness or shortness of breath may be felt shortly after doing this. The test may need to be repeated up to three times to get consistent and accurate readings.
If inhaled medications are administered after the initial test to keep the lungs open, one should wait at least 15 minutes before taking another test. Comparison can then be made between the two tests to see if the medication improved airflow. Each test takes less than 15 minutes to do. The measurements include the largest amount of air that can be exhaled, called forced vital capacity (FVC), and another reading shows how much air can be exhaled in one second, known as forced expiratory volume (FEV-1).
This test is often used to detect respiratory disease in patients who exhibit symptoms of shortness of breath, to diagnose and manage asthma, and to differentiate between cardiac disease and respiratory conditions. It is used to measure the efficacy of treatment in conditions previously detected, to diagnose vocal cord dysfunction, identify the risk of pulmonary barotrauma in scuba divers, access the damage from occupational asthma, differentiate between restrictive and obstructive lung disease, and to measure bronchial responsiveness.
Patient cooperation is required for accurate results, it can be used on children who understand the instructions of what they need to do which is usually the age of 6 or older. It is not a test that can be done on patients who are unable to understand the instructions, are unconscious, have limitation of respiratory efforts, or are heavily sedated.
Spirometers can be a part of bronchial challenge testing, to check hyper-responsiveness to either inhalation of dry or cold air, during rigorous exercise, or the use of a medication such as a histamine or a methacholine agent. Other lung function testing can include a nitrogen washout or a plethysmography.
If a doctor suspects symptoms are caused by such conditions as pulmonary fibrosis, emphysema, chronic bronchitis, COPD, or asthma, a test may be ordered. For those who have been diagnosed with one of these conditions, this test can be used to see how effective medication is working and to make sure symptoms are under control.
Before the test is performed, patients who are on inhalant or other medications should skip using them during testing. Avoid eating a large meal so as to make breathing easier and wear loose clothing so that breathing will be unconstricted.
When taking the test a soft clip will be placed on the nostrils to keep them closed and filtered mouthpieces may be used to prevent the spread of germs. The patient will then take a deep breath and breathe out as hard as possible for a few seconds into a tube that is attached to the spirometer. Dizziness or shortness of breath may be felt shortly after doing this. The test may need to be repeated up to three times to get consistent and accurate readings.
If inhaled medications are administered after the initial test to keep the lungs open, one should wait at least 15 minutes before taking another test. Comparison can then be made between the two tests to see if the medication improved airflow. Each test takes less than 15 minutes to do. The measurements include the largest amount of air that can be exhaled, called forced vital capacity (FVC), and another reading shows how much air can be exhaled in one second, known as forced expiratory volume (FEV-1).
This test is often used to detect respiratory disease in patients who exhibit symptoms of shortness of breath, to diagnose and manage asthma, and to differentiate between cardiac disease and respiratory conditions. It is used to measure the efficacy of treatment in conditions previously detected, to diagnose vocal cord dysfunction, identify the risk of pulmonary barotrauma in scuba divers, access the damage from occupational asthma, differentiate between restrictive and obstructive lung disease, and to measure bronchial responsiveness.
Patient cooperation is required for accurate results, it can be used on children who understand the instructions of what they need to do which is usually the age of 6 or older. It is not a test that can be done on patients who are unable to understand the instructions, are unconscious, have limitation of respiratory efforts, or are heavily sedated.
Spirometers can be a part of bronchial challenge testing, to check hyper-responsiveness to either inhalation of dry or cold air, during rigorous exercise, or the use of a medication such as a histamine or a methacholine agent. Other lung function testing can include a nitrogen washout or a plethysmography.
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