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Diagnostic Tests for COPD

Diagnostic tests for COPD:

A diagnosis of COPD is made only after a complete evaluation, and history and physical is done by a health care professional. This will help to determine the type and severity of COPD you have and the most appropriate and effective treatment plan for you. An important question your health care provider will ask is how much you have smoked in your lifetime and your exposure to lung irritants. It is very important to answer these questions as accurately as possible.

Diagnostic testing can include lung function tests, such as a spirometry, which measures how much air you are able to move in and out of your lungs. This easy, painless, and noninvasive breathing test is often done regularly to monitor how well treatments are working. A chest X-ray and CT scan of the chest may be done, which can evaluate a number of factors, including the presence of other conditions that may occur with or exacerbate (worsen) COPD, such as pneumonia and congestive heart failure. An arterial blood gas test, is a sample of blood taken from an artery with a needle that measures many parameters of effective breathing, including the oxygen level in your blood.

COPD: Diagnostic Tests

The list of diagnostic tests mentioned in various sources as used in the diagnosis of COPD includes:

Home Diagnostic Testing

These home medical tests may be relevant to COPD:

Tests and diagnosis discussion for COPD:

COPD Detection: NHLBI (Excerpt)

None of the current ways used to diagnose COPD detects the disease before irreversible lung damage occurs. While many measures of lung function have been developed, those most commonly used determine: 1) air-containing volume of the lung (lung volume), 2) the ability to move air into and out of the lung, 3) the rate at which gases diffuse between the lung and blood, and 4) blood levels of oxygen and carbon dioxide.

Lung volumes are measured by breathing into and out of a device called a spirometer. Some types of spirometers are very simple mechanical devices which record volume changes as air is added to or removed from them. Other kinds are more sophisticated and use various types of electronic equipment to determine and record the volume of air moved into and out of the lungs. The three volume measures most relevant to COPD are forced vital capacity (FVC), residual volume (RV), and total lung capacity (TLC). The forced vital capacity is the maximum volume of air which can be forcibly expelled after inhaling as deeply as possible. Not all of the air in the lungs is removed when measuring the vital capacity. The amount remaining is called the residual volume. The total lung capacity is the combination of the forced vital capacity and residual volume. While most of the measured lung volumes or capacities change to some degree with COPD, residual volume usually increases quite markedly. This increase is the result of the weakened airways collapsing before all the normally expired air can leave the lungs. The increased residual volume makes breathing even more difficult and labored. (Source: excerpt from COPD Detection: NHLBI)

COPD Detection: NHLBI (Excerpt)

Because COPD results in narrowed air passages, a measure of the rate at which air can be expelled from the lungs can also be used to determine how severe the narrowing has become. In this test, the forced vital capacity maneuver, the patient is asked to inhale as deeply as possible, and on signal, exhale as completely and as rapidly as possible. The volume of air exhaled within 1 second is then measured. This value is referred to as the forced expiratory volume in 1 second (FEV1). When FEV1 is used as an indicator of lung function, the average rate of decline in patients with chronic obstructive lung disease is observed to be two to three times the normal rate of 20-30 milliliters per year. This volume may also be expressed in terms of the percent of the vital capacity which can be expelled in 1 second. As COPD progresses, less air can be expelled in 1 second. A greater than expected annual fall in FEV1 is the most sensitive test for COPD and a fairly good predictor of disability and early death.

Another measure of lung function is called diffusing capacity. For this, a more complicated test determines the amount of gas which can move in a given period of time from the alveolar side of the lung into the blood. A number of conditions can cause the diffusing capacity to decrease. However, in COPD the decrease is the result of the destruction of alveolar walls which leads to a significant decrease in surface area for diffusion of oxygen into the blood.

Because the primary function of the lung is to remove carbon dioxide from the blood and add oxygen, another indicator of pulmonary function is the blood levels of oxygen and carbon dioxide. As chronic obstructive pulmonary disease progresses, the amount of oxygen in the blood decreases and carbon dioxide increases.

In most cases, it is necessary to compare the results of several different tests in order to make the correct diagnosis, and to repeat some tests at intervals to determine the rate of disease progression or improvement. Measurement of FEV1 and FEV1/FVC ratio should be a routine part of the physical examination of every COPD patient. It is hoped that current research will result in more accurate and earlier measures for detecting lung destruction and diminished function. (Source: excerpt from COPD Detection: NHLBI)

Diagnosis of COPD: medical news summaries:

The following medical news items are relevant to diagnosis of COPD:


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