Arterial blood gases, abbreviated as ABGs, are a series of blood measurements that are ordered as a single test. This test is used mainly to check lung function and acid and alkali levels in the body.
Any time there is a question about breathing problems, oxygen and carbon dioxide exchange, or acid and alkali levels in the body, this test can be helpful. Examples include: people with shortness of breath due to lung problemspeople with rapid breathing due to heart or blood conditionspeople who are unconsciouspeople who are suspected of having too much or too little acid in the body, such as someone with kidney failurepeople on artificial breathing machines called ventilators. ABGs are done regularly to assure that the machine settings are correct for the person's condition.
A blood sample from an artery is needed to do this test. In most cases, an artery on the palm side of the wrist is used to get the blood. Sometimes, an artery in the groin or other area may be used. The skin over the artery is cleaned first.
Next, a small needle is inserted through the skin and into the artery. The needle is usually hooked up to a syringe lubricated with a small amount of anticoagulant such as heparin. Blood flows into the syringe once the needle is put into the artery.
Firm pressure is applied over the area for a few minutes after the blood is collected to prevent bleeding. Extreme care is taken not to let a bubble of air into the artery, because a bubble could travel to the brain and cause a stroke - a complication not possible with a blood draw from a vein.
The blood is then sent to the lab for analysis.
Most of the time, there is no preparation needed for this test. A healthcare professional will give any instructions if needed.
There are several values that are measured in an ABG. Each of the values has a set range that is considered to be within healthy limits. If any of the main values becomes severely abnormal, the person may die.
The pH is an important part of this test. This is a measure of the level of acid in the blood. Acid levels may be too high with: kidney failure or damagecertain cases of uncontrolled diabetesexposure to certain toxic substances, such as a drug overdoseshock, which may occur from heart failure, serious infections, or massive blood or fluid lossdifficulty breathing, such as in the case of lung infections, asthma, emphysema, or not breathing fast enoughcertain medicines
Acid levels may be too low from: dehydrationcertain types of kidney problemsbreathing too fast, such as when a person has a panic disorderexcessive vomitingsalt imbalances, which may result from a hormone problem in the bodycertain medicines
If the pH is abnormal, the other parts of the test can help find out the reason. For example, if the acid level in the body is too high, it could be from breathing or metabolism problems. It is crucial to know what is causing the high acid level so that the best treatment can be chosen. If the acid level is too high because of a breathing problem, the person may need extra oxygen or even a ventilator. If the acid level is too high from metabolism problems, a person may need to be hooked up to a blood-filtering machine or may need antibiotics or other medicines.
Oxygen and Carbon Dioxide Levels
Other parts of the test are the oxygen and carbon dioxide levels in the blood. The job of the lungs is to take in oxygen and get rid of carbon dioxide. If some type of breathing or respiratory problem is present, these values will be abnormal. The oxygen level can also be used to check if a person is getting enough oxygen or whether they need extra oxygen.
The level of bicarbonate (alkali) in the blood is calculated by the laboratory equipment from the pH and carbon dioxide levels. This level indicates if there is a metabolism problem. The healthcare professional must look at the pH, breathing, and metabolic parts of the test as a whole. This allows him or her to sort out different medical conditions that the person may have.