Purpose of Test
An ABG test assessing PaCO2 is useful for getting a glimpse of the body’s metabolic and respiratory state. It helps evaluate lung function and the effectiveness of oxygen therapy, and can determine the body’s pH or acid-base balance.
Every time you inhale, oxygen is brought into your lungs and delivered to the alveoli. This is where the transfer of oxygen into and the removal of carbon dioxide from the blood occurs.
If the partial pressure of both oxygen and carbon dioxide are normal, the molecules will move from the alveoli into the blood and back as they should. Changes in that pressure can result in too little oxygen or the accumulation of too much carbon dioxide in the blood. Neither is considered optimal.
Having too much carbon dioxide is called hypercapnia, a condition common in people with late-stage chronic obstructive pulmonary disease (COPD).
In contrast, too little CO2 can lead to alkalosis, a condition where you have too many bases in your blood (CO2 is an acid).
Risks and Contraindications
An ABG test is a standard blood draw usually performed on the radial artery in the wrist, the femoral artery in the groin, or the brachial artery in the arm. It is generally an uncomplicated procedure but can be painful given that arteries are located deeper in the body than veins. Swelling and bruising can sometimes occur.
Additional risks are rare but may include:
Feeling lightheaded or fainting after the blood drawBlood buildup under the skin (hematoma)Excessive bleeding
Considerations
If you have recently been on supplemental oxygen, your oxygen levels must remain consistent for 20 minutes before taking the test.
Be sure to tell your healthcare provider if you’ve been taking blood thinners (anticoagulants) such as warfarin or aspirin.
Interpreting Results
The normal range of partial pressure of carbon dioxide is between 35 and 45 millimeters of mercury (mmHg). If the value is higher than 45 mmHg, it’s indicative that you have too much carbon dioxide in your blood. Under 35 mmHg, and you have too little.
Elevated CO2 levels are commonly seen in cases of:Diseases causing stiffening of the chest cageDiseases causing neuromuscular weaknessSedative overdose (opioids, benzodiazepines, some anesthetics)Obesity hypoventilationStarvationHypothermiaSevere obstruction of the airway
By contrast, decreased CO2 is frequently seen with:
PainAnxiety/panic disordersFeverBrain inflammation/infectionAspirin overdosePulmonary embolismHigh altitudePregnancyChronic liver diseaseKidney dysfunction or failureSevere diarrheaAnorexia/starvationOveruse of chlorothiazide diuretics (used to reduce stroke and heart attack risk)Diabetic acidosis
Factors Affecting PaCO2
There are a number of factors that can affect blood gas levels. From a broad perspective, changes in atmospheric pressure (such as climbing a mountain, scuba diving, or even sitting in a commercial flight) can exert pressure on the body, which can alter how well or poorly blood moves from the lungs to the capillaries and back.
Diseases can work in the same way, altering the partial pressure that ensures the balanced transfer of CO2 molecules. Several conditions can alter these levels:
Obstructive lung diseases such as COPD and asthma Central nervous system impairment (including head injuries and drug use) Neuromuscular diseases such as amyotrophic lateral sclerosis (ALS) Low concentration of hemoglobin used to transport oxygen and carbon dioxide through the blood
A Word From Verywell
The ABG test is a relatively low-risk method of evaluating your PaCO2, which can be helpful in determining how efficiently your lungs are working. The PaCO2 measurement is just one tool that should be taken into account with other evaluations respective to your condition. Be sure to ask your healthcare provider to help explain the various measures involved in the ABG test and what they mean for you.
