Arterial blood gas
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An arterial blood gas (also called "ABG'S") is a blood test that is performed specifically on arterial blood, to determine the concentrations of carbon dioxide, oxygen and bicarbonate, as well as the pH of the blood.
Its main use is in pulmonology, to determine gas exchange levels in the blood related to lung function, but it is also used in nephrology, and used to evaluate metabolic disorders such as acidosis and alkalosis.
As its name implies, the sample is taken from an artery, which is more uncomfortable and difficult than venipuncture.
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[edit] Extraction and analysis
Arterial blood for blood gas analysis is usually extracted by a phlebotomist, nurse, or respiratory therapist.[1] Blood may be taken from an easily accessible artery (typically the radial artery, but during unusual or emergency situations the brachial or femoral artery may be used), or out of an arterial line.
The syringe is pre-packaged and contains a small amount of heparin, to prevent coagulation or needs to be heparinised, by drawing up a small amount of heparin and squirting it out again. Once the sample is obtained, care is taken to eliminate visible gas bubbles, as these bubbles can dissolve into the sample and cause inaccurate results. The sealed syringe is taken to a blood gas analyzer. If the sample cannot be immediately analyzed, it is chilled in an ice bath in a glass syringe to slow metabolic processes which can cause inaccuracy. Samples drawn in plastic syringes should not be iced and should always be analyzed within 30 minutes.[2]
The machine used for analysis aspirates this blood from the syringe and measures the pH and the partial pressures of oxygen and carbon dioxide. The bicarbonate concentration is also calculated. These results are usually available for interpretation within five minutes.
Standard blood tests can also be performed on arterial blood, such as measuring glucose, lactate, hemoglobins, dys-haemoglobins, bilirubin and electrolytes.
[edit] Reference ranges and interpretation
These are typical reference ranges, although various analysers and laboratories may employ different ranges.
Analyte | Range | Interpretation |
---|---|---|
pH | 7.35 - 7.45 | The pH or H+ indicates if a patient is acidemic (pH < 7.35; H+ >45) or alkalemic (pH > 7.45; H+ < 35). |
H+ | 35 - 45 nmol/l (nM) | See above. |
PO2 | 9.3-13.3 kPa or 80-100 mmHg | A low O2 indicates that the patient is not respiring properly, and is hypoxemic. At a PO2 of less than 60 mm Hg, supplemental oxygen should be administered. At a PO2 of less than 26 mm Hg, the patient is at risk of death and must be oxygenated immediately. |
PCO2 | 4.7-6.0 kPa or 35-45 mmHg | The carbon dioxide and partial pressure (PCO2) indicates a respiratory problem: for a constant metabolic rate, the PCO2 is determined entirely by ventilation.[3] A high PCO2 (respiratory acidosis) indicates underventilation, a low PCO2 (respiratory alkalosis) hyper- or overventilation. PCO2 levels can also become abnormal when the respiratory system is working to compensate for a metabolic issue so as to normalize the blood pH. |
HCO3- | 22–26 mmol/l | The HCO3- ion indicates whether a metabolic problem is present (such as ketoacidosis). A low HCO3- indicates metabolic acidosis, a high HCO3- indicates metabolic alkalosis. HCO3- levels can also become abnormal when the kidneys are working to compensate for a respiratory issue so as to normalize the blood pH. |
SBCe | 21 to 27 mmol/l | the bicarbonate concentration in the blood at a CO2 of 5.33 kPa, full oxygen saturation and 37 degrees Celsius.[4] |
Base excess | -2 to +2 mmol/l | The base excess indicates whether the patient is acidotic or alkalotic. A negative base excess indicates that the patient is acidotic. A high positive base excess indicates that the patient is alkalotic. |
HPO42− | 0.8 to 1.5 [5] mM | |
total CO2 (tCO2 (P)c) | 25 to 30 mmol/l | This is the total amount of CO2, and is the sum of HCO3- and PCO2 by the formula: tCO2 = [HCO3-] + α*PCO2, where α=0.226 mM/kPa, HCO3- is expressed in molar concentration (M) (mol/l) and PCO2 is expressed in kPa [6] |
total O2 (tO2e) | This is the sum of oxygen solved in plasma and chemically bound to hemoglobin. [7] |
Contamination with room air will result in abnormally low carbon dioxide and (generally) normal oxygen levels. Delays in analysis (without chilling) may result in inaccurately low oxygen and high carbon dioxide levels as a result of ongoing cellular respiration.
Lactate level analysis is often featured on blood gas machines in neonatal wards, as infants often have elevated lactic acid.
[edit] References
- ^ Aaron SD, Vandemheen KL, Naftel SA, Lewis MJ, Rodger MA (2003). "Topical tetracaine prior to arterial puncture: a randomized, placebo-controlled clinical trial". Respir Med. 97 (11): 1195-1199. PMID 14635973.
- ^ Mahoney JJ, Harvey JA, Wong RL, Van Kessel AL (1991). "Changes in oxygen measurements when whole blood is stored in iced plastic or glass syringes". Clin Chem. 37 (7): 1244-1248. PMID 1823532.
- ^ Baillie K, Simpson A. Altitude oxygen calculator. Apex (Altitude Physiology Expeditions). Retrieved on 2006-08-10. - Online interactive oxygen delivery calculator
- ^ Acid Base Balance (page 3)
- ^ Walter F., PhD. Boron. Medical Physiology: A Cellular And Molecular Approaoch. Elsevier/Saunders. ISBN 1-4160-2328-3. Page 849
- ^ CO2: The Test
- ^ Hemoglobin and Oxygen Transport. Charles L. Webber, Jr., Ph.D.
[edit] External links
- Alan Grogono's comprehensive guide to acid-base physiology
- An online model of arterial blood gas changes with respiration
- Bloodgas.org - a knowledge site about blood gas and critical care testing
- Dr. Martin's powerpoint presentation on blood gas interpretation
- Arterial Blood Gas Interpretation Course
- Online ABG calculator
- Interactive ABG quiz
- RT Corner (Educational Site for RT's and Nurses) at rtcorner.net
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It has been suggested that Arterial blood gas sampling be merged into this article or section. (Discuss) |