EXTERNAL QUALITY ASSESSMENT
using commutable EQA materials: a 20-year review
Evaluating pO2
Arterial blood gas analysis is an important part of the diagnosis and management of several health conditions, and is increasingly conducted at the point of care. With EQA paramount for such devices, Ceri Parfitt and Annette Thomas present a retrospective study examining the performance of laboratory and POC analysers.
Arterial blood gas (ABG) analysis is an essential component of assessment of critically and acutely ill patients in emergency departments and in intensive care units.1
Many wards and
outpatient departments also use blood gas analysers in providing care to their
patients, such as those with respiratory disease. ABG analysers provide a rapid assessment of patient oxygenation, acid-base balance and metabolic status, through measurement of partial pressure of oxygen (pO2 (pCO2
) and carbon dioxide ), hydrogen ion and bicarbonate
concentrations. As a result, conditions such as sepsis, respiratory failure and diabetic ketoacidosis can be quickly diagnosed and treated.
Blood gas analysis The earliest blood gas analysers, developed in the 1950s were able to measure a limited number of analytes, including pH, pCO2
and pO2 . These
Blood gas analysers are now routinely found in intensive care units, emergency departments and even ambulances.
WWW.PATHOLOGYINPRACTICE.COM SEPTEMBER 2025
devices, typically located in central hospital laboratories were large and complex, requiring trained laboratory staff to operate, as well as extensive sample handling time. As advances in microprocessor technology and miniaturisation of components progressed in the late 20th Century, analysers became more compact and easier to use, with an expanding testing repertoire, including electrolytes, glucose, lactate and haemoglobin. However, most analysers remained in laboratories, with relatively lengthy turnaround times. In recent years, rapid development within the point-of-care testing (POCT) market has led to dramatic improvements in access to blood gas analysers, which are now routinely found in intensive care units, emergency departments and even ambulances. Innovations include smaller sample volume requirements and rapid turnaround time (<2 minutes); as well as improved user interfaces, allowing use
37 accuracy
AdobeStock / Chaikom
Page 1 |
Page 2 |
Page 3 |
Page 4 |
Page 5 |
Page 6 |
Page 7 |
Page 8 |
Page 9 |
Page 10 |
Page 11 |
Page 12 |
Page 13 |
Page 14 |
Page 15 |
Page 16 |
Page 17 |
Page 18 |
Page 19 |
Page 20 |
Page 21 |
Page 22 |
Page 23 |
Page 24 |
Page 25 |
Page 26 |
Page 27 |
Page 28 |
Page 29 |
Page 30 |
Page 31 |
Page 32 |
Page 33 |
Page 34 |
Page 35 |
Page 36 |
Page 37 |
Page 38 |
Page 39 |
Page 40 |
Page 41 |
Page 42 |
Page 43 |
Page 44 |
Page 45 |
Page 46 |
Page 47 |
Page 48 |
Page 49 |
Page 50 |
Page 51 |
Page 52 |
Page 53 |
Page 54 |
Page 55 |
Page 56 |
Page 57 |
Page 58 |
Page 59 |
Page 60 |
Page 61 |
Page 62 |
Page 63 |
Page 64 |
Page 65 |
Page 66 |
Page 67 |
Page 68 |
Page 69 |
Page 70 |
Page 71 |
Page 72 |
Page 73 |
Page 74 |
Page 75 |
Page 76 |
Page 77 |
Page 78 |
Page 79 |
Page 80 |
Page 81 |
Page 82 |
Page 83 |
Page 84
