Editing Automated analyser (section)

{{Short description|Medical laboratory instrument}}
An '''automated analyser''' is a [[medical laboratory]] instrument designed to measure various substances and other characteristics in a number of biological [[Sample (material)|samples]] quickly, with minimal human assistance. These measured properties of blood and other fluids may be useful in the diagnosis of disease.
[[File:Cobas 6000.ogv|thumb|[[Roche Cobas 6000]]]]
[[File:Cobas u 411.JPG|thumb|Roche Cobas u 411]]
[[File:LabMachines.jpg|thumb|Beckman Chemistry analysers: Access (left); Synchron (right).]]
[[File:RACKS.jpg|thumb|Racks: for putting samples, quality controls or calibrations. Cobas 6000]]
[[File:Tube vacuette.jpg|thumb|These tubes are put in the racks for testing]]
[[Spectrophotometry|Photometry]] is the most common method for testing the amount of a specific analyte in a sample. In this technique, the sample undergoes a reaction to produce a color change. Then, a photometer measures the absorbance of the sample to indirectly measure the concentration of analyte present in the sample. The use of an ion-selective electrode (ISE) is another common analytical method that specifically measures ion concentrations. This typically measures the concentrations of sodium, calcium or potassium present in the sample.<ref>{{Cite web|url=https://www.labcompare.com/10-Featured-Articles/138020-Clinical-Chemistry-Analyzers-Technology/|title = Clinical Chemistry Analyzers Technology}}</ref>

There are various methods of introducing samples into the analyser. [[Test tube]]s of samples are often loaded into racks. These racks can be inserted directly into some analysers or, in larger labs, moved along an automated track. More manual methods include inserting tubes directly into circular carousels that rotate to make the sample available. Some analysers require samples to be transferred to sample cups. However, the need to protect the health and safety of laboratory staff has prompted many manufacturers to develop analysers that feature closed tube sampling, preventing workers from direct exposure to samples.<ref>{{cite web|url=http://www.beckman.com/literature/ClinDiag/AU%209389%20Tanner%20Case%20Study.pdf |title=Tanner Medical Center Uses Revolutionary SYNCHRON LX®i 725 To Consolidate Testing, Reduce Sample Handling And Increase Safety|accessdate=2007-08-26 |url-status=dead |archiveurl=https://web.archive.org/web/20070928015634/http://www.beckman.com/literature/ClinDiag/AU%209389%20Tanner%20Case%20Study.pdf |archivedate=2007-09-28 }}</ref><ref>{{cite web|url=http://www.bd.com/ds/aboutUs/news/News-05227.asp|title=Microbiology Solutions - BD|website=www.bd.com}}</ref> Samples can be processed singly, in batches, or continuously.

The automation of laboratory testing does not remove the need for human expertise (results must still be evaluated by [[medical technologist]]s and other qualified clinical laboratory professionals), but it does ease concerns about error reduction, staffing concerns, and safety.