Note to readers

We have started a forum hosted by Nabble, this forum can be accessed directly on our blog. The purpose of starting a forum is to help viewers and readers with questions to have a platform of sharing them and provide answers.


We are determined to be your source for health and medical information, you can help us by engaging in the forum

Clinical Chemistry Analyzer | principle and specification

Perform tests on whole blood, serum, plasma, or urine samples to determine concentrations of analytes (e.g., cholesterol, electrolytes, glucose, calcium), to provide certain hematology values (e.g., hemoglobin concentrations, prothrombin times), and to assay certain therapeutic drugs (e.g., theophylline), which helps diagnose and treat numerous diseases, including diabetes, cancer, HIV, STD, hepatitis, kidney conditions, fertility, and thyroid problems.
Chemistry analyzers can be bench-top devices or placed on a cart; other systems require floor space



Product description

Chemistry analyzers can be bench-top devices or placed on a cart; other systems require floor space. They are used to determine the concentration of certain metabolites, electrolytes, proteins, and/or drugs in samples of serum, plasma, urine, cerebrospinal fluid, and/or other body fluids. Samples are inserted in a slot or loaded onto a tray, and tests are programmed via a keypad or bar-code scanner. Reagents may be stored within the analyzer, and it may require a water supply to wash internal parts. Results are displayed on a screen, and typically there are ports to connect to a printer and/or computer.



Principles of operation

After the tray is loaded with samples, a pipette aspirates a precisely measured aliquot of sample and discharges it into the reaction vessel; a measured volume of diluent rinses the pipette. Reagents are dispensed into the reaction vessel. After the solution is mixed (and incubated, if necessary), it is either passed through a colorimeter, which measures its absorbance while it is still in its reaction vessel, or aspirated into a flow cell, where its absorbance is measured by a flow-through colorimeter. The analyzer then calculates the analyte’s chemical concentrations.

Operating steps

The operator loads sample tubes into the analyzer; reagents may need to be loaded or may already be stored in the instrument. A bar-code scanner will read the test orders off the label on each test tube, or the operator may have to program the desired tests. After the required test(s) are run, the results can be displayed on-screen, printed out, stored in the analyzer’s internal memory, and/or transferred to a computer.

Reported problems


Operators should be aware of the risk of exposure to potentially infectious blood-borne pathogens during testing procedures and should use universal precautions, including wearing gloves, face shields or masks, and gowns.

Product specifications

Approx. dimensions (mm): 500 x 700 x 1,000
Approx. weight (kg): 30-700
Consumables: Reagents, sample cells
Price range (USD): 10,000 - 465,000
Typical product life time (years): 5-7
Shelf life (consumables): Reagents: 1-2 years



Reference
https://www.who.int/medical_devices/innovation/clinical_chemistry_analyzer.pdf?ua=1
http://www.labcompare.com/Pharmaceutical-Lab-Equipment/879-Chemistry-Analyzer-Clinical-Chemistry-Analyzers/
http://www.labcompare.com/10-Featured-Articles/138020-Clinical-Chemistry-Analyzers-Technology/
https://www.medicalexpo.com/medical-manufacturer/biochemistry-analyzer-222.html
https://crownhtz.com/product/bs-240-fully-clinical-chemistry-analyzer/
https://www.siemens-healthineers.com/clinical-chemistry

Post a comment

0 Comments