The Many Uses of a Biochemistry Analyzer
A biochemistry analyzer is a term which can refer to any number of different instruments used to analyze and measure the characteristics of various samples from biological sources. All types of biochemistry analyzer are commonly used in life sciences laboratories and medical settings, where they provide data which is essential for a wide range of research, diagnostic and even product development applications (such as in the pharmaceutical industry).
The study of the chemical processes which go on inside of living organizations encompasses a wide range of different disciplines and an even wider range of uses, all of which fall under the broader umbrella of biochemistry. Among the most common uses for a biochemistry analyzer are to determine the structure and function of biomolecules including nucleic acids, lipids, proteins and enzymes.
It is in fact in the study of the chemistry of reactions catalyzed by enzymes in which a biochemistry analyzer is particularly useful. These applications include applications involving learning of genetics, protein synthesis, metabolism on the cellular level, signal transduction and other biochemistry applications with a bearing on the development of new and improved medical care and pharmaceuticals to treat diseases with a genetic component.
Automation has made changes in the way that many laboratory work is carried out, allowing for many traditionally time consuming tasks to be streamlined to permit higher throughput. There are now a variety of different automated biochemistry analyzer instruments which are available. These instruments are designed for a wide range of different applications in the life sciences laboratory or for diagnostic purposes in medical settings. These automated biochemistry analyst devices can measure the concentration and / or determine the characteristics of specific substances in a sample very quickly and with a minimal amount of operator intervention.
With an automated analyzer, there are usually dedicated autosamplers in use along with the instrument or in many cases, even an integrated autosampler. These further simplify the task of biochemistry analysis and since the safety of laboratory personnel when working with biological samples is often a concern, also make the modern, automated biochemistry analyzer much easier and safer to use.
In larger medical laboratories, such as those at hospitals, there are dedicated biochemistry analyst systems in use, often multiple ones designed to perform different common tests needed at healthcare facilities. These often include tests for levels of albumin, glucose, enzymes and creatine levels in the blood or serum. These tests may be performed by measuring conductivity, colorimetry, turbidity and any number of other methods.
There are also many other specialized types of biochemistry analyzer used in laboratories and clinics. Laboratories which perform immunology applications in particular use analyzers in immunoassays as they look for antibody-antigen reactions in biological samples. Other specialized types of biochemistry analyzer include those designed for the measurement of osmolarity and osmolality, DNA / RNA detection and labeling and almost too many other important medical research, life sciences and drug development applications to list. Everywhere that the quantitative or quantitative analysis of biomolecules in samples from living organisms is critical, you will always find some sort of biochemistry analyzer at use as an indicative tool to laboratory personnel.
Article Source: Andrew K Long