A biochemistry analyzer, also known as a clinical chemistry analyzer, is a device that measures the number of metabolites in biological samples like blood or urine. The analysis of these liquids allows for the diagnosis of a variety of disorders. The measurement of urine creatinine to determine the kidneys' filtration capacity is an example of how this type of analyzer is used.
When selecting a biochemistry analyzer, consider whether
assay automation is required, as well as the specificity of the reagents and
the level of measurement accuracy. It's also crucial to think about capacity
(maximum number of samples analyzed at the same time).
Benchtop and floor-standing biochemistry analyzers are
available on the market. Benchtop analyzers are compact in size and offer a
great deal of versatility in application. Furthermore, tabletop analyzers are
preferable over space-consuming floor-standing analyzers in small laboratory
settings. Benchtop analyzers are likely to outperform floor-standing analyzers
in terms of demand growth over the projection period, owing to the convenience
benefits they provide.
Hospitals, diagnostics centers, pharmaceutical, and
biotechnology firms, academic research institutes, and contract research organizations
make up the biochemistry
analyzers market. Hospitals and diagnostics centers include all
types of hospitals, clinics, family planning providers, epidemic prevention
stations, and testing laboratories. These analyzers are commonly found in
hospitals and diagnostic institutes.
Infectious and metabolic illnesses are predicted to become
more common, providing profitable growth prospects for market competitors.
According to the National Health Council, roughly 157 million individuals in
the United States would be affected by chronic diseases by 2020.