Flow Imaging Microscopy Market
What is Flow
Imaging Microscopy?
Flow
Imaging Microscopes (FIM) is also known as flow imaging particle analyzer and
it is essentially used to perform three functions within a single instrument. Market research tools suggest that it
is used to examine a fluid under a microscope, take images of the magnified
particles, and then characterize the particles using various measurements.
Research associated with the presence of microbial life within oceans is noted
to be one of the key study areas that benefitted from the use of this
technology. In the biomedical domain, flow imaging microscopes are used to
analyze biopharmaceuticals as well as parental drugs to evaluate the stability
of a given formulation. Quality control associated with food ingredients is
another segment that gained substantial benefits through the induction of this
technology. Food imaging microscopes are used in the food ingredients segment
to study the effects of particle shape on the delivered taste of the product.
The
market database suggests that the first flow imaging microscope was noted to have been developed at
Bigelow Laboratory for Ocean Sciences in Boothbay Harbor, Maine. The device was
called the Flowcam and it was used
to identify, count and track plankton populations around the globe. The FlowCam
was created to provide the advantages of both a flow cytometer and a microscope
in one device. The device allowed for the introduction of an ocean water
sample, the enlargement and photography of the imaged particles, and the
subsequent measurement of the pictured particles.
Imaging flow
cytometry
Combining
traditional flow cytometry with microscopy, imaging flow cytometry (IFC) enables the analysis and imaging of
astronomically high numbers of individual cells. Market research tools state
that the physical and chemical properties of a population of cells and
particles can be determined using imaging flow cytometry. A sample of cells is
suspended in a liquid, and it is injected into a flow cytometer. The sample is ideally focused to flow through
a laser beam one cell at a time, where the light scattered is unique to the
cells and their constituent parts. Fluorescent markers are frequently used to
label cells, causing light to be absorbed by the cells and then emit in a range
of wavelengths. A computer can quickly inspect tens of thousands of cells, and
the information acquired is then processed.
Imaging
flow cytometry gained popularity in recent years as academics look for deeper
understandings from sparse sample material at the single-cell level. Business
intelligence tools state that the technology was noted to register its presence
as early as the year 1979. In terms of research segments, aquatic microbiology
is noted to be one of the key areas that benefitted from imaging flow
cytometry. Cell proliferation assay is another domain that has gained an edge
in its research after making use of imaging flow cytometry. It is frequently necessary to
examine the cells' proliferative behavior to draw certain conclusions. The
tracking dye carboxyfluorescein diacetate succinimidyl ester is one such test
for determining cell proliferation (CFSE).
Market Trends
for Flow imaging Microscopy (FIM)
Market
analysis suggests that the growth of the flow imaging microscopy market is
majorly supported by the increased research-based investment in domains like
nanotechnology, pharmaceutical R&D, as well as strict guidelines instated
across the industry. As per market research tools, the Pharmaceutical Research
and Manufacturer’s Association of America, roughly USD 79.6 billion was
invested in R&D as of 2018. The lobbying value for PhRMA was noted to be
USD 30 Million in 2021 and 8 Million in 2022.
Market
analysis based on technology suggests that particle size for a specimen is
determined by the flow cell depth. However, only particles that lie within a
certain said range can be characterized using this technology. Therefore,
business intelligence tools state that data processing can experience serious
bottlenecks if a said sample is to have particles with sizes that are lesser
than the mentioned range values.
How is Flow
Imaging Microscopy used?
Flow imaging microscopy is typically used to examine the
individual particles within a said sample. It is used for a process called
particle analysis that helps determine the various properties associated with a
given set of information. The basic constituent substances within a particle
can be determined using particle analysis. The size distribution,
concentration, as well as various measurements associated with a given particle
can be determined using this methodology. The particle analysis for a given
sample is represented graphically, and the change in curve lines is hereby used
to interpret the various components within a given particle matter.
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