FLOW CYTOMETRYDRM Overview from university
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Jun 01, 2024
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About This Presentation
Flow cytometry introduction
Slide Content
FLOW CYTOMETRY
Dr. MOHAMMED H SAIEMA LDAHR
KAAU
FACULTY OF APPLIED MEDICAL SCIENCES
MEDICAL TECHNOLOGY DEPT.
2
ND
YEAR MT
INSTROMINTATION
EXT 21060
Dr. MOHAMMED H SAIEMA LDAHR
KAAU
FACULTY OF APPLIED MEDICAL SCIENCES
MEDICAL TECHNOLOGY DEPT.
2
ND
YEAR MT
INSTROMINTATION
EXT 21060
WHAT IS A FLOW CYTOMETER
IT IS A MACHINE
IT IS A MACHINE
FCM
FLOW CYTOMETRY
FLOW CYTOMETRY
WHAT IS FLOW CYTOMETRY ?
Flow Cytometry means measuring cells in a fluid medium.
It is a technique for making rapid physical and or chemical
measurement on particles or cells as they flow in a fluid stream
one by one through sensing point .
A technology that simultaneously measures multiple
characteristics of single cells at a rapid rate.
Is the measurement of cellular propertiesas they move in a fluid
past a stationary set of detectors.
FCM permits analysis of 10
5
-10
6
cells per minutes,
simultaneously measuring physical and biological properties.
Flow Cytometry means measuring cells in a fluid medium.
It is a technique for making rapid physical and or chemical
measurement on particles or cells as they flow in a fluid stream
one by one through sensing point .
A technology that simultaneously measures multiple
characteristics of single cells at a rapid rate.
Is the measurement of cellular propertiesas they move in a fluid
past a stationary set of detectors.
FCM permits analysis of 10
5
-10
6
cells per minutes,
simultaneously measuring physical and biological properties.
WHAT IS FLOW CYTOMETRY ?
FCM is an automated methodused to measure cells or
particles as they flow single filethough a sensing area.
Optical sensing is done with intense light source,
usually LASER or mercury arc lamp.
The FCM measures light scatter and fluorescent signal
generated as cell pass through a light beam.
FCM is an automated methodused to measure cells or
particles as they flow single filethough a sensing area.
Optical sensing is done with intense light source,
usually LASER or mercury arc lamp.
The FCM measures light scatter and fluorescent signal
generated as cell pass through a light beam.
WHAT IS THE COMPONANTS OF THE FLOW CYTOMETER ?
Instrument Components are,
Fluidics
Optics
Electronics
Data Analysis
Instrument Components are,
Fluidics
Optics
Electronics
Data Analysis
Fluidics
Cell transportation
To introduce and focus the cells for interrogation
Most instruments utilize a laminar/sheathflow and
turbulent boundary dragtechniques to confine (detain)
cells to the center of the flow stream.
Cells enters the chamber under pressure through a
small aperture (opening) which is surrounded by sheath
fluid.
Cell transportation
To introduce and focus the cells for interrogation
Most instruments utilize a laminar/sheathflow and
turbulent boundary dragtechniques to confine (detain)
cells to the center of the flow stream.
Cells enters the chamber under pressure through a
small aperture (opening) which is surrounded by sheath
fluid.
Fluidics
The sheath fluid in the samplechamber creates a
hydrodynamic focusingeffect and draw the sample
fluid into a stream.
Turbulent boundary flow, The sample is injected into
a chamber tapering (narrowing) to a small exit orifice.
The speed of the entry of the samplecombined with
the back pressure generated by the exit orificeresults
in sample turbulence.
The sheath fluid in the samplechamber creates a
hydrodynamic focusingeffect and draw the sample
fluid into a stream.
Turbulent boundary flow, The sample is injected into
a chamber tapering (narrowing) to a small exit orifice.
The speed of the entry of the samplecombined with
the back pressure generated by the exit orificeresults
in sample turbulence.
FACScan FLUIDICS SYSTEM
speed of the entry of the sample combined with the back pressure
generated by the exit orifice results in sample turbulence.
speed of the entry of the sample combined with the back pressure
generated by the exit orifice results in sample turbulence.
Flow Cell
Injector
Tip
FluorescenceFluorescence
signalssignals
Focused laserFocused laser
beambeam
Sheath
fluid
Injector
Tip
FluorescenceFluorescence
signalssignals
Focused laserFocused laser
beambeam
Sheath
fluid
OPTICS
Excitation optics consist of:
Laser: Light Amplification by Stimulated Emission of
Radiation
Lenses to shape and focus the laser beam
Collection optics consist of;
i-a collection lens to collect light emitted from the particle-laser
beam interaction
ii-a system of optical mirrors and filters to route specified
wavelengths of the collected light to designated optical detectors
Excitation optics consist of:
Laser: Light Amplification by Stimulated Emission of
Radiation
Lenses to shape and focus the laser beam
Collection optics consist of;
i-a collection lens to collect light emitted from the particle-laser
beam interaction
ii-a system of optical mirrors and filters to route specified
wavelengths of the collected light to designated optical detectors
OPTICS
LASER: Light Amplification by Stimulated Emission of Radiation
LASER: Light Amplification by Stimulated Emission of Radiation
OPTICS
Laser have the advantage of producing an intense beam
of monochromatic light.
The most common laser used in FCM are;
Argonlasers, produce light between (351-528 nm)
Krypton laser, produce light between (350-799 nm)
Helium-neon laser produce lines at 543,594,611, and 633nm
Helium-cadmium laser produce lines at 325 and 441 nm.
Laser have the advantage of producing an intense beam
of monochromatic light.
The most common laser used in FCM are;
Argonlasers, produce light between (351-528 nm)
Krypton laser, produce light between (350-799 nm)
Helium-neon laser produce lines at 543,594,611, and 633nm
Helium-cadmium laser produce lines at 325 and 441 nm.
OPTICS
Forward Scatter Channel (FSC):
A beam of laser light is projected at specific point of
the flow cell .
As a particle passes through the laser beam light, most
of the light is scatteredin the forward direction, this
forward scatter is related to the sizeof the particle.
Forward Scatter Channel (FSC):
A beam of laser light is projected at specific point of
the flow cell .
As a particle passes through the laser beam light, most
of the light is scatteredin the forward direction, this
forward scatter is related to the sizeof the particle.
OPTICS (FSC)Forward Angle Light Scatter
FALS Sensor
Laser
FALS Sensor
Laser
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