CC1 Lecture: Analytic Techniques/Instrumentation PDF

Summary

This document is a lecture on analytic techniques and instrumentation in clinical chemistry. It covers spectrophotometry, including types and ranges. The lecture also explains principles, applications, and examples of spectrophotometry, introducing UV-visible and others. The content seems to be part of a larger course for clinical chemistry.

Full Transcript

CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
CLINICAL CHEMISTRY 1 LECTURE: ANALYTICAL TECHNIQUES/INSTRUMENTATION
Prepared by: Rahimyar Khan T. Pata, RMT, MD
Analytic techniques in the clinical chemistry laboratory are essential for diagnosing, monitoring, and treating various diseases.
These techniques have evolved significantly, leveraging advancements in technology and scientific understanding.

SPECTROPHOTOMETRY
❖ Spectrophotometry is a foundational analytic technique in clinical chemistry, used to measure the concentration of substances by detecting
the intensity of light as it passes through a sample.
❖ This discussion will cover the different types of spectrophotometric techniques, with an emphasis on the components of a
spectrophotometer.

Introduction to Spectrophotometry
Principle: Spectrophotometry is based on the principle that each compound absorbs or transmits light over a specific range of
wavelengths. According to the Beer-Lambert law, the________
amount of light absorbed by a substance in solution is __________
directly proportional to its
concentration. epsilon -

:
>
- remember the formula
Take note
·
Absorbance is directly proportional
to the analyse concentration
the transmitted light.
proportional
to
·
Absorbance is inversely
naabsorb light big sabihin mababa
a
meaning if mataas yung a yung
matratransmit a light.

Decrease absorb light ibig sabihin
increase light

Remember the principle ,
application , a Example

baka lumabas sa quiz
TYPES OF SPECTROPHOTOMETRIC TECHNIQUE
TYPE RANGE PRINCIPLE APPLICATION EXAMPLE
UV-VISIBLE 200-700 nm Used to measure the Quantification of
UV: __________.
200 400nm -

concentration of bilirubin and
Visible: _____________
400 700nm-

nm analytes that absorb hemoglobin
light in the UV and
visible regions.
Common applications:
analysis of nucleic acids,
proteins, and enzymes.
____________________
ATOMIC Primarily UV and Visible regions Measures the Used for determining Measurement of trace
______________________
ABSORPTION concentration of ___________
metals such as metals in blood or
elements by detecting the calcium, lead, and iron. urine
absorption of light by free
atoms in the gaseous
state.
Each element absorbs
light at a specific
wavelength.
___________________
INFRARED/IR) 700 nm - 1 mm measures the absorption Used for the __________________________
Analysis of lipids and fatty acids
of infrared light by identification of organic
molecules, leading to compounds and
vibrations in molecular functional groups.
bonds.
Each molecule has a
unique IR spectrum,
which acts as a molecular
fingerprint
FLUORESCENCE/ Measures the intensity of Sensitive detection of Detection of
FLUOROMETRY fluorescent light emitted substances at low fluorescently labeled
by a substance after it concentrations, such as DNA in molecular
absorbs light. vitamins, hormones, diagnostics
The emitted light is and nucleic acids.
usually at a longer
wavelength than the
absorbed light.
__________________
TURBIDIMETRY Measures the decrease in Quantification of Measurement of serum
intensity of light as it proteins, antigens, and ___________
proteins and
passes through a sample immune complexes _________________________
Immunoglobulins
with suspended particles.

__________________
NEPHELOMETRY Measures the scattered Quantification of Measurement of serum
light at an angle from the proteins, antigens, and proteins and
sample. immune complexes immunoglobulins
More suited for
measuring small
particles.

REMEMBER 8%0

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CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
PARTS OF SPECTROPHOTOMETER
multiplier
· photo
- To prevent stray light

PART FUNCTION OTHER INFO SIGNIFICANCE
________________________
Light source ❖ Provides the initial beam of light that will Types: ❖ The choice of light source is
pass through the sample ______________
Tungsten Lamp: critical for accurate
Commonly used for measurements in the desired
visible light. wavelength range.
____________Lamp:
Deuterium Used O remember 8 p
O O

for UV light.
________________________
Monochromator ❖ Selects a specific wavelength of light from Components: raindrops/para maalala prism
~
si ❖ Ensures that only light of the
the broad spectrum emitted by the light __________:
Prism Refracts light into its desired wavelength reaches
source component wavelengths. the sample.
_________________:
Diffraction Grating Disperses light
into its constituent
wavelengths more efficiently
than a prism.
________________________
cuvette/sample holder ❖ Holds the sample in the path of the light Materials: TWO TYPES OF
CUrETTES
❖ The material and path length
beam. _________
Quartz Cuvettes: Used for UV of the cuvette affect the
measurements due to their accuracy and sensitivity of the
transparency in the UV range. measurement.
_______or
Glass _________Cuvettes:
Plastic -
remembers
Suitable for visible light
measurements.
________________________
Detector ❖ Detects the light that passes through the Types: ❖ The detector’s sensitivity and
sample and converts it into an electrical _____________:
Photodiode Commonly used response time are crucial for
signal. for UV-visible accurate measurements,
spectrophotometry especially in low-
Photomultiplier
________________ tube
(PMT): Used in concentration samples.
fluorescence
spectrophotometry for
detecting low-intensity light
________________________
Digital Readout ❖ Displays the absorbance or transmittance ❖ Modern spectrophotometers
readings, often connected to software for often include data processing
further analysis. capabilities, allowing for the
automatic calculation of
concentrations based on
calibration curves.

CALIBRATION AND MAINTENANCE OF SPECTROPHOTOMETER
a. Calibration
Importance: Regular calibration ensures the accuracy and precision of measurements.
Methods:
o Use of _____________
standard Solutions: Calibration is performed using solutions of known concentration.
o ______________
Baseline Calibration: Setting the instrument to zero absorbance with a blank sample.
Frequency: This should be performed daily or before each use, depending on the application.
b. Maintenance
Cleaning: Regular cleaning of cuvettes, light source, and other optical components is essential to avoid contamination and ensure
consistent results.
Inspection: Periodic inspection of the light source and detector for any signs of wear or malfunction.
Software Updates: Keeping the software up to date ensures compatibility and accuracy in data analysis.

Conclusion
❖ Spectrophotometric techniques are vital tools in clinical chemistry, offering a wide range of applications from routine analyte quantification
to complex molecular diagnostics.
❖ Understanding the types of spectrophotometric methods and the essential parts of a spectrophotometer is crucial for optimizing their use
in the laboratory.

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CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
CHROMATOGRAPHY
❖ Chromatography is a powerful analytical technique used in clinical chemistry for separating, identifying, and quantifying components in a
mixture.
❖ The technique exploits differences in the distribution of components between a stationary phase and a mobile phase.
Introduction to Chromatography
Principle: Chromatography is based on the differential partitioning between the mobile phase and the stationary phase. As the mobile
phase carries the mixture through the stationary phase, different components move at different rates, leading to separation.
Applications: Chromatography is used in a wide range of clinical applications, including drug testing, hormone analysis, and the
identification of metabolic products.
TYPE PRINCIPLE APPLICATION EXAMPLE OTHER INFO
________________________
High-Performance Liquid form of column analysis of amino acids, Determination of TYPES
chromatography chromatography where peptides, vitamins, and hemoglobin A1c in blood _____________
Reverse phase: non-
(HPLC)
the mobile phase is a drugs polar stationary phase
liquid and the separation & polar mobile phase;
is based on the commonly used for
interactions between the separating compounds
sample components and based on their
the stationary phase hydrophobicity
under high pressure. ____________phase:
Normal polar
stationary phase & non-
polar mobile phase;
used for separating
polar compounds
________________________
Gas separates volatile analysis of volatile Measurement of blood TYPES
a
Chromatography, compounds based on their substances, such as alcohol levels Gas-Liquid (GLC):
distribution between a alcohol, drugs, and liquid stationary phase
stationary liquid phase steroids Gas-Solid (GSC): solid
and a mobile gas phase stationary phase
________________________
Thin-layer Chromatography separation of components identification and Screening for drug
on a thin layer of comparison of compounds metabolites in urine
adsorbent material, such as lipids and drugs
usually silica gel, coated
on a glass or plastic plate.
The mobile phase moves
through the stationary
phase by capillary action.
________________________
Ion-Exchange chromatography separates ions and polar used for the separation of Separation of hemoglobin
molecules based on their proteins, peptides, and variants in clinical
affinity to the ion nucleotides diagnostics
exchanger, which is a
charged stationary phase
________________________
Affinity Chromatography utilizes the specific used for purifying Purification of
binding affinity between proteins, antibodies, and immunoglobulins from
an immobilized ligand in enzymes serum
the stationary phase and
its target molecule in the
mobile phase
Size-exclusion separates molecules based separation and analysis of Determination of
chromatography/ Gel on their size as they pass proteins, polysaccharides, molecular weight
Filtration through a porous and nucleic acids distribution in proteins
Chromatography stationary phase
Larger molecules elute
first because they cannot
enter the pores and hence
travel faster through the
column.
________________________
paper chromatography separates compounds separation of small polar Amino acid profiling
based on their solubility compounds such as amino
and adsorption to the acids and sugars
paper (stationary phase)
as the solvent (mobile
phase) moves through the
paper by capillary action.

PARTS OF A CHROMATOGRAPHY SYSTEM
Mobile phase Injector
Stationary phase Pump (in HPLC)
Column (in column chromatography) Data Acquisition System
Detector

PART FUNCTION OTHER INFO SIGNIFICANCE
_______________________
Mobile Carries the sample through the stationary The choice of mobile phase
PHASE phase affects the separation
can be a liquid in HPLC, a gas in GC, or a efficiency and the interaction
solvent in TLC and paper of sample components with
chromatography. the stationary phase.
________________________
stationary The stationary phase is the medium TYPES: The nature of the stationary
PHASE through which the mobile phase and ____________________
Silica Gel : Commonly phase determines the
sample components pass. used in TLC and HPLC. separation mechanism, such
It can be a solid, a liquid on a solid Ion-exchange resins: Used in as adsorption, partitioning,
support, or a gel. ion-exchange chromatography. or ion exchange.
___________________:
Porous Beads Used in size-
exclusion chromatography.

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CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
________________________
column houses the stationary phase and provides MATERIALS: Columns can be The column's dimensions
the pathway through which the mobile made of stainless steel (HPLC), (length and diameter) and
phase and the sample move glass (GC), or plastic (TLC). packing material influence
Types: the separation resolution and
Analytical Columns: Shorter efficiency.
Remember 8 the columns used for analysis.
two types of Preparative Columns:
columns
Longer columns used for
purification and large-scale
separation.
________________________
Detector identifies and quantifies the separated Types: The choice of detector
components as they elute from the UV-Visible Detector: depends on the nature of the
column Common in HPLC for detecting sample and the sensitivity
compounds that absorb UV or required.
visible light.
Flame Ionization Detector
(FID): Used in GC for
detecting organic compounds.
Refractive Index Detector:
Used in HPLC for detecting
compounds that do not absorb
UV light.
________________________
Injector introduces the sample into the mobile Types: Accurate injection is critical
phase at the start of the chromatography Manual Injection: Used in for reproducibility and
process simpler systems like TLC. precision in quantitative
Autosampler: Common in analysis.
HPLC and GC, allows for
automated and reproducible
sample injection.
________________________
Pump moves the mobile phase through the TYPES The pump’s performance
column at a controlled flow rate and Isocratic Pumps: Maintain a affects the separation
pressure constant mobile phase efficiency and reproducibility
composition. in HPLC.
Gradient Pumps: Vary the
mobile phase composition
during the run.
________________________
Data Acquisition System records the detector's output and Components: Accurate data acquisition
generates chromatograms, which display Software: Used to control and analysis are essential for
the separated components as peaks the chromatography system identifying and quantifying
and analyze data. the components of the
Computers/Monitors: sample.
Interface for real-time
monitoring and data analysis.

CALIBRATION AND MAINTENANCE OF CHROMATOGRAPHY SYSTEM
a. Calibration
Importance: Calibration ensures the accuracy of retention times, peak areas, and concentrations.
Methods:
o Use of ________________________Solutions:
standard Calibration curves are generated using standards of known concentration.
o ________________________Time
Retention Calibration: Ensures that peaks correspond to specific analytes.
Frequency: Regular calibration is necessary, especially before critical analyses.
b. Maintenance
Column Care: Regular flushing and proper storage of columns to prevent blockages and degradation.
System Checks: Periodic inspection and maintenance of pumps, injectors, and detectors to ensure optimal performance.
Cleaning: Routine cleaning of the system to prevent cross-contamination and ensure longevity.
Conclusion
❖ Chromatography is an essential analytical tool in clinical chemistry, offering unparalleled separation capabilities for a wide range of
compounds.
❖ Understanding the different types of chromatographic techniques and the essential parts of a chromatography system is crucial for
achieving accurate, reproducible results.
ELECTROPHORESIS
❖ Electrophoresis is a key analytical technique in clinical chemistry and molecular biology, used for separating and analyzing charged
particles based on their movement in an electric field.
❖ This discussion will cover various electrophoretic techniques and the essential components of an electrophoresis system.
Introduction to Electrophoresis
Principle: Electrophoresis separates molecules based on their charge and size. When an electric field is applied, charged molecules migrate
toward the electrode with the opposite charge. The rate of migration depends on the molecule’s size, charge, and the medium through
which it moves.
Applications: Electrophoresis is used for protein and nucleic acid analysis, including the separation of hemoglobin variants, DNA
fingerprinting, and protein quantification.
TYPES OF ELECTROPHORETIC TECHNIQUES
TYPE PRINCIPLE APPLICATION OTHER INFO EXAMPLE
________________________
Agarose Gel Uses an agarose gel as the Primarily used for the Procedure: DNA fragment analysis
________________________
Electrophoresis medium to separate nucleic separation of DNA and RNA Prepare an agarose in genetic research.
________________________
AGE acids based on size. The gel fragments. gel and pour it into a
is a porous matrix that gel casting tray.
allows smaller molecules to Load nucleic acid
migrate faster than larger samples into the
ones. wells.
Apply an electric field
and separate the
nucleic acids based
on size.
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CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
________________________
Polyacrylamide Gel Uses a polyacrylamide gel Protein separation (SDS- Types: Protein quantification
________________________
Electrophoresis for the separation of PAGE) and nucleic acid ______-PAGE:
SDS Denatures and enzyme activity
________________________
PAGE proteins and nucleic acids analysis (native PAGE) proteins and separates studies.
based on size and charge. them based on
The gel matrix can be molecular weight.
adjusted to achieve ________
Native PAGE:
different resolutions. Separates proteins in
their native state,
preserving their
structure and charge.

________________________
Capillary Uses a narrow-bore High-resolution separation TYPES: Analysis of small drug
________________________
Electrophoresis capillary tube filled with an of small molecules, peptides, Capillary Zone molecules and genetic
electrolyte solution. and nucleic acids. Electrophoresis markers.
An electric field is applied (CZE): Separates
across the capillary, causing analytes based on
ions to migrate based on their charge-to-size
their size and charge. ratio.
Capillary Gel
Electrophoresis
(CGE): Utilizes a gel
matrix within the
capillary for
separating larger
molecules.
________________________
Isoelectric Focusing Separates proteins or other Protein characterization and Procedure: Characterization of
___________________
(IEF) amphoteric substances separation based on pI. Prepare a gel with a protein isoforms and
based on their isoelectric pH gradient. protein profiling
point (pI). Load the sample and
An electric field is applied apply an electric field.
across a pH gradient, and
proteins migrate to the Proteins migrate to
point where their net their respective pI and
charge is zero. focus into sharp bands.

________________________
Two-Dimensional Combines isoelectric Comprehensive protein Procedure: Proteomic studies and
________________________
Electrophoresis (2 DE)
-

focusing (IEF) with SDS- analysis and profiling. Perform IEF on a gel identification of protein
PAGE to separate proteins strip. biomarkers.
in two dimensions: first by Transfer the focused
pI and then by molecular proteins to an SDS-
weight. PAGE gel for
separation based on
molecular weight.

PARTS OF AN ELECTROPHORESIS SYSTEM

Figure: Parts of Gel Electrophoresis Apparatus. Image Source: Cleaver Scientific Ltd.
Power supply Buffer solutions
Gel Casting and Electrophoresis chambers Staining and Destaining solutions
Sample loading equipment Capillary Electrophoresis Components
Gel Documentation System
PART FUNCTION OTHER INFORMATION SIGNIFICANCE
___________________
Power supply Provides the electric field necessary for Features: ensures proper separation of
electrophoresis. Voltage and Current samples by controlling the
Controls: Allow precise voltage and current applied to
control over the electric field the electrophoresis system.
strength.
Safety Features: Includes
automatic shut-off and
overcurrent protection.

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CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
___________________
Gel
casting and Holds the gel and provides a space for sample Types: Proper gel casting and
___________________
Electrophoresis migration. Casting Tray: Used to chamber design are crucial for
___________________
chambers
prepare and solidify the gel. achieving uniform results and
Electrophoresis Tank: preventing sample distortion
Contains the gel and
electrolyte buffer during
electrophoresis

___________________
sample loading Used to load samples into the gel wells. Types: Accurate sample loading is
___________________
Equipment Micropipettes: Used for essential for reproducible
precise volume results and effective
measurements and sample separation
loading.
Sample Loading Dyes:
Added to samples to track
their progress during
electrophoresis.

___________________
Gel Documentation Captures and analyzes the results of Components: crucial for visualizing and
___________________
system electrophoresis Transilluminator: Provides interpreting the results of
UV or visible light to electrophoresis
visualize the gel.
Camera or Imaging System:
Captures images of the gel
for analysis.
Software: Analyzes gel
images and quantifies bands.

___________________
Buffer solutions Maintains the pH and ionic strength necessary Types: Proper buffer preparation
___________________ for effective electrophoresis. Running Buffers: Used ensures consistent results and
during the electrophoresis prevents damage to the gel or
process. samples.
Sample Buffers: Contain
tracking dyes and sometimes
denaturing agents.

___________________
staining and Stains the separated components to make Types: Staining is essential for
___________________
Destaining solutions them visible for analysis Coomassie Brilliant Blue: visualizing the separated
Commonly used for protein components after
staining. electrophoresis.
Ethidium Bromide: Used for
nucleic acid staining.

Capillary Electrophoresis System Components
Capillary Tubes: Narrow tubes where separation occurs.
Injectors: Introduce samples into the capillary.
Detectors: Detect separated analytes, often using UV absorbance or fluorescence.
Significance: The components of a capillary electrophoresis system are crucial for achieving high-resolution separations and accurate
analyses.

CALIBRATION AND MAINTENANCE OF ELECTROPHORESIS SYSTEMS
a. Calibration
Importance: Ensures accuracy and reproducibility of results.
Methods:
o Use of ____________________________
Molecular weight Markers: To calibrate and verify the size of separated bands.
o Standardization of Buffer Solutions: Ensures consistent pH and ionic strength.
Frequency: Regular calibration is required, especially when changing gels or buffers.
b. Maintenance
Gel Preparation: Regular cleaning of gel casting equipment to prevent contamination.
System Checks: Periodic inspection of power supplies and electrophoresis chambers.
Buffer Solutions: Frequent replacement and proper storage of buffer solutions to prevent degradation.
Cleaning: Regular cleaning of imaging systems and other components to ensure accurate results.
Conclusion
Electrophoresis is a versatile and essential technique for the separation and analysis of biomolecules in clinical chemistry and molecular
biology.
Understanding the various electrophoretic techniques and the components of an electrophoresis system is critical for accurate and effective
analysis.

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CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
MASS SPECTROMETRY
Mass spectrometry (MS) is a powerful analytical technique used to identify and quantify molecules based on their mass-to-charge ratio (m/z). It
plays a crucial role in clinical chemistry, enabling the analysis of complex biological samples, drug testing, and metabolite profiling.

INTRODUCTION TO MASS SPECTROMETRY
Principle: Mass spectrometry involves ionizing chemical compounds to generate charged particles (ions). These ions are then separated
based on their mass-to-charge ratio and detected to provide information about the molecular weight, structure, and concentration of the
analytes.
Applications: MS is used in clinical diagnostics, drug monitoring, metabolic analysis, and proteomics.

TYPES OF MASS SPECTROMETRIC TECHNIQUES Remember 8 familiarize the type , principle , applications & Examples
,

TYPE PRINCIPLE APPLICATIONS PROCEDURE EXAMPLE
_______________________________
Electron Impact (E1) ionizes samples by Identification of small 1. Sample is introduced Analysis of volatile organic
bombarding them with organic molecules and into the ionization compounds in
high-energy electrons. structural elucidation. chamber. environmental samples
This technique is typically 2. High-energy electrons
used for volatile and ionize the sample
thermally stable molecules, producing
compounds ions.
3. Ions are analyzed based
on their m/z ratios.
_______________________________
Matrix-Assisted Laser Desorption / uses a laser to ionize Analysis of large 1. Sample is mixed with a Proteomics and analysis of
_______________________________
Ionization MALDI ( samples embedded in a biomolecules such as matrix and applied to a complex biological
matrix material. The proteins, peptides, and target plate. samples
matrix absorbs the laser polymers 2. The matrix absorbs the
energy, aiding in the laser energy and
ionization of the sample transfers it to the
sample, ionizing it.
3. Ions are analyzed based
on their m/z ratios.
_______________________________
Electrospray Ionization (ES) ionizes samples by Analysis of biomolecules, 1. Sample is introduced Quantification of proteins
applying a high voltage to including proteins, nucleic into the ion source as a and metabolites in
a liquid sample, producing acids, and metabolites liquid. biological fluids
charged droplets that 2. High voltage generates
evaporate to yield ions a spray of charged
droplets.
3. Droplets evaporate,
leaving ions that are
analyzed based on their
m/z ratios.
_______________________________
Time of flight (TOF) measures the time ions High-resolution analysis of 1. Ions are generated and High-throughput
take to travel through a biomolecules and small accelerated by an proteomics and
flight tube to a detector. molecule electric field. metabolomics studies.
The time of flight is 2. Ions travel through a
proportional to the ion's flight tube, with their
mass-to-charge ratio time of flight measured.
3. The m/z ratios are
calculated based on the
time of flight.
_______________________________
Quadropole uses a set of four parallel Quantitative analysis of 1. Ions are generated and Drug testing and
rods to filter ions based on small molecules and passed through the quantitative analysis of
their m/z ratios. It can targeted proteomics quadrupole. biomarkers
operate in either single 2. The quadrupole creates
ion monitoring or multiple an electric field that
reaction monitoring allows ions of specific
modes m/z ratios to pass
through to the detector.
_______________________________
Orbitrap traps ions in an High-resolution and 1. Ions are trapped in an Detailed analysis of
electrostatic field and accurate mass electrostatic field complex biological
measures their oscillation measurements in within an orbitrap. samples and
frequency to determine proteomics and 2. The frequency of ion characterization of
their m/z ratios metabolomics oscillations is proteins
measured to determine
the m/z ratio.
______________________________
lon trap traps ions in an Structural elucidation and 1. Ions are trapped in a Detailed analysis of
electromagnetic field and fragmentation studies three-dimensional or protein structures and
sequentially ejects them quadrupole ion trap. fragmentation patterns
based on their m/z ratios 2. The trap selectively
ejects ions based on
their m/z ratios for
detection

PARTS OF A MASS SPECTROMETRY SYSTEM
Ionization source Vacuum System
Mass Analyzer Data acquisition and analysis system
Detector Sample introduction system

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CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION

PART FUNCTION OTHER INFORMATION SIGNIFICANCE
_______________________________
lonization source Converts the sample into ions. Types: Proper ionization is critical for
Different ionization sources are used Electron Impact (EI): accurate and efficient analysis.
based on the sample type and analysis Suitable for volatile and small
requirement molecules.
Matrix-Assisted Laser
Desorption/Ionization
(MALDI): Ideal for large
biomolecules.
Electrospray Ionization
(ESI): Used for biomolecules
in solution.
_______________________________
Mass analyzer Separates ions based on their mass-to- TYPES The mass analyzer's resolution
charge ratio. Quadrupole: Filters ions and accuracy impact the quality of
based on m/z ratios. the data.
Time-of-Flight (TOF):
Measures ion flight time to
determine m/z ratios.
Orbitrap: Measures ion
oscillation frequency for high-
resolution analysis.
_______________________________
Detector Detects and quantifies the separated Types: Accurate detection is crucial for
ions Electron Multiplier: Detects reliable quantification and
ions by amplifying the signal. identification
Time-to-Digital Converter:
Measures the time of flight of
ions in TOF MS.

_______________________________
vacuum System Maintains a high vacuum environment Types: Ensures optimal ionization and
to prevent ion collisions with air Roughing Pump: Creates a accurate measurement by
molecules preliminary vacuum. minimizing background
High-Vacuum Pump: interference
Maintains the high vacuum
required for the mass
spectrometer.
_______________________________
Data Acquisition and Analysis Captures and processes data from the Components: Effective data analysis is essential
system detector Software: Analyzes mass for interpreting results and
spectra, identifies peaks, making accurate conclusions
and quantifies ions.
Computer Interface:
Allows interaction with the
mass spectrometer and data
visualization.

_______________________________
Sample Introduction System Introduces the sample into the Types: Consistent sample introduction
ionization source. Autosamplers: For ensures reproducibility and
automated sample accuracy of results.
introduction.
Manual Injectors: For
manual sample loading.

CALIBRATION AND MAINTENANCE OF MASS SPECTROMETRY SYSTEMS
a. Calibration
Importance: Ensures accurate mass measurement and quantification.
Methods:
o Use of Calibration Standards: Regular calibration with standards of known m/z ratios.
o Mass Calibration: Adjusting the mass analyzer to correct any deviations.
Frequency: Routine calibration is necessary for maintaining system accuracy.
b. Maintenance
Ion Source Care: Regular cleaning and maintenance of the ionization source to prevent contamination.
Mass Analyzer Checks: Periodic inspection and adjustment to ensure optimal performance.
Detector Maintenance: Ensuring the detector is functioning properly and calibrating it as needed.
Vacuum System: Regular maintenance to prevent leaks and ensure consistent vacuum levels.
Cleaning: Routine cleaning of sample introduction components and other system parts to prevent cross-contamination.
Conclusion
Mass spectrometry is a versatile and essential analytical tool in clinical chemistry, offering detailed information about molecular
composition, structure, and concentration.
Understanding the various mass spectrometric techniques and the components of a mass spectrometry system is crucial for effective
analysis and accurate results.

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CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
POTENTIOMETRY
Potentiometry is an analytical technique used to measure the _______________________________of
electrical potential a
solution relative to a _______________________________electrode.
reference
This technique is valuable in clinical chemistry for determining the concentration of ions and
assessing the pH of solutions.
Introduction to Potentiometry
Principle: Potentiometry involves measuring the potential difference between a working
electrode and a reference electrode in a solution. This potential difference is related to the
concentration of specific ions or the pH of the solution, following the Nernst equation.
Applications: Used for pH measurement, ion concentration analysis, and redox potential
determination.

Types of Potentiometric Techniques
TYPE PRINCIPLE APPLICATIONS PROCEDURE EXAMPLE
____________________________
pH measurement Measures the hydrogen ion Used in clinical 1. Immerse the pH Measurement of blood
concentration in a solution, laboratories to measure electrode in the pH to assess acid-base
providing the pH value. blood pH, urine pH, and solution. balance
The pH electrode consists of a other bodily fluids 2. The electrode
glass membrane sensitive to generates a potential
hydrogen ions. proportional to the
hydrogen ion
concentration.
3. The potential is
converted to pH using
calibration curves.
____________________________
Ion-Selective Electrode (ISE) Measures the concentration of Analysis of electrolyte 1. Place the ion- Determination of
_____________________________
Measurement specific ions in a solution using levels in blood, urine, and selective electrode in potassium levels in
an ion-selective electrode. other biological fluids the solution. serum
Each ISE is designed to 2. The electrode
respond to a particular ion, generates a potential
such as sodium, potassium, or related to the ion
chloride concentration.
3. The potential is
measured and
compared to
calibration standards
to determine ion
concentration.
____________________________
Redox Potential Measurement Measures the electrode Used in studies of 1. Immerse a redox Assessment of oxidative
____________________________ potential related to the redox oxidation-reduction electrode in the stress in biological
reactions in a solution. reactions and in solution. samples
The redox potential indicates evaluating the oxidative 2. The electrode
the tendency of a solution to status of biological measures the
gain or lose electrons samples potential related to
the redox reaction.
3. The potential is used
to assess the redox
status or the
presence of specific
redox-active species.
____________________________
Potentiometric Uses potentiometry to Quantitative analysis of 1. Add a titrant to the Determination of the
_____________________________
titration determine the endpoint of a acids, bases, and other sample solution concentration of an
titration by monitoring the substances in complex while monitoring the unknown acid in a
change in potential as a mixtures potential. sample
reagent is added. 2. The potential
changes as the
titration progresses.
3. The endpoint is
identified by a
significant change in
potential.

PARTS OF A POTENTIOMETRY SYSTEM
Electrodes Calibration Standards
Potentiometer Data Acquisition and Analysis System
Sample Holder Temperature Control

PART FUNCTION OTHER INFORMATION SIGNIFICANCE
___________________________
Electrodes Measure the electrical potential and Types: Accurate electrode performance
interact with the solution Reference Electrode: is essential for reliable
Provides a stable reference measurements.
potential, such as the
Silver/Silver Chloride
(Ag/AgCl) electrode.
Working Electrode: Detects
the potential change in
response to the analyte, such
as a pH electrode or ion-
selective electrode.

Prepared by: Asst. Prof Rahimyar Khan T. Pata, RMT, MD Page 9 of 12
CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
____________________________
Potentionmeter Measures and displays the potential Features: The potentiometer ensures
difference between the working and Voltage Measurement: accurate potential measurement
reference electrodes Measures the potential in and data acquisition
millivolts.
Calibration Controls:
Allows calibration with
standard solutions.
____________________________
Sample Holder Holds the sample and electrodes Types: Proper sample handling ensures
during measurement. Electrode Cells: Designed to consistent results and prevents
accommodate different types contamination.
of electrodes and samples.
Beakers and Flasks: Used
for holding solutions during
titrations or measurements.
___________________________
calibration standards Provide reference values for Types: Calibration standards are crucial
calibration of the potentiometric pH Buffers: Used for for ensuring accuracy and
system calibrating pH electrodes. reliability in measurements.
Ion Standards: Used for
calibrating ion-selective
electrodes.
___________________________
Data Acquisition and Captures and processes the Components: Effective data analysis ensures
___________________________
analysis system potentiometric data. Software: Analyzes potential accurate interpretation and
____________________________ data and provides results, reporting of results
such as pH or ion
concentration.
Computer Interface: Allows
interaction with the
potentiometer and data
visualization.
______________
Temperature Maintains a consistent temperature Types: Temperature control ensures
_______________
control during measurements, as temperature Thermostatic Baths: Used accurate and reproducible
can affect electrode performance. to control the temperature of measurements.
the solution.
Temperature Probes:
Measure the temperature of
the sample.

CALIBRATION AND MAINTENANCE OF POTENTIOMETRY SYSTEM
a. Calibration
Importance: Ensures accuracy and reliability of measurements.
Methods:
o Regular Calibration: Using standard solutions for pH and ion-selective electrodes.
o Adjustment: Calibrating the potentiometer with known reference values.
Frequency: Regular calibration is necessary to maintain system performance.
b. Maintenance
Electrode Care: Regular cleaning and proper storage of electrodes to prevent contamination and deterioration.
System Checks: Periodic inspection of the potentiometer and other system components.
Calibration Standards: Regular preparation and use of fresh calibration standards to ensure accuracy.
Cleaning: Routine cleaning of sample holders and other components to prevent buildup and contamination.
Conclusion
Potentiometry is an essential analytical technique in clinical chemistry, providing valuable information on ion concentrations, pH levels,
and redox potentials.
Understanding the different potentiometric techniques and the components of a potentiometry system is crucial for accurate and reliable
measurements.

AUTOMATION IN CLINICAL CHEMISTRY
Automation in clinical chemistry has revolutionized laboratory operations, enhancing efficiency, accuracy, and throughput. Automated techniques
streamline processes, reduce manual errors, and increase productivity.

Introduction to Automation in Clinical Chemistry
↑
Principle: Automation involves using machines and technology to perform laboratory tasks that were traditionally done manually. It
includes sample handling, analysis, and data management.
Applications: Automated techniques are used for high-throughput testing, routine assays, and complex analyses, such as immunoassays
and molecular diagnostics.
TYPES OF AUTOMATED TECHNIQUES
TECHNIQUE PRINCIPLE APPLICATIONS TYPES PROCEDURE EXAMPLES
_______________________
Automated perform assays Used for routine ____________________________Analyzers:
clinical chemistry 1. Sample Automated
________________________
Analyzers and tests with clinical tests, Measure analytes in serum, plasma, Loading: clinical
minimal human such as blood or urine. Examples include those Samples are chemistry
intervention. chemistry using colorimetric, fluorometric, or automatically analyzers
They handle panels, chemiluminescent assays. loaded into the such as the
sample electrolyte _________________________
Immunoassay Analyzers: analyzer. Siemens
preparation, assays, and liver Used for hormone levels, drug 2. Reagent ADVIA or
reagent addition, function tests testing, and infectious disease Addition: Roche Cobas
and markers, employing techniques like Reagents are system
measurement ELISA or chemiluminescence. dispensed and
automatically. mixed with
samples.
3. Measurement:
Various
detection

Prepared by: Asst. Prof Rahimyar Khan T. Pata, RMT, MD Page 10 of 12
CC1 LECTURE: ANALYTIC TECHNIQUES/INSTRUMENTATION
methods (e.g.,
photometric,
fluorometric)
are used to
determine
analyte
concentrations.
4. Data
Processing:
Results are
calculated and
reported.
___________________________
Automated sample manage the Used to Types: 1. Sample Automated
___________________________
Handlers transport and streamline Robotic Systems: Automated Preparation: track systems
processing of workflows, robots handle sample placement, Samples are used in large
samples, especially in pipetting, and mixing. processed, laboratories
including high-volume Conveyor Systems: Transport diluted, or to connect
aliquoting, laboratories samples between different mixed different
mixing, and analytical instruments and automatically. analytical
transferring workstations. 2. Transport: instruments
between Samples are
different stages moved to
of testing different
stations for
further
analysis.
_________________________
Automated pipetting perform precise Used for sample Types: 1. Pipetting: Tecan
_________________________
systems liquid handling preparation, ________-Channel
single Pipettors: Automated Freedom EVO
tasks, such as reagent addition, Dispense one sample at a time. systems and Hamilton
dispensing and and mixing in _________-
Multi Channel Pipettors: aspirate and Microlab
transferring various assays Handle multiple samples dispense STAR systems
liquids between simultaneously, increasing liquids with
containers throughput. high precision.
2. Mixing: Some
systems
include mixing
functions to
ensure
homogeneous
samples.
_________________________
Automated liquid Handling These systems Used for hi