Clinical Chemistry 1st Week PDF

Summary

This document provides an overview of clinical chemistry, including basic units, conversion factors, and temperature conversions. It also details common laboratory procedures and concepts.

Full Transcript

CLINICAL CHEMISTRY

CLINICAL CHEMISTRY SELECTED
ACCEPTED NON-SI
1ST WEEK Minute (time) (60s) min
Hour (3,600 s) h
ISO – International Organization for Standards
Day (86,400 s) d
IUPAC – International Union of Pure and
Liter (volume) (1 dm³ = 103 m³) L
Applied Chemistry
Angstrom (0.1 nm = 1010 A
CLSI - Clinical and Laboratory Standards
1m)
Institute
SAMHSA – Substance Abuse and Mental
Health Services Administration COMMON TEMPERATURE CONVERSIONS
- Certifies laboratories to conduct forensic
CELSIUS (CENTIGRADE) TO FAHRENHEIT
drug testing for federal agencies
°C (9/5) + 32 (Multiply Celsius temperature by 9;
BASIC UNITS AND CONVERSION FACTOR
divide the answer by 5, then add 32)
SI UNITS Example: 37°C = 99°F
Solution:
recommended because compounds react on °F = 37°C (9/5) + 32
a molar basis °F = 333/5 + 32
Recommended report of analytes: mmol/L °F = 66.5 + 32
Liter is used as a reference volume °F =98.6 or 99 (always round off)
Unit for enzyme: IU/L or U/L or katal unit per liter °F = 99
KU/L
FAHRENHEIT TO CELSIUS (CENTIGRADE)
BASE QUANTITY NAME SYMBOL
(°F-32)5/9 (Subtract 32 and 4 divide the answer
Length Meter m
by 9, then multiply that answer by 5)
Mass Kilogram kg
Example: 99°F = 37°C
Time Second s
Solution:
Electric current Ampere A
°C = (99°F-32) 5/9
Thermodynamic Kelvin K
°C = (67) 5/9
temperature
°C = 335/9
Amount of Mole mol
°C = 37.22 / 37 (always round off)
substance
°C = 37
Luminous intensity Candela cd
SELECTED DERIVED
Frequency Hertz Hz
Force Newton N
Celsius Degree Celsius °C
temperature
The predominant practice for temperature
measurement uses the Celsius (°C) or centigrade
scale;

The Sl designation for temperature is the Kelvin (K)
scale
Catalytic activity Katal kat

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Least analyte to measure: atto 5. Red color absorbs 400-500 nm light and
Least analyte to measure (lumabas sa board transmits light of 600-650 nm.
exam): femto (kase walang atto sa choices) 6. A green-colored solution would show highest
transmittance at 525
CONVERSION FACTOR (CF)
NOTE:
ANALYTES Conventional SI CF
Albumin g/100 mL g/L 10 Ultraviolet light = wavelength increases
Bilirubin mg/dL umol/L 17.1 frequency decreases
BUN mg/dL mmol/L 0.357 Wavelength and Frequency are inversely
proportional
Na, K, CI meq/dL mmol/L 1.0
Frequency and Energy are directly proportional
meq/dl
Calcium mg/dL mmol/L 0.25
Cholesterol mg/dL mmol/L 0.026
Creatinine mg/dL Umol/L 88.4 ] frequency
Glucose mg/dL mmol/L 0.0555
Thyroxine ug/dL nmol/L 12.9
Total protein g/dL g/L 10
Triglyceride mg/dL mg/dL 0.0113
Uric Acid mg/dL mmol/L 0.0595
ANALYTES Conventional SI CF
Hb g/dL g/L 10
HCO mEq/L mmol/L 1
Osmolality
Lithium
PC𝑶𝟐 mmHg kPa 0.133
P𝑶𝟐
Ammonia ug/dL umol/L 0.587 Malakas na frequency: Cosmic
Cortisol ug/dL umol/L 0.276
SPECTROPHOTOMETRY
Creatinine ml/min ml/s 0.0167
Clearance 1. measurement of light TRANSMITTED by a
Folic Acid ng/mL nmol/L 2.27 SOLUTION
Iron mg/dL umol/L 0.179
Magnesium mEq/L mmol/L 0.5 2. LIGHT/RADIANT SOURCE: source of
POLYchromatic light
Phosphorus mg/dL mmol/L 0.323 a. Tungsten light bulb/incandescent
Vit B12 ng/mL pmol/L 0.0738 tungsten/tungsten iodide lamp
most commonly used light
b. Hollow Cathode lamp: AAS
ANALYTICAL METHODS c. Deuterium discharge lamp and the
mercury arc lamp:
1. 400-700nm = visible spectrum most commonly used source of UV
2. 700 nmB = Infrared region
4. A solution transmits light corresponding in 3. ENTRANCE SLIT: minimizes UNWANTED stray light.
wavelength to its color, and usually absorbs light a. Stray light
of wavelengths complementary to its color
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the MOST COMMON cause of LOSS (or transmittance) when a substance
OF LINEARITY. with a narrow natural bandpass
b. Most common cause of stray light: Second (sharp absorbance or transmittance
order Spectra peak) is scanned.
i. Deteriorated optics ii. Didymium or holmium oxide filter
ii. Light dispersed by a darkened iii. Mercury vapor lamp
enveloped
iii. Extraneous room light 5. EXIT SLIT: Controls the Band pass/Band width
c. Absorbance error a. The narrower the bandpass, the greater the
Major effect of stray light photometric resolution. Bandpass can be
d. Sharp cutoff filters made smaller by reducing the width of the
type of filter best for measuring stray exit slit.
light Exit slit allows +/- 5 nm in a wavelength of
e. Neutral Density filter and Dichromate sol'n 500 nm (495-505)
verify absorbance accuracy on
linearity 6. CUVET- also called absorption cell/analytical
Example: A linearity study is performed cell/sample cell. It holds the solution
on a visible spectrophotometer at 650 a. Square cuvette has advantage over round
nm and the following absorbance cuvette
readings are obtained: b. Etched
c. scratched optical surfaces - Discarded
Concentration of Absorbance
d. alumina silica-most commonly used
Standard
e. glass cuvettes - for visible range, but absorbs
10.0 mg/dL 0.20
UV
20.0 mg/dL 0.41 f. Quartz-For UV radiation
30.0 mg/dL 0.62
g. Beer's law - unknown subs is directly
40.0 mg/dL 0.79
proportional to absorbed light and inversely
50.0 mg/dL 0.92 proportional to transmitted light
The study was repeated using freshly
prepared standards and reagents, but Concentration = absorbance
results were identical to those shown. What Absorbance and Transmittance are
is the most likely cause of these results? inversely proportional
A. Matrix interference
B. Stray light Formulas
▪ A = 2.0 – log%T
4. MONOCHROMATOR -isolates specific ▪ A = log 1/T
wavelength of light. ▪ A = -log T
a. Grating: most commonly used. Example: A solution that has a
b. Colored glass filter: least expensive, not transmittance of 1.0%T would have an
precise, they are simple, inexpensive, and absorbance of:
useful ▪ A = 2.0 – log%T
c. Prism: Short wavelengths are refracted more ▪ A = 2.0 – log 1.0
than long wavelengths ▪ A=2
d. Quality Assurance
i. Wavelength accuracy is verified by Cu = Au/As x Cs
determining the wavelength reading ▪ Where Cu = Concentration of Unknown
that gives the highest absorbance ▪ Au = Absorbance of unknown
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▪ As = absorbance of standard a. Reagent blank (may sariling kulak )
▪ Cs = Concentration of known Contains the same reagents used for
▪ Example: A procedure for cholesterol is the test
calibrated with a serum-based reagent blank corrects for absorbance
cholesterol standard that was caused by the COLOR OF THE Reagent
determined by the Abell-Kendall Adjust the spectrophotometer to 0 Abs,
method to be 200 mg/dL. Assuming the 100 transmittance
same volume of sample and reagent No correction for interfering
are used, calculate the cholesterol chromogens or lipemia (clarity
concentration in the patient's sample problem)
from the following results: Ultracentrifuge is used to clear the
serum or plasma of chylomicrons

Standard Absorbance Absorbance Absorbance
Concentration of reagent of standard of patient b. Sample blank is used to subtract the intrinsic
blank serum absorbance of the sample usually caused
200 mg/dL 0.00 0.860 0.740 by hemolysis, icterus, turbidity, or drug
▪ Solution: interference
- it is performed by substituting the Saline for
Cu = Au/As x Cs
reagent
Cu = 0.740/0.860 x 200
REFLECTANCE PHOTOMETRY/REFLECTOMETRY
Cu = 172 mg/dL
1. Diffused light illuminates a reaction mixture in a
▪ Electricity and Patient’s concentration are carrier and the REFLECTED light is measured
inversely proportional 2. The intensity of light reflected is NONLINEAR in
relation to the concentration of the analyte
h. Lambert law - the absorbance increases 3. 100% reflectance is set with an opaque film
exponentially with an increase in the light called a white reference
path. 4. Examples: Bilirubinometer and Automated
reagent strip reader
7. PHOTODETECTOR - detects and converts
FLAME EMISSION PHOTOMETRY
transmitted light to electricity
a. Photomultiplier tube - Most common type, 1. measure the light emitted by a single atom
excellent sensitivity BURNED in a flame (Emission)
it should never be exposed to room light a. Flame color: Blue (hottest)
because it will burn out 2. Uses:
b. barrier layer cell/photocell/photovoltaic cell a. Sodium – Yellow
→ simplest detector. require no external b. Potassium – Violet
Voltage source c. Lithium/Rubidium – Red
c. photodiode - respond to a specific d. Magnesium/Copper – Blue
wavelength UV/Visible
d. phototube - Same as photocell, differs in that 3. Light intensity of atoms that are emitting
an outside voltage is required for operation energy=concentration

8. METER OR READ OUT DEVICE - displays output

9. BLANKING TECHNIQUE
Atomic Absorption Spectrophotometry (AAS)
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1. Atomizers - Convert ions to atoms c. Chemicals
a. Nebulizer
b. flame or a graphite furnace
2. Measures light absorbed by atoms dissociated
by heat
3. Uses: Unexcited Trace metals
a. Calcium
b. Copper
c. Magnesium
d. Lead
e. Aluminum
f. Lithium
g. Zinc

4. Flameless AAS
a. Uses electricity to break the chemical bonds CHEMILUMINESCENCE
instead of flame
Chemical reaction = light
b. Graphite cylinder holds the sample - Where
1. Emission of light is created from a chemical or
electricity passes thru to evaporates
electrochemical reaction. No excitation
Note: Flame – Dissociation, Light – Transmittance radiation, No monochromator.
2. Not needed in a chemiluminescent
immunoassay analyzer: Source lamp
FLUOROMETRY/MOLECULAR LUMINESCENCE 3. Oxidation reactions of luminol, acridinium
SPECTROPHOTOMETRY esters, and dioxetane (Ruthenium-included)
4. More sensitive than Fluorometry
1. measure amount of light intensity emitted by a 5. Enzyme (Bioluminescence) - Enhance of
molecule after excitation by electromagnetic chemiluminescence
radiation.
2. requires a Primary and Secondary TURBIDIMETRY
monochromator 1. Measures LIGHT blocked by a particle in a
a. primary monochromator - isolate the solution
wavelength for excitation (non- 2. For measuring abundant large particles
fluorescence) 3. Like spectrophotometer, the detector is behind
b. secondary monochromator - isolate the the cuvette
wavelength emitted by the fluorochrome 4. Dependent on:
3. Detector – detects fluorescing sample a. Concentration
4. Most spectrofluorometers use a high-pressure b. Size
xenon lamp
5. 1000 X more sensitive than spectrophotometer NEPHELOMETRY
6. Disadvantage - QUENCHING EFFECT (nawawala
1. determines the amount of scattered LIGHT.
yung fluorescence/diminishing)
2. Rayleigh's Law - Light scatters when the
a. pH
wavelength is greater than 10 times the
b. Temp – Hotter = low/decrease fluorescence
particle diameter
3. More sensitive than Nephelometry
4. The detector response is directly proportional to
concentration
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5. For measuring Ag-Ab complexes ii. Ideal for separating proteins of
6. Depends on: IDENTICAL size but w/DIFFERENT NET
a. Wavelength CHARGES
b. Particle size f. High-resolution protein electrophoresis -
separate proteins into as many as 12 zones
LASER LIGHTS
Flow cytometry 5. Detection and Quantitation
1. Narrow spectral width and small cross-sectional a. Densitometry - measures absorbance of - I
area with LOW divergence (do not scatter) stain. Scan and quantitative electrophoretic
2. Application: Coulter counter pattern
3. More sensitive than Spectrophotometer b. UV
4. Determination of structure and identification of
samples

ELECTROPHORESIS
1. Ampholyte – a molecule, such as protein,
whose net charge can be either positive or
negative
2. Isoelectric point (pl) – pH where protein has no
net charge
3. Particle with No net charge won't migrate
4. MIGRATION of Charged particles
a. Particles migrate towards anode (positive)
➔ At pH 8.6 proteins migrate and divide
to: Albumin, a1 globulin, a2 globulin,
beta globulin, and gamma globulin
b. Iontophoresis – migration of small ions
CHROMATOGRAPHY
c. Zone electrophoresis – migration of charged Based on solubility / soluble components
macro molecules (protein) 1. Separation of soluble COMPONENTS in a
d. Capillary Electrophoresis solution.
2. Rf (retention factor) value = distance leading
edge of component moves/total distance of
solvent
3. Paper Chromatography (Whatman paper) –
sugar & amino acid
4. Thin Layer Chromatography (silica gel or
alumina) – Drugs/ Drug screening
5. Gas Chromatography
i. separation is performed in narrow-bore
a. the elution order of volatiles is usually based
fused silica capillaries
upon the Boiling Point
ii. molecules are separated by electro-
b. Sample: blood / serum / plasma
osmotic flow (EOF)
c. Mobile phase – Water/Gas
iii. Positive (+) charge → moves faster
d. Stationary phase – Paper
Negative (-) charge → moves slower
e. GC-MS (Gas Chrom-Mass Spectrometry) -
e. Isoelectric Focusing (isolate the charge)
Gold standard for DRUG TESTING/drug of
i. molecules migrate thru a pH
abuse
gradient
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i. test shall be challenge within 3. Freezing point depression osmometry – most
SPECTROPHOTOMETRY 15 days after commonly used method for measuring the
receipt of the result through GAS changes in colligative properties in a solution.
CHROMATOGRAPHY/MASS 4. Osmometer Reference solution – NaCl
ii. If the sample is not challenged for 15 5. Each osmole Vapor pressure is lowered by 0.3
days it should be discarded mmHg/g
iii. East Avenue: reference lab for DT 6. Each osmole Boiling point is raised by 0.52°C
7. Freezing point osmometer is sensitive to ethanol
6. MS/MS (Tandem Mass spectrometry) – detect while vapor pressure osmometer is not
20 inborn errors of Metabolism. 8. Osmolal gap, which is the difference between
a. Vacuum - needed to prevent collision the measured osmolality and the calculated
between fragments osmolality.
b. Principle of New born screening a. Osmolal gap indirectly indicates the
presence of osmotically active substances
7. Liquid Chromatography b. Osmolal gap formula:
a. HPLC (High Performance Liquid
Measured osmolality - calculated osmolality
Chrom)/normal phase – most widely used,
uses _____ for fast separations. 9. Not a contributor to OSMOLALITY: Lipid and
i. Polar stationary protein
Polar – water soluble , to
separate polar and non-polar NOTES:
substances. H2O with salt: Boiling point - >100, Freezing point
ii. Uses: Rapid HbA1c -