Lecture 3_ Osmometry..pptx

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Biomedical
Techniques
CLSB-222
Dr. Ahmad Alamri, M.H.S, Ph.D.
Assistant professor of clinical
laboratory sciences
[email protected]
Osmometry
 Osmosis
Osmosis is the diffusion
of water molecules from
a low concentration
solution to high
concentration solution,
across a semi-permeable
membrane.

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 Osmosis
Solution
A solution is a
homogeneous
mixture consisting of
Solute
Solvent.
The solute is the
substance that is
being dissolved, while
the solvent is the
dissolving medium.
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 Osmosis: Important Process
for cell survival
Cell survives by balancing water uptake and
loss

Cell membrane is made of phospholipids and is
semi-permeable (Selectively permeable)
Control what molecules or ions to pass
through the phospholipid bilayer in the cell &
what goes out of the cell.

Process of osmosis is important as cells can burst if
they take on too much water or collapse if they lose
too much.
Osmotic pressure is the pressure required to stop
water from diffusing through a membrane by
osmosis.
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 Osmosis
An isotonic solution is one that
has the same concentration of
solutes both inside and outside the
cell.

A hypertonic solution is one that
has a higher solute concentration
outside the cell than inside

A hypotonic solution is the one
that has a higher solute
concentration inside the cell than
outside.
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 Osmolarity
Osmolarity is the number of osmoles of solute per
liter of solution
Explanation:
An osmole is 1 mol of particles that contribute to the
osmotic pressure of a solution.
For example, NaCl dissociates completely in water to
form Na⁺ ions and Cl⁻ ions.
Thus, each mole of NaCl becomes two osmoles in
solution: 1 mol of Na⁺ and 1 mol of Cl⁻.
A solution of 1 mol/L NaCl has an osmolarity of 2
Osmol/L.
A solution of 1 mol/L CaCl2 has an osmolarity of 3
Osmol/L
(1 mol Ca2+ and 2 mol Cl-). 7
 Cells cannot survive if
the osmolarity if their
surroundings is much different
Osmolarity from their own

If the osmolarity of the
Extracellular fluid (ECF)
becomes too low (hypotonic),
water will fill the cells. This
increases their volume and
may lead to their rupture
(cytolysis)

If the osmolarity of the ECF
becomes too high
(hypertonic), water will leave
the cells. This decreases
volume and may lead to their
shrinking (crenation

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 Osmolality
Osmolality is the number of solute particles in
1 kg of solvent

Osmolarities are expressed as milliosmoles
per kilogram of water (mOsm/kg H 2O).
Higher osmolality means more particles
in the solution.
Lower osmolality means particles more
diluted.

Blood osmolality : A normal result is typically
275 to 295 milliosmoles per kilogram.
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Osmolality

Osmolality increases when we are
dehydrated and decreases when we have a
fluid buildup.
Our body has a unique way to control
osmolality.

Plasma osmolality : determine several conditions
like diabetes, dehydration and shock

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 Colligative
Properties
Depend only on the number of
solute particles present not the
identity of the solute particle
Vapour Pressure Depression
Freezing Point Depression
Boiling Point Elevation
Osmotic Pressure
Colligative properties are used
for the measurement of the
osmolality of solution (when
solute is added)
Osmometer
Used to measure the osmolality
in various biological samples,
from blood plasma to human
tears

Measures osmotic concentration
on the scale of milliosmoles
(mOsm) per unit of weight
(mOsm/kg)
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 Type of Osmometers

Freezing Point
Vapour Pressure Membrane
Depression
Osmometer Osmometers
Osmometer
measure Measure vapor Measure the
freezing point pressure of the osmotic pressure
depression solution of a solution
separated by a
semi-permeable
membrane

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Freezing Point Depression
Osmometer
Principle :
Based on the colligative property of freezing point
depression.
If concentration of the solute is increased, it will lower its
freezing point of solution relative to pure solvent
e.g., water freezes at 0 °C , If we dissolve 10gm of
NaCl to 10 ml of water , the freezing point go down to
-5.9c

Most used method for measuring the osmolality of serum or
urine in clinical laboratory.

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 Freezing Point
Depression
Osmometer:
Process
During this process, the solution is
supercooled below 0 °C
At a certain temperature, the freezing
process is initiated by a rotation of the
stirring wire.
The formation of ice crystals causes the
release of thermal energy, thus rising
the temperature of the sample.
After equilibrium is reached, melting and
thawing of ice crystals are balanced and
the sample’s temperature stays
constant.
This marks the real freezing point of the
sample. 16
 Vapor Pressure
Osmometer
Determine the concentration of osmotically
active particles that reduce vapor pressure of
solution
Principle
 At a given temperature the vapor pressure
of a solution is less than that of the pure
solvent.
 The vapor pressure osmometer operates on
the principle of differential vapor pressure
between a pure solvent and a solution
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Vapor Pressure Osmometer

Application: Drawback:
Monitoring diuretic Volatile gases if
therapy present will increase
Quantitation: Sodium the vapor pressure of
in isotonic solutions solvent)
Studying colligative Hence not
properties of recommended for
parenteral solution clinical laboratory
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