Molecular Biology (Laboratory) Instruments for Measurement PDF

Summary

This document provides an overview of different types of laboratory glassware, such as volumetric flasks and beakers, and their usage in experiments. It explains how to use these instruments for accurate measurements and details the key properties of different glassware types. It also includes instructions on reading liquid levels and menisci.

Full Transcript

Molecular Biology (Laboratory)
1st Sem 3rd Year
Topic: Instruments for Volumetric flask
Measurements
Large amounts of
Types of Glasswares standard solutions and
reagents that require highly
Flasks, beakers, and graduated accurate concentrations
cylinders are used to hold solutions. Flat-bottomed bulb
Volumetric and Erlenmeyer flasks with elongated neck
are two types of containers in calibrated to hold a set
general use in the clinical laboratory volume at a mark on the neck.
Aka, graduated flask or measuring
Class A and Class B flask
Glassware
Ehrlenmeyer flask
Class A
Named for
has the highest level of accuracy out Emil Erlenmeyer
of all the different types of The flask is
glassware. often used for stirring
manufactured from borosilicate or heating solutions
material. and is purposefully
ass A borosilicate glassware has designed to be useful for those
superior thermal and chemical tasks.
resistance properties, which are Used in solution preparation but are
helpful when working with less accurate than volumetric flasks.
chemicals common in laboratory Used in preparing a solution of
experiments. known volume rather than
determining the volume
Class B
Beakers
made for more general-purpose use They are also used
around the laboratory. to catch liquids
manufactured from soda-lime glass, from titrations and filtrates
which is suitable for most materials from
but not for long-term chemical filtering operations.
holding or exposure They would not be accurate in
⚬ manufactured from soda-lime determining the total volume of an unknown
glass, which is suitable for most fluid because the markings are not
materials but not for long-term calibrated to a level of
chemical holding or exposure accuracy for that purpose.
Used to hold stock solutions or
diluents for short-term storage or during
laboratory procedures
Molecular Biology (Laboratory)
1st Sem 3rd Year
To read the level of the liquid properly
Graduated cylinder
If the meniscus is
Tall flask with a concave meniscus,
multiple volume read at the lowest
gradations level of the curve.
The purpose of If the meniscus is
this flask is to aliquot convex, take your
volumes of a fluid in measurement at the highest point of
making up a reagent the curve
dilution or to
determine the volume of an To read the level of the liquid properly
unknown fluid.
Has a higher degree of accuracy Water, or clear
than an Ehrlenmeyer flask since the liquids – read the
volume markings are graduated to measurement at the
at least 5% of the total volume. bottom of the
The sizes routinely used are 10, 25, meniscus.
50, 100, 500, 1,000, and 2,000 mL For mercury,
or liquids with color - read the
Reading a meniscus measurement at the top of the
meniscus
The meniscus is the curve seen at
the top of a liquid in response to its PIPETTE CLASSIFICATION
container. The meniscus can be
either concave or convex,
depending on the surface tension of
the liquid and its adhesion to the wall
of the container

To read the level of the liquid properly

Eye should be at
the same level as the
bottom of the meniscus
Sometimes a white
card or a white card with a
black mark on it will help a
person to see the meniscus clearly.
Molecular Biology (Laboratory)
1st Sem 3rd Year
To Deliver A TC pipette holds or contains a
particular volume but does not
While in ‘TD’ marked pipette, the dispense that exact volume,
delivered quantity of liquid whereas a TD pipette will dispense
corresponds to the capacity printed the volume indicated
on the pipette
Blowout and self-draining
Pipettes that are
calibrated “to deliver” A blowout pipette has a continuous
(TD) but with no etched etched ring or two small, close,
rings on the top should continuous rings located near the
be allowed to drain out top of the pipette. This means that
the fluid since the volume has been the last drop of liquid should be
calibrated in this manner. expelled into the receiving vessel.
Pipettes that are calibrated TD but Without these markings, a pipette is
with etched rings on the top should self-draining, and the user allows
have the last drop blown out if the the contents of the pipette to drain
full volume is to be delivered by gravity

To Contain Measuring pipettes

In a ‘TC’ marked pipette, Measuring pipettes
the contained quantity of the deliver multiple volumes and
liquid corresponds to the capacity are used when less accuracy
printed on the pipette of measurement is required,
Not used often in clinical such as for delivering
chemistry. reagents or small amounts of
This type of pipette is solvent.
used when diluting a highly This type of pipette
viscous fluid such as whole blood should not to be used for
A TC pipette is calibrated to contain making standard solutions or
the designated volume so, in order quality control materials.
to accurately dispense the full Mohr and Serological pipets
volume, the pipette must be rinsed
out in the diluting fluid several time Transfer pipettes

TD vs. TC Transfer pipettes deliver one volume
and are used when a higher degree
The major difference is the amount of accuracy is required.
of liquid needed to wet the interior This type of pipette is used for
surface of the pipette and the preparation of standard solutions to
amount of any residual liquid left in be used in calibration.
the pipette tip Transfer pipettes resemble
measuring pipettes except that only
Molecular Biology (Laboratory)
1st Sem 3rd Year
one measurement mark appears on
the neck and there is a round or
cylindrical bulb toward the middle or
base of the pipette. Volumetric transfer pipettes vs.
Ostwald-Folin pipettes, and Ostwald-folin vs. Sahli vs. Micropipettes
automated micropipettes
Ostwald-Folin pipettes
Serological pipet vs. Mohr have a bulb closer to the
delivery tip unlike volumetric
Serological measuring pipette which has at center.
pipettes are graduated so that These (OF) are used for
multiple volumes can be accurate measurement of
delivered?ered. Typical serological viscous fluids, such as blood or
pipette volumes range from a total serum. In contrast to volumetric
volume of 0.2 ml to 10.0 mL and pipette, an Ostwald-Folin
have gradations extending into the pipette has an etched ring near
tip of the pipette. the mount piece, indicating it is a
They are termed serological blow out pipette. With the use of
because they are designed to easily pipetting bulb, liquid is blown out of
make dilutions or titers of patient the pipette only after blood or serum
serum for serological pro?cedures. has drained to the last drop in
They are termed serological delivery
because they are designed to easily The volumetric
make dilutions or titers of patient transfer pipettes is
serum for serological procedures calibrated to deliver
accurately a fixed volume of
Mohr pipettes a dilute aqueous
solution
Graduated, but the markings Sahli pipettes
do not extend into the tip. Commonly are small transfer
these pipettes are available in total pipettes similar to
volumes of 2.0, 5.0, or 10.0 mL, but Ostwald-Folin pipettes
since there is no frosted ring at the but are used for making
mouthpiece, they are not blown out dilutions of whole blood,
to deliver the full volume. typically for hematology
It is a self-draining pipette, but procedures
the tip should not be allowed to Micropipettes
touch the vessel while the pipette is pipettes to measure
draining microliters of volume. Inner wall of
pipette can be coated with liquid so
most micropipettes are calibrated to
contain (TC) that stated volume
rather than to deliver it. a pipette
with a total holding volume of less
Molecular Biology (Laboratory)
1st Sem 3rd Year
than 1 mL; it may be designed as A pipette with a pipetting capability
either a Mohr or a serological of less than 1 mL is considered a
pipette micropipette, and a pipette that
dispenses greater than 1 mL is
called an automatic micropipette
Disposable pipettes
Multichannel Pipettes
Disposable transfer Multichannel
pipettes may or may not pipettes generally
have calibration marks and come with either 8 or
are used to transfer solutions 12 pipette heads,
or biologic fluids without easily allowing for a
consideration of a specific single device to fill
volume. multiple wells at a
These pipettes should not be used in single time. This
any quantitative analytic techniques enables the user to
quickly and easily fill
Automatic Pipettes multi-well plates used
Advantages: in tissue culture,
Safety drug screening, or enzyme assays.
Stability Multichannel pipettes are able to
Ease of use attach multiple pipette tips to a
Increased precision single handle and can then be used
Save time to dispense a fixed volume of fluid
Less cleaning (tips are to multiple wells, such as in delivery
disposables to a multiwell microtiter plate
Most routinely used pipette in
today's clinical chemistry laboratory. Automatic pipettes can also be categorized
Automatic pipettes come in a variety according to their mechanism
of types including fixed volume,
variable volume, and multichannel Air-displacement
It may be a fully Relies on a piston for
automated/self-operating, semi creating suction to draw the
automatic, or completely manually sample into a disposable tip
operated device that must be changed after
Pipette associated with only one each use.
volume is termed a fixed volume; The piston does not
models able to select different come in contact with the
volumes are termed variables. liquid
The available range of volumes is 1 Positive displacement
μL to 5,000 mL. The widest volume Positive-displacement
the range usually seen in a single pipettes work like a syringe. The
pipette is 0.5 μL to 1,000 μL. samples come into direct contact
with the tip and piston, increasing
Molecular Biology (Laboratory)
1st Sem 3rd Year
precision and accuracy and Liquid examples:concentrated
eliminating the air cushion. The sulfuric acid, concentrated
direct contact with samples results in hydrochloric acid, biological
the aspiration force remaining samples, Iodine-125
constant.
It does not require a different tip for Detergent containing/ foaming liquids
each use Sealing of piston with the tip wall
reduces foaming and Sealing of
Dispenser pipettes piston with the tip wall reduces
automatic pipettes that foaming and bubble formation.
obtain the liquid from common Liquid examples: serum, SDS,
reservoir and dispense it Mucasol
repeatedly
Calibration of pipettes
Positive displacement pipettes are The most accurate method of
recommended for: validation is gravimetric.
A gravimetric method can
Viscous and dense liquids accomplish this task by delivering
Samples are aspirated and and weighing a solution of known
dispensed more slowly than water in specific gravity, such as water. A
a traditional air cushion pipette, currently calibrated analytic balance
which can lead to inaccurate and at least Class 2 weights should
volumes and residue attached to the be used. A pipette should be used
tip wall. Syringe/ Piston tips wipe the only if it is within ±1.0% of the
tip walls clean. expected value following calibration
Liquid examples: Tween 20, sulfuric
acid, concentrated DNA / RNA, Other pipette accuracy testing
glycerol
Photometric methods:
Volatile liquids Spectrophotometry
Evaporation can lead to inaccuracy Uses Potassium dichromate, or
and the pipette dripping In traditional another colored liquid with
air-cushion pipettes, positive appropriate absorbance spectra
displacement pipettes prevent These calibration techniques are time
vapors from moving into air space. consuming and, therefore, impractical for
Liquid examples: acetone, ethanol, use in daily checks. It is recommended that
methanol pipettes be checked initially and
subsequently three or four times per year, or
Radioactive, infectious, and corrosive as dictated by the laboratory's
liquids accrediting agency
Positive displacement pipettes
prevent aerosolization of solutions
into an open-air space.
Molecular Biology (Laboratory)
1st Sem 3rd Year
Few reminders:
Pipette calibration results should be
recorded for long-term monitoring and to
track changes over time with a particular
pipette

Class A pipettes Conversion of volumes

like all other Class A labware, do not
need to be recalibrated by the
laboratory.
Automatic pipetting devices, as well
as non–Class A materials, do need Conversion of masses
recalibration
A class A transfer pipette is accurate
to within 0.1%.

Tips for positive-displacement pipettes are
made of straight columns of glass or
plastic. These tips must fit snugly to avoid
carryover and can be used repeatedly
without being changed after each use. As
previously mentioned, these devices may
need to be rinsed and dried between
samples to minimize carryover