lab saftey the laboratory environment can be a hazardous place to work. laboratory workers are...
TRANSCRIPT
Lab Safety and
Pipeting
Lab Saftey
The laboratory environment can be a hazardous place to work. Laboratory workers are exposed to numerous potential hazards including chemical, biological, physical and radioactivehazards, as well as musculoskeletal stresses.
Personal Protective
• goggles
•Gloves
•Lab coat
•Shoes
Tie back long hair.
Never eat, drink or smoke in a laboratory
Never touch your face, mouth or eyes
Never suck pens or chew pencils
During lab work, keep your hands away from your face.
After handling chemicals, always wash your hands with soap and water.
Clean up your lab area at the end of the laboratory period
Fire
Sharps
Spillages
Pressure equipment & gas cylinders
Extremes of heat & cold
Chemical hazards
Biological hazards
Radiation
general hazards in a laboratory?
Ethidium Bromide Safety
Ethidium bromide is a potent mutagen that has been used for many years as a nucleic acid stain.
The powder form is considered an irritant to the upper respiratory tract, eyes, and skin.
Ethidium bromide is strongly mutagenic, causing living cell mutations.
An example of a DNA fragments run under gel electrophoresis
Hazardous Symbols
First Aid
Injury: Burns To Do: Immediately flush with cold water until burning sensation is lessened.
Injury: Cuts To Do: Do not touch an open wound without safety gloves. Pressing directly on minor cuts will stop
bleeding in a few minutes and Cover with sterile bandage
Injury: The eyes To Do: Flush eyes immediately with plenty of water for several minutes. If a foreign object is lodged in the eye, do not allow the eye to be rubbed.
Types of pipettes
How pipettes work ?
Pipetting technique
accuracy and precision
Pipetting
There are two types of pipettes : Air displacement pipettes are meant for
general use with aqueous solutions.
Positive displacement pipettes are used for highly viscous and volatile liquids.
Both pipette types have a piston that moves in a cylinder or capillary
Types of pipettes
1. The piston moves to the appropriate position when the volume is set.
2. When the operating button is pressed to the first stop, the piston expels the same volume of air as indicated on the volume setting.
3. After immersing the tip into the liquid, the operating button is released. This creates a partial vacuum, and the specified volume of liquid is aspirated into the tip.
4. When the operating button is pressed to the first stop again, the air dispenses the liquid. To empty the tip completely, the operating button is pressed to the second stop (blow-out).
How pipettes work?
Aspirate – to draw the liquid up into the pipette tip
Dispense – to discharge the liquid from the tip Blow-out – to discharge the residual liquid from
the tip Calibration check – to check the difference
between the dispensed liquid and the selected volume
Terminology
Check your pipette at the beginning of your working day for dust and dirt on the outside. If needed, wipe with 70% ethanol.
Check that you are using tips recommended by the manufacturer.
Tips are designed for single use. They should not be cleaned for reuse, as their metrological characteristics will no longer be reliable.
Avoid turning the pipette on its side when there is liquid in the tip. Liquid might get into the interior of the pipette and contaminate the pipette.
Avoid contamination to or from hands by using the tip ejector.
General Roles