This document outlines general safety rules and procedures for working in a medical microbiology laboratory. It discusses hazards such as exposure to biological agents, chemicals, radiation, and electrical accidents. The key safety practices include wearing personal protective equipment, keeping work areas clean and uncluttered, properly storing chemicals and biological materials, and knowing emergency procedures for injuries or accidents. Following these safety guidelines is important for protecting laboratory workers from health and safety risks.
This slide gives you details about the following:
Safety precautions.
Rules and regulations to be followed inside laboratory.
Different type of laboratory hazards.
How to deals with laboratory accident incidents.
Diagrammatic representation of dress codes & rules.
bio safety cabinets.
Dress codes for technicians dealing with radioactive materials
sterilization of whole room (Fumigation)
Laboratory Hazards, Accidents and Safety RulesTapeshwar Yadav
Injury, damage and loss by fire can be minimized when laboratory staff:
Understand how fires are caused and spread;
Reduce the risk of fire by following fire safety regulations at all times;
Know what to do if there is a fire in their laboratory;
Know how to use fire fighting equipment;
Know how to apply emergency First Aid, for burns.
deals with biosafety in medical labs. universal safety precautions included. Includes updated 8 categories and colour coding for BMW management. Being a budding microbiologist, kept it focused on microbiology lab
This slide gives you details about the following:
Safety precautions.
Rules and regulations to be followed inside laboratory.
Different type of laboratory hazards.
How to deals with laboratory accident incidents.
Diagrammatic representation of dress codes & rules.
bio safety cabinets.
Dress codes for technicians dealing with radioactive materials
sterilization of whole room (Fumigation)
Laboratory Hazards, Accidents and Safety RulesTapeshwar Yadav
Injury, damage and loss by fire can be minimized when laboratory staff:
Understand how fires are caused and spread;
Reduce the risk of fire by following fire safety regulations at all times;
Know what to do if there is a fire in their laboratory;
Know how to use fire fighting equipment;
Know how to apply emergency First Aid, for burns.
deals with biosafety in medical labs. universal safety precautions included. Includes updated 8 categories and colour coding for BMW management. Being a budding microbiologist, kept it focused on microbiology lab
Safe Use and Storage of Chemicals and ReagentsTapeshwar Yadav
Even in the smallest laboratory, dangerous chemicals are used directly or incorporated into stains and reagents.
Hence the correct handling and storage of hazardous chemicals is essential to prevent injury and damage.
In addition to this, to reduce accidents caused by chemicals, labeling is very important.
COLLECTION AND TRANSPORTATION OF CLINICAL SAMPLESNCRIMS, Meerut
Principles of Sample Collection:
Aseptic precautions to minimize chances of
contamination.
Appropriate anatomic sites
Adequate volume
Adequate no. of samples
Appropriate time
Appropriate container with proper labelling
Before initiation of anti-microbials
Adequate information in request form
Safety cabinets are intended to protect a laboratory worker from aerosols and airborne particles.
They will not protect the person from spillages and the consequences of mishandling and poor technique.
Aerosol particles of less than 5 µm in diameter and small droplets of 5–100 µm in diameter are not visible to the naked eye.
The laboratory worker is generally not aware that such particles are being generated and may be inhaled or may cross contaminate work surface materials.
BSCs, when properly used, have been shown to be highly effective in reducing laboratory-acquired infections and cross-contaminations of cultures due to aerosol exposures. BSCs also protect the environment.
Most BSCs use high efficiency particulate air (HEPA) filters in the exhaust and supply systems.
The exception is a Class I BSC, which does not have HEPA filtered supply air.
Safe Use and Storage of Chemicals and ReagentsTapeshwar Yadav
Even in the smallest laboratory, dangerous chemicals are used directly or incorporated into stains and reagents.
Hence the correct handling and storage of hazardous chemicals is essential to prevent injury and damage.
In addition to this, to reduce accidents caused by chemicals, labeling is very important.
COLLECTION AND TRANSPORTATION OF CLINICAL SAMPLESNCRIMS, Meerut
Principles of Sample Collection:
Aseptic precautions to minimize chances of
contamination.
Appropriate anatomic sites
Adequate volume
Adequate no. of samples
Appropriate time
Appropriate container with proper labelling
Before initiation of anti-microbials
Adequate information in request form
Safety cabinets are intended to protect a laboratory worker from aerosols and airborne particles.
They will not protect the person from spillages and the consequences of mishandling and poor technique.
Aerosol particles of less than 5 µm in diameter and small droplets of 5–100 µm in diameter are not visible to the naked eye.
The laboratory worker is generally not aware that such particles are being generated and may be inhaled or may cross contaminate work surface materials.
BSCs, when properly used, have been shown to be highly effective in reducing laboratory-acquired infections and cross-contaminations of cultures due to aerosol exposures. BSCs also protect the environment.
Most BSCs use high efficiency particulate air (HEPA) filters in the exhaust and supply systems.
The exception is a Class I BSC, which does not have HEPA filtered supply air.
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lower teeth parallel to each other to minimize
the masticatory force applied to them.https://pin.it/7a5sUSUgSMake the long axices of both upper and
lower teeth parallel to each other to minimize
the masticatory force applied to them.https://pin.it/7a5sUSUgSMake the long axices of both upper and
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Laboratory Safety, Biomedical Waste & Its ManagementArun Babu
Nowadays "Safety" takes up a major role in all the Laboratories, let it be safety equipment or safety measures. This powerpoint gives you a rough idea of the various hazards that may occur in a laboratory and the steps to be taken to prevent them. Also a small note is given on the Biomedical Waste and its management.
Laboratory safety rules are a major aspect of every clinical lab.
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محاضرة هامة ومبسطة في تشخيص التهاب الكبد الفايروسي نوع ب مختبريا، والتي ينبغي أن تكون محل اهتمام فنيي المختبرات ومصارف الدم العراقية والاطباء والناس عامة.
A lecture for first-year students at Baquba Technical Institute belongs to Middle Technical University. This lecture is a part of the first semester's modules (Medical Laboratory Technology: MLT112).
This lecture included an introduction to medical (or diagnostic) laboratories.
A brief presentation for second-year students in Iraqi Technical Institutes (studying Medical Laboratory Technology). This introduction covers the types of blood samples, how to collect these samples, common sites for collection, and anticoagulants in a test-tubes.
A brief presentation for second-year students in Iraqi Technical Institutes (studying Medical Laboratory Technology). This introduction covers also the teaching laboratories.
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http://sandymillin.wordpress.com/iateflwebinar2024
Published classroom materials form the basis of syllabuses, drive teacher professional development, and have a potentially huge influence on learners, teachers and education systems. All teachers also create their own materials, whether a few sentences on a blackboard, a highly-structured fully-realised online course, or anything in between. Despite this, the knowledge and skills needed to create effective language learning materials are rarely part of teacher training, and are mostly learnt by trial and error.
Knowledge and skills frameworks, generally called competency frameworks, for ELT teachers, trainers and managers have existed for a few years now. However, until I created one for my MA dissertation, there wasn’t one drawing together what we need to know and do to be able to effectively produce language learning materials.
This webinar will introduce you to my framework, highlighting the key competencies I identified from my research. It will also show how anybody involved in language teaching (any language, not just English!), teacher training, managing schools or developing language learning materials can benefit from using the framework.
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Advantages and Disadvantages of CMS from an SEO Perspective
Medical Microbiology Laboratory (occupational safety)
1. Medical Microbiology Laboratory
(Occupational Safety)
Hussein A. Abid
Medical Laboratory Scientist
Member at American Society of Microbiology
Chairman of Iraqi Medical Laboratory Association
Teacher at Middle Technical University
2. HAZARDOUS IN THE LAB
Biological: exposure to blood and body fluids and
specimens that harbor HIV, HBV, HCV etc., bioterrorism)
Chemical: acids, alkalis, toxic chemicals.
Radiological: ineffective radioactive waste disposal
Fire
Electrical accidents
1
4. GENERAL SAFETY RULES
At microbiology laboratory your full attention is required.
All persons in medical microbiology laboratories should
be informed about microbiology lab safety rules by
graphics and other ways that are easy to be understand.
All persons in laboratories, staff and visitors, shall wear
safety glasses, goggles, or face shields at all times where
potential eye hazards exist.
NOTE: prescription eyeglasses do not provide adequate
protection.
3
5. GENERAL SAFETY RULES
Listen to or read instructions carefully before
attempting to do anything.
Notify your unit’s head if any spills or accidents
occur.
After handling chemicals, always wash your hands
with soap and water.
During lab work, keep your hands away from your
face.
Tie back long hair. 4
6. GENERAL SAFETY RULES
Eating, drinking, chewing gum, and applying
cosmetics are prohibited in the medical
laboratories.
Do not store food or beverages in the same
refrigerators or freezers with chemicals,
biohazards, or radioactive materials.
Appropriate gloves are essential when working
with hazardous substances.
5
7. GENERAL SAFETY RULES
All glove materials are not equally
effective in protection from hazardous
substances; consult a chemical
resistance chart, a glove manufacturer,
or EH & S (Environmental Health and
Safety) for appropriate selection.
Wear appropriate clothing. In
particular, you must wear closed-toed
shoes (i.e., NO sandals or flip-flops!) in
the laboratory. Long pants are highly
recommended.
6
Sandal
Flip-flops
8. GENERAL SAFETY RULES
Avoid wearing your best clothes, and if you have long
hair tie it back. Avoid wearing dangling jewelry.
Wearing an iPod, Bluetooth, or any other device that
interferes with hearing is not allowed.
Never pipet anything by mouth.
7
9. GENERAL SAFETY RULES
The work area must be kept clean and uncluttered. All
chemicals should be labeled and stored properly.
Never work alone in the laboratory.
The hazards of chemicals used should be known (e.g.,
corrosiveness, flammability, reactivity, stability, and
toxicity).
Material Safety Data Sheets (MSDSs) should be
available for all non-routine or acutely toxic chemicals
used and stored in the laboratory.
8
10. GENERAL SAFETY RULES
Always pay attention to your surroundings and be aware
of what others are doing. Always be courteous.
Remove contaminated gloves before touching common
use devices (door knobs, faucets, equipment); discard
gloves before leaving the laboratory.
Always wash hands and arms with soap and water
before leaving the laboratory.
No smoking!
9
11. GENERAL SAFETY RULES
Know the location of the fire extinguisher, fire
blanket, eyewash station, and first aid kit.
Keep your work area uncluttered. Take to the lab
station only what is necessary.
Never “horse around” or play practical jokes in
the laboratory.
10
25. GLASSWARE SAFETY
Chipped or cracked glassware should
not be used.
Broken glassware should not be
disposed of in a trashcan. There is a
special glass disposal container for it.
When pouring liquids into glassware,
make sure the container you are
pouring into is resting on a table at
least a hands breadth from the edge.
24
For sharps only
Other medical wastes
26. GLASSWARE SAFETY
If a piece of glassware gets broken, do not try to
clean it up by yourself.
Do not place hot glassware in water. Rapid
cooling may make it shatter.
25
28. HEATING AND ELECTRICAL SAFETY
Use tongs and/or protective gloves to handle hot
objects.
Never reach across an open flame or burner.
Always point the top ends of test tubes that are
being heated away from people.
When heating a test tube, move it around slowly
over the flame to distribute the heat evenly.
27
29. HEATING AND ELECTRICAL SAFETY
Only glassware that is thoroughly dry should be heated.
Heat glassware by placing it on a wire gauze platform on
a ring-stand. Do not hold it in your hand.
Electrical hazards can cause burns, shocks and
electrocution (death).
Assume that all overhead wires are energized at lethal
voltages. Never assume that a wire is safe to touch even
if it is down or appears to be insulated.
28
30. HEATING AND ELECTRICAL SAFETY
Never operate electrical equipment while you are
standing in water.
Never repair electrical cords or equipment unless
qualified and authorized.
Always use caution when working near electricity.
At the end of the work, turn off the power from all devises
and make sure.
29
34. FIRST AIDS
Injury: Burns
To Do: Immediately flush with cold water until
burning sensation is lessened.
33
35. FIRST AIDS
Injury: Cuts, bruises
To Do: Do not touch an
open wound without
safety gloves. Pressing
directly on minor cuts will
stop bleeding in a few
minutes. Apply cold
compress to bruises to
reduce swelling.
34
36. FIRST AIDS
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.
35