Laboratory Safety Procedures PDF

Summary

This document provides a comprehensive overview of laboratory safety procedures. It covers topics such as sterilization methods, disinfection protocols, and personal protective equipment. Microbiology laboratory safety practices, and 1913 textbook information are also addressed.

Full Transcript

BASIC ON
LABORATORY
PREPARED BY: PMLS-1 TEAM
LEARNING
OBJECTIVES:
UNIVERSAL
01 PRECAUTION

PERSONAL
02 PROTECTIVE
EQUIPMENT (PPE)

03 HANDHYGIENE
 LABORATORY
SAFETY

LABORATORY
SAFETY
Not All Heroes Wear Capes, That's Us!
 Not All Heroes Wear Capes, That's Us!

LABORATORY SAFETY RULES ARE A MAJOR
ASPECT OF EVERY CLINICAL LABORATORY.
EACH STUDENT INCLINICAL LABORATORY
MUST FOLLOW SPECIFIC SAFETY RULES AND
PROCEDURES.

INTRODUCTION SAFETY
LABORATORY SAFETY
 Not All Heroes Wear Capes, That's Us!

WHYIS LABORATORY SAFETY
IMPORTANT?

SAFETY
LABORATORY SAFETY
 Not All Heroes Wear Capes, That's Us!

LABORATORY SAFETY RULES AND SYMBOLS ARE
NEEDED SO THAT STUDENTS AND OR WORKERS
DONOT INJURE THEMSELVES OR THEIR
CLASSMATES ORWORKERS.

WHY IS LABORATORY SAFETY
LABORATORY SAFETY

SAFETY IMPORTANT
 Not All Heroes Wear Capes, That's Us!

MICROBIOLOGY LABORATORY SAFETY PRACTICES:
1913TEXTBOOK BY EYRE

SAFETY
LABORATORY SAFETY
 Not All Heroes Wear Capes, That's Us!

STERILIZATION IS A PROCESS WHEREBY ALL FORMS OF
MICROBIAL LIFE, INCLUDING
BACTERIAL SPORES, ARE KILLED. MAY BE ACCOMPLISHED
BY PHYSICAL, OR
CHEMICAL MEANS

DISINFECTION IS A PROCESS WHEREBY PATHOGENIC
ORGANISMS, BUT NOT
NECESSARILY ALL MICROORGANISMS OR SPORES, ARE
DESTROYED. ACCOMPLISHED
BY PHYSICAL OR CHEMICAL METHODS.

S TE RILIZ ATIONA N D SAFETY
LABORATORY SAFETY

D I S INFECTION
LABORATORY
SAFETY I. Physical Methods

METHODS OF STERILIZATION 1. HEAT

A. Moist Heat – Coagulate Proteins

Autoclave
=Most effective method of sterilization 121 C at 15 PSI for
15 minutes.
=Infectious medical waste is often sterilized at 132 C for 30-
60 minutes
Quality Control: Bacillus stearothermophilus

Fractional
=Alternative heating (Kills vegetativecells), incubation
(Spores germinate), heating kills remaining vegetative cells
a. Tyndallization – flowing steam 100 C for 30 minutes for
3 successive days.
b. Inspissation – 75 – 80 C for 2 hours for 3 successive
days.
LABORATORY
SAFETY B. Dry Heat – kills by oxidation
a. Flame=To sterilizeinoculating loops and needles

METHODS OF STERILIZATION b. Oven= 160-180 C for1 1⁄21/2 to 2 hours
Quality Control: Bacillus subtilis var. niger

c. Incineration= Most common method of treating
infectious waste.
Burned to ashes at 870-980 C.

2. FILTRATION
Asbestos Filter
Membrane Filter
Method of Choice for antibiotics solutions, toxic chemicals,
radioisotopes,
vaccines and carbs which are all heat sensitive.
Filtration of air is accomplished using HEPA (High Efficiency
Particulate Air) filters
designed to remove organisms larger than 0-3 um from
isolation rooms,
operating rooms, and biologic safety cabinets (BSCs).
I.
LABORATORY
SAFETY 3. IONIZATION RADIATION
Used in plastic syringe, catheter or gloves
METHODS OF STERILIZATION Short wavelength, high energy gamma rays,ionizing
gamma radiation
Used for evacuated tubes

II. Chemical Methods
1. Ethylene Oxide (ETO)

–Most common sterilant
-Quality Control: Bacillus subtilis

2. Formaldehyde vapor and vapor phase hydrogen peroxide

-sterilize HEPA filters in BSCs

3. Glutaraldehyde

-Sporocidal in 3-10 hours, is used in medical equipment
-Cold sterilization
LABORATORY
SAFETY 4. PARACETIC ACID

-used in surgical equipment
METHODS OF STERILIZATION -Cold Sterilization
LABORATORY
SAFETY I. Physical Methods
1. Boiling
=100 C for 15 minutes, which kills vegetative bacteria
METHODS OF DISINFECTION 2. Pasteurization
=Kills milk borne pathogens
a. Batch Method: 63 C for 30 minutes
b. Flash Method: 72 C for 15 minutes
3. Non-ionizing Radiation
=Long wavelength and low energy
=do not penetrate well,direct surface exposure such as
working surface of BSC (Biological Safety Cabinet)

II. Chemical Methods
Disinfectant
=Destroys vegetative forms of on inanimate objects
=Phenol, QUATS,Chlorine, 2% glutaraldehyde
=alcohols,aldehydes,halogens,heavy metals,quarternary
ammonium compounds
Antiseptic
=Microbiostatic agents on living tissues
=Alcohol, Iodine tincture (alcohol), Iodophor
(Iodine +detergent)
LABORATORY
SAFETY Autoclave =Bacillus stearothermopihlus or
Clostridium PA3679
B I OL OG I C A L I ND I C A TOR S
Ionizing Radiation= Bacillus pumilus

Dry Heat Oven= Bacillus subtilis variation
niger

Ethylene Oxide= Bacillus subtilis variation

globijii
LABORATORYSAFETY
 LABORATORY
SAFETY

LABORATORY
SAFETY RULES
Not All Heroes Wear Capes, That's Us!
LABORATORY SAFETY
EQUIPMENT
LABORATORY SAFETY
EQUIPMENT
BIOLOGICAL SAFETY CABINET
LABORATORY SAFETY
SYMBOLS
A. UNIVERSAL PRECAUTION
All patients are considered to be possible carriers of blood borne pathogens
Wearing gloves when collecting and handling blood and body fluids contaminated with
blood
Wearing face shields when there is danger of blood splashing in mucous membranes
and when disposing of all needles and sharp objects in puncture-resistant containers.
The CDC (Centers for Disease Control and Prevention) excluded urine and body fluids
not visibly contaminated by blood from UP
BSI (Body Substance Isolation) guidelines are not limited to blood-borne pathogens;
they consider all body fluids and moist body substances to be potentially infectious.
According to BSI guidelines, personnel should wear gloves at all times when
encountering moist body substances
- They do not recommend handwashing after removing gloves unless visual
contamination is present
 HANDHYGIENE
includes both hand washing and the use of alcohol-based
antiseptic cleaners.
STANDARD sanitize hands immediately after;
1. touching blood, body fluids, secretions, excretions, and

PRECAUTION
contaminated it whether or not gloves are worn.
2. gloves are removed, between patient contacts.
sanitizing hands may be necessary between tasks and
In 1996 the CDC and HIPAC procedures on the same patient to prevent cross contamination

(Healthcare Infection GLOVES
Control Practices Advisory wear gloves (clean, nonsterile gloves are adequate) when
touching blood, body fluids, secretions, and contaminated
Committee) combined the
items
major features of UP and BSI change gloves between tasks and procedures on the same
guidelines patient after contacting materials with high concentration of
microorganisms.
remove gloves after use, before touching non-contaminated
items and environmental surfaces, and between patients
 MOUTH,NOSE AND EYE PROTECTION
wear a mask and eye protection or face shield to protect
mucous membranes of the eyes, nose, and mouth during
STANDARD procedures and patient care activities that are likely to
generate splashes or sprays of blood, body fluids, secretions, or

PRECAUTION
excretions
an N95 mask must be used during patient care activities related
to suspected mycobacterium exposure
In 1996 the CDC and HIPAC GOWN
(Healthcare Infection wear a clean, nonsterile gown gown to protect skin and to
Control Practices Advisory prevent soiling of clothing during procedures and activities
that are likely to generate splashes or
Committee) combined the sprays of blood, body fluids, secretions or excretions.
major features of UP and BSI select a gown that is appropriate for the activity and the
guidelines amount of fluid likely to be encountered
remove soiled gown as promptly as possible
sanitize hands to avoid transferring microorganisms to
other patients or environments
 PATIENT CARE EQUIPMENT
handle used patient care equipment soiled with blood, body
STANDARD fluids, secretions, and excretions in a manner that prevents skin
and mucous membranes exposure, clothing contamination, and

PRECAUTION transfer of microorganisms to other patients or environments
ensure that;
1. reusable equipment is not used for the care of another patient
In 1996 the CDC and HIPAC until it has been cleaned and reprocessed appropriately
2. single-use items are discarded properly
(Healthcare Infection
Control Practices Advisory
Committee) combined the ENVIRONMENTAL CONTROL
ensure that the hospital has adequate procedures for the
major features of UP and BSI routine care, cleaning, and disinfection of environmental
guidelines surfaces, beds, bedrails, bedside equipment, and other
frequently touched surfaces
 LINEN
HANDLE, TRANSPORT, AND PROCESS LINEN SOILED WITH
BLOOD, BODY FLUIDS, SECRETIONS, AND EXCRETIONS
IN A MANNER THAT PREVENTS SKIN AND MUCOUS
STANDARD MEMBRANES EXPOSURES AND CLOTHING CONTAMINATION
AND THAT AVOIDS THE TRANSFER OF

PRECAUTION
MICROORGANISMS TO OTHER PATIENTS AND
ENVIRONMENT
OCCUPATIONAL HEALTH AND BLOOD-
BORNE PATHOGENS
In 1996 the CDC and HIPAC
never recap needles or otherwise manipulate them using both
(Healthcare Infection hands or use any other equipment directing the point of a
Control Practices Advisory needle toward any part of the body; rather, use self-sheathing
Committee) combined the needles or a mechanical device to conceal the needle
do not;
major features of UP and BSI 1. remove used unsheathed needles from disposable syringes by
guidelines hand
2. bend, break, or otherwise manipulate used needles by hand
place used needles and other sharp items in appropriate
puncture-resistant containers
 PATIENT PLACEMENT
place patient in a private room who contaminates the

STANDARD environment or who does not (or cannot be expected to) assist
in maintaining appropriate hygiene or environment control
if a private room is unavailable, consult with infection control
PRECAUTION professionals regarding patient hygiene placement or other
alternatives

In 1996 the CDC and HIPAC
(Healthcare Infection RESPIRATORY HYGIENEORCOUGHETIQUETTE
educate health-care personnel, patients, and
Control Practices Advisory visitors to
Committee) combined the contain respiratory secretions to prevent droplet
major features of UP and BSI and fomite transmission of respiratory pathogens
offer masks to coughing patients, distance
guidelines symptomatic patients from others
practice good hand hygiene
 INFECTION CONTROL GUIDELINES USED IN
HEALTHCARE SETTINGS TO MINIMIZE THE RISK OF
SPREADING INFECTIOUS DISEASES

UNIVERSAL PRECAUTION STANDARD PRECAUTION
1987 CDC PUBLISHED guidelines known as 1996 these safety recommendations became known as
UP developed in response to the HIV Standard Precautions evolving from UP to include
wider range of precautions for various infectious
epidemic
agents, expansion and modification of UP
to reduce risk of HBV transmission in clinical
laboratories and blood banks these precautions require that blood and body fluids
prevent the transmission of bloodborne from every patient be treated as potentially infectious
pathogens,primarily HIV
main focus,treat all human blood and certain designed to reduce the risk of transmission of a
human body fluids as infectious for broader range of infectious agents,including those
bloodborne pathogens regardless of the transmitted by respiratory droplets or contact with
perceived risk contaminated surfaces
rigid and more focused on specific types of
wider range of infection control: proper
body fluids hygiene,PPE,safe injection practices,respiratory
infection control: PPE (gloves,gowns,masks, hygiene,cough etiquette,safe handling of potentially
and eye protection) contaminated equipment and surfaces, and strategies
to prevent transmission of infectious agents in
healthcare settings
UNIVERSAL PRECAUTIONS WERE A FOUNDATIONAL CONCEPT
THAT LAID THE GROUNDWORK FOR INFECTION CONTROLAND
STANDARD PRECAUTIONS EXPANDED THESE PRACTICES TO
BE MORE COMPREHENSIVE AND ADAPTABLE TOA WIDER
RANGE OF INFECTIOUS DISEASES.THE TRANSITION FROM
UNIVERSAL TO STANDARD PRECAUTIONS REFLECTS A MORE
HOLISTIC APPROACH TO INFECTION PREVENTION IN
HEALTHCARE SETTINGS.
 WHAT ARE
THESE?

N95

CAN YOU
IDENTIFY
THESE ITEMS
WORN?
 PERSONAL
PROTECTIVE

N95
EQUIPMENT
disposable gloves
surgical masks/respirators/N95 goggles/eye visors
faceshields shoe covers
bouffant cap/hairnet
lab gown/labsuit/isolation gown
PERSONAL

N95
PROTECTIVE
EQUIPMENT
OSHA regulation

Healthcare facilities provide employees
with all PPE necessary to protect
themselves from hazards encountered
during the course of work.
 B. PERSONAL PROTECTIVE EQUIPMENT (PPE)

- PPE used in the laboratory includes gloves, fluid-resistant gowns, eye and face shield, and plexiglas
countertop shield.
- When specimens are collected, gloves must be changed between patients every patient.
- A variety of glove types are available (sterile and nonsterile, powdered and unpowdered, and
latex and nonlatex).
- Allergy on latex is increasing among health workers.
- Reactions to latex include irritant contact dermatitis, which produces patches of dry, itchy irritation on
the hands; delayed hypersensitivity reactions resembling poison ivy that appear 24-48 hours after
exposure; and true, immediate hypersensitivity reactions often characterized by facial flushing and
breathing difficulties.
- Replacing latex gloves with nitrile or vinyl gloves provides an alternative.
- Fluid resistant laboratory coats with wrist cuffs are worn to protect clothing and skin from exposure to
patient’s body substances.
- Disposable coats are placed in containers for biohazardous waste, and nondisposable coats are
placed in designated laundry receptacles.
- Shoes must be closes-toed and cover the entire foot.
- A variety of protective equipment available, including masks and goggles, full-face plastic shields that
cover the front and the sides of the face, mask with attached shield, and Plexiglas countertop shields.
DONNING
OF PPE
1.PERFORM HAND
HYGIENE
2. Put on gown
3. Put on surgical mask or P2 or
N95 respirator
4. Put on protective eyewear or
face shield
5. Put on gloves CLICK HERE FOR
THE YOUTUBE LINK
DOFFING
OF PPE
1.REMOVE
GLOVES
2. Perform hand hygiene
3. Remove gown
4. Perform hand hygiene
5. Remove goggles or face shield
6. Perform hand hygiene
7. Remove mask or respirator
8. Immediately perform hand hygiene
CLICK HERE FOR
THE YOUTUBE LINK
C. HAND HYGIENE
Hand contact is the primary method of
infection transmission.
Laboratory personnel must always sanitize
hands before patient contact, after gloves
are removed, been leaving the work area, at
any time when hands have been knowingly
contaminated.
Hand Hygiene includes both hand washing
and using alcohol-based antiseptic cleaners.
Alcohol-based cleaners can be used when
hands are not visibly soiled; hand washing
when hands are visibly soiled.
Hand washing is the best way to break the
chain of infection.
CHAINOF INFECTION
CLICK THIS LINK TO VIEW THE YOUTUBE VIDEO
GROUP
DISCUSSION
Infection control measures you can apply and
share your thoughts for your choosen
scenarios. Instructor will ask one
representative from the group: (15 mins)

workplace/office hotel/resort
school visiting sick person
public transportation canteen/restaurant
pandemic public gathering
hospital supermarket
home (bathrooms,playpens,bedrooms etc)
GROUP DISCUSSION:
REAL-LIFE
APPLICATION
Infection control measures apply not only in
healthcare but also in various settings:

workplace/office hotel/resort
school visiting sick person
public transportation canteen/restaurant
pandemic public gathering
hospital supermarket
home (bathrooms,playpens,bedrooms etc)
Murphy’s Law: Application
to disaster management
…
Did you unplug your clothes iron?
HISTORY OF MURPHY’S LAW
The author of the law, Edward Murphy, was an engineer in the US
air force.
He was involved in a project called Gee whiz where they would
assess on what will happen to a person when decelerated rapidly in
a certain g-force.
The project used a chimpanzee as a tribute for better results after
multiples trials with a humanoid.
Everything was ready until one of his assistant accidentally switched
the instruments and installed the wrong way resulting to no data
collected.
Murphy stated that “if there are two ways to do things and one of
those ways result in a disaster then he will do it that way”
Hence, if anything can go wrong, will go wrong…at the worst
possible moment.
POSTULATES OF MURPHY’S LAW
Anything that can go wrong, will go wrong
You will always find something in the last place you look.
No matter how long or hard you shop for an item, after you’ve
bought it, it will be on sale somewhere cheaper
The other line moves faster
If it jams, force it. If it breaks, it needs replacing anyway.
Build a system that even a fool can use, and only a fool will use
it.
 MURPHY’S LAW AND
DISASTER MANAGEMENT

After the tragedy of the Gee Whiz, Col. Stapp, told his
subordinates to prepare every project with Murphy’s law in
mind, because anything can go wrong.
Entire months of practices were destroyed in a few minutes
of testing and they cannot do anything about it but pivot by
doing the project and recover all materials that they can use
again.
Bad things do happen, even to good people.
Preparation for disaster is the key. As the saying goes, “an
ounce of prevention is worth a pound of cure”.
 MURPHY’S LAW AND
DISASTER MANAGEMENT

Murphy’s 1st law reminds us of the importance of risk
assessment and the value of investment of risk prevention
However hard organizations try and however much they
invest in risk prevention, they never completely identify and
eliminate all risk.
The rules of mathematics are clear; regardless of how small
the probability of risk occurrence, given enough time it is
certain to happen
 MURPHY’S LAW AND
DISASTER MANAGEMENT

Murphy’s law aware us that always install the fail-safes
Fail-safes are referred to as “idiot-proofs”.
Murphy’s law still has the tendency to strike even the care
(idiot-proof) has been taken against the failure.
So this leads us to compare murphy’s law with one more law
called “Grave’s Law”. Which states that:
“if you make something idiot-proof, the world will create a
better idiot.”
SYSTEMIC AND DEPLOYABLE
EVACUATION PLAN
CLASS OF FIRES AND TYPES OF
EXTINGUISHER USED
MSDS SAFETY DIAMOND/NFPA RATING OF
HAZARDOUS MATERIALS
HOW TO
HANDWASH?
WASH HANDS WHEN VISIBLY SOILED! OTHERWISE, USE HANDRUB
Duration of the entire procedure: 40-60 seconds

0 1 2

Wet hands with water; Apply enough soap to cover Rub hands palm to palm;
all hand surfaces;

3 4 5

Right palm over left dorsum with Palm to palm with fingers interlaced; Backs of fingers to opposing palms
interlaced fingers and vice versa; with fingers interlocked;

6 7 8

Rotational rubbing of left thumb Rotational rubbing, backwards and Rinse hands with water;
clasped in right palm and vice versa; forwards with clasped fingers of right
hand in left palm and vice versa;

9 10 11

Dry hands thoroughly Use towel to turn off faucet; Your hands are now safe.
with a single use towel;

All reasonable precautions have been taken by the World Health Organization to verify the information contained in this document. However, the published material is being distributed without warranty of any kind,
either expressed or implied. The responsibility for the interpretation and use of the material lies with the reader. In no event shall the World Health Organization be liable for damages arising from its use.
WHO acknowledges the Hôpitaux Universitaires de Genève (HUG), in particular the members of the Infection Control Programme, for their active participation in developing this material.

May 2009
 THANK YOU
AND STAY SAFE!

Questions?Too shy to ask? You canreach me through
email:[email protected]
 1. MCPHERSON,R.A. & PINCUS,M.R. (2012) HENRY’S
CLINICAL DIAGNOSIS AND MANAGEMENT BY
REFERENCES: LABORATORY METHEDS (22ND ED.)
PHILADELPHIA: ELSEVIER INC.

2. STRASINGER, S.K. & DI LORENZO, M.S. (2014)
URINALYSIS AND BODY FLUIDS (6TH ED.) F.A.
DAVIS COMPANY, PHILADELPHIA, PENNYSLVANIA

3. LECTURE HANDBOOK IN PMLS 037
(INTRODUCTION TO MEDICAL TECHNOLOGY 1
WITH SCIENCE TECHNOLOGY AND SOCIETY) BY
MERLYN A. BARACLAN-ORAIS,MSCPI,RMT,RN