Basic Microbiology 202 Lecture PDF

Summary

This lecture discusses biosafety levels and risk classifications for microorganisms. It covers the WHO's risk group classification system and explores the various biosafety cabinet types used in microbiology labs. It's intended for undergraduate microbiology students.

Full Transcript

Basic Microbiology 202

Mahbuba Rahman, PhD
Assistant Professor
Department of Biochemistry and Microbiology
NSU
Biosafety level and risk group of
microorganism
Risk Groups

Risk Groups are classifications that describe the relative
hazard posed by infectious agents or toxins in the
laboratory.

The risk group to which an infectious agent or toxin is
assigned is the primary, but not only, consideration used in
a biological risk assessment to determine the appropriate
biosafety level in which a worker can handle the infectious
agent or toxin.

Other considerations used in a biological risk assessment
include the ability of an infectious agent or toxin to cause
disease, the way in which the infectious agent or toxin
causes disease, the activities performed in the laboratory,
the safety equipment and design elements present in the
laboratory, and the health and training of the laboratory
worker.

(continued next slide)
 Risk group levels do not always correspond to biosafety
levels. For example, a specific research project’s
biological risk assessment for the use of human
immunodeficiency virus (HIV), a Risk Group 3 agent, may
correctly determine that HIV can be handled under
Biosafety Level 2 conditions. Risk groups are designated
from 1 (the lowest risk) to 4 (the highest risk)

https://www.phe.gov/s3/BioriskManagement/biosafety/Pages/
Risk-Groups.aspx
The WHO (World Health Organization) has classified infectious
microorganisms by risk groups and the following list provides an overview
of the risk levels when working with different pathogens.

WHO risk group 1 – minimal risk
Microorganisms that usually do not cause human disease, such as
Escherichia coli K12 or Lactobacillus.

WHO risk group 2 – moderate risk
Microorganisms that cause treatable or self-healing diseases and are
difficult to contract via aerosol in a laboratory setting, such as salmonella or
measles virus.
WHO risk group 3 – high risk
Highly contagious microorganisms that cause serious diseases, such as TB
caused by M. tuberculosis.
WHO risk group 4 – very high risk
Highly contagious microorganisms that cause serious diseases, even
epidemics, with high mortality rate, such as Ebola virus or Lassa fever
virus.
II
BIOSAFETY IN THE LABORATORY Microbiological laboratories are rooms or buildings
equipped for scientific experimentation or research on
microorganisms. Many microbiological laboratories work
specifically with pathogenic microorganisms, some of
which are highly dangerous, especially in association with
the AMB (aeromicrobiological) pathway.

Also, many types of equipment, such as centrifuges and
vortexes, that are commonly used in microbiological
laboratories can promote the aerosolization of
microorganisms. Thus, laboratories and specialized
equipment used in these laboratories (e.g., biosafety
cabinets) are designed to control the spread of airborne
microorganisms.

There are essentially four levels of control designed
into laboratories, depending on the type of research being
conducted. These levels of control are termed biosafety
levels 1–4, with 1 being the lowest level of control and 4
the highest level of control. Within these laboratories,
biosafety cabinets are essentially isolation chambers that
provide safe environments for the manipulation of
pathogenic microorganisms.
Biological Safety Cabinets
Biological safety cabinets (BSCs) are among the most
effective and commonly used biological containment
devices in laboratories that work with infectious agents.

There are two basic types of biosafety cabinets currently
available (Class II and Class III), each of which has
specific characteristics and applications that dictate the
type of microorganisms it is equipped to contain.

Properly maintained biosafety cabinets provide safe
environments for working with microorganisms.

Class II biosafety cabinets are characterized by having
considerable negative-pressure airflow that provides
protection from infectious bioaerosols generated within the
cabinet, and Class III biosafety cabinets are characterized
by total containment. Class I cabinets are also in
existence, but they are no longer produced
and are being replaced by Class II cabinets for all
applications.
 Class II biosafety cabinets, of which there are several types, are
suitable for most work with moderate-risk Pathogens.

Class II BSCs differ from Class I cabinets in that they allow only air from a
HEPA-filtered (sterile) supply to flow over the work surface.
A Class II type A2 BSC is shown in Figure. An internal fan draws room air
(supply air) into the cabinet through the front opening and then into the
front intake grill. After passing through the grill, the supply air is drawn
upwards and through a HEPA filter before flowing downwards over the
work surface.

As the air flows downwards at about 6–18 cm above the work surface it
splits so that approximately one half of the volume of the air passes
through the front exhaust grill and the other half passes through the rear
exhaust grill. Any aerosol particles generated at the work surface are
immediately captured in this downward airflow and passed through the
front or rear exhaust grills, thereby providing the highest level of product
protection. The air is then discharged through the rear plenum into the
space between the supply filter and exhaust filter located at the top of the
cabinet. Owing to the relative size of these filters, 60–70% of the air
recirculates through the supply HEPA filter back into the work zone; the
remaining 30–40% passes through the exhaust filter into the room or
outdoors.
Air from a Class II type A2 exhaust can be
recirculated to the room or discharged to the
outside of the building through a thimble
connected to a dedicated duct; it must NOT
be discharged through the building’s exhaust
system.
Youtube
link
https://www.google.com/search?sca_esv=cd1c023c2da61779&
sca_upv=1&rlz=1C1CAFC_enQA926QA926&q=labelled+biosafet
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The Class III biosafety cabinet ( Fig) is a completely
enclosed environment that offers the highest degree
of personnel and environmental protection from bioaerosols.
Class III cabinets are used for high-risk pathogens
(mentioned in earlier slides). All operations in the work area
of the cabinet are performed through attached rubber gloves.
Class III cabinets use complete isolation to protect workers.
All air entering the cabinet is filtered using a HEPA filter, and
the air leaving the cabinet is filtered by two HEPA filters in
series. The exhaust may also include biocidal treatment such
as incineration following the HEPA filtration to further ensure
complete biological inactivation.
In addition to these safeguards, Class III cabinets are
connected with airtight seals to all other laboratory
equipment (such as incubators, refrigerators, and
centrifuges) that is needed for working with the pathogens
while using the cabinet. The Class III cabinet must also be
connected to autoclaves and chemical dunk tanks used to
sterilize or disinfect all materials entering or exiting the
cabinet.
Youtube
link
https://www.google.com/search?q=biosafety+level+3&sca_esv
=cd1c023c2da61779&sca_upv=1&rlz=1C1CAFC_enQA926QA92
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s&ved=0ahUKEwjzuYOwnNaIAxXXklYBHcSFMLUQ4dUDCA0&ua
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gB4Jg&sclient=gws-wiz-
video#fpstate=ive&vld=cid:b5ff233c,vid:5isVPg_Sx5w,st:0
Biosafety Laboratories

Biosafety laboratories are carefully designed environments
where infectious or potentially infectious agents are
handled and/or contained for research or educational purposes.
The purpose of a biosafety laboratory is to prevent
the exposure of workers and the surrounding environment
to biohazards. There are four levels of biohazard control,
which are designated as biosafety levels 1 through 4.

Biosafety level 1, as defined by the Centers for Disease
Control ( U.S. Department of Health and Human Services:
CDC-NIH, 1993 ), indicates laboratories where well-characterized
agents that are not associated with disease in healthy
adult humans are handled. In general, no safety equipment
is used other than sinks for hand washing and only general
restrictions are placed on public access to these laboratories.
Work with the microorganisms can be done on bench tops
using standard microbiological techniques.

A good example of a biosafety 1 laboratory is a teaching laboratory
used for undergraduate microbiology classes.
Biosafety level 2 indicates an area where work is performed using
agents that are of moderate hazard to humans and the environment.
These laboratories differ from biosafety 1 laboratories in that the
personnel have specialized training in the handling of pathogens and
access to the work areas is limited. Many procedures that may cause
aerosolization of pathogenic microorganisms are conducted in
biological safety level Class II cabinets or other physical containment
equipment to protect the laboratory workers.
Biosafety level 3 indicates laboratories where agents that
can cause serious or fatal disease as a result of AMB
exposure are handled. As with biosafety 2, all personnel
are specifically trained to handle pathogenic
microorganisms. All procedures involving these infectious
agents are conducted in biological safety level Class II
cabinets or other physical containment devices. These
facilities also have permanent locks to control access,
negative airflow, and filtered ventilation in order to protect
the public and the surrounding environments. With certain
pathogens used in biosafety 3 laboratories, Class III
safety hoods may also be used and clothes must be
changed before leaving the premises.
Biosafety level 4 is the highest level of control and is
indicated for organisms that have high potential for life
threatening disease in association with aerosolization. To
work in these facilities, personnel must have specialized
training beyond that required for biosafety levels 2 and 3.
Biosafety level 4 laboratories are 100% isolated from
other areas of a building and may even be separated from
other buildings altogether. Work in these areas is confined
exclusively to Class III biological safety cabinets.