Unit 4 Summer 24 Finals PDF

Summary

This document is set of lecture notes about Microbiology and Physiology, including the Control of Microbial Growth . The notes cover various aspects, such as learning objectives, importance of microbial growth control, factors influencing microbial growth, and also different antimicrobial methods with examples. The summaries contain information about sterilization, disinfection, and chemotherapeutic agents.

Full Transcript

Microbiology and Physiology
Unit 4 - Control of Microbial Growth
Learning Objectives:
At the end of the lecture discussion, the
students will be able to:
1. Define terminologies used in the control
of microbial growth.
2. List down the factors that affect microbial
growth.
3. Identify the different antimicrobial methods.
4. State the importance of microbial growth
control.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
 Importance of Microbial Growth
Control
1. To prevent and control infectious diseases in
humans, animals, and in plants;

2. To preserve food;

3. To prevent contaminating microbes from
interfering with certain industrial processes;

4. To prevent contaminating microbes of pure
culture research;

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Factors in Preventing and Controlling
Spread of Infectious Diseases
1. Destroying or inhibiting disease-causing
microbes;

2. Blocking the sources, routes, and vectors
of transmission of disease agents;

3. Protecting an infected person from the
consequences of disease by building up
the body's defenses and administering
appropriate chemotherapeutic drugs.
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
In the past, people developed many primitive
procedures to control the microorganisms and
"cures" that were often more harmful than
helpful to human beings.

Now, we all know how to avoid, inhibit and destroy
pathogenic microorganisms to prevent diseases.

This is important to those working in health fields
to learn the importance of controlling microbes
in:
ü patient's rooms
ü operating rooms
ü treatment rooms
ü emergency rooms
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Nurses should be aware of:
proper aseptic techniques in doing:
-wound dressing
-giving injections
-respiratory treatments
-assisting physicians in delicate procedures
proper handling of contaminated:
-linen (blanket)
-wound dressings
-bedside equipment
-laboratory specimens

Purpose: To avoid infecting nurses themselves, the
patients and others who have direct contact with the
patient care management.
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Important Terms to remember:
Sterilization -the complete destruction of all living
organisms, including cells, viable spores, and viruses.

Disinfection -the destruction or removal of
infectious or harmful microorganisms from non-
living objects by physical or chemical methods.

Microbicidal agents -is one that kills microbes.

bactericidal -kills bacteria
fungicide -kills fungi
virucide -destroys viruses
germicide -any agents/substance that destroy
microorganisms
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Microbistatic agents -is a drug or chemical that inhibits growth and
reproduction of microorganisms.

Bacteriostatic agent – is one that specifically inhibits the metabolism
and reproduction of bacteria.

Microbistatic agents and processes include:
-desiccation (drying)
-freezing temperatures
-concentrated sugar and salt solutions
-antimicrobial agents (antibiotics)

Asepsis -the absence of pathogens on living tissues.

Aseptic technique -is designed to eliminate and exclude all infectious
microbes by sterilization of equipment, disinfection of the
environment, and cleansing of body tissues with antiseptics.

Sterile Technique -preventing all microorganisms from gaining entrance
to laboratory or surgical area.
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Factors Influencing Microbial Growth
There are many environmental factors that enhance or inhibit growth of
microorganisms.
A. Temperature
For every microorganism there is this:
-optimum temperature to grow best;
-minimum temperature that would stop to grow;
-maximum temperature that would destroy them;

Categories of microorganisms based on Temperature
Tolerance:
1. Mesophiles = 20 to 40 ºC
2. Psychrophiles = 0 to 20 ºC
3. Thermophiles = 55 to 75 ºC
4. Psychroduric =very cold frozen temperature
5. Thermoduric =survive boiling; like spores
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
B. Moisture
Some organisms can survive the complete drying
process (desiccation).
Another method is by dehydration of frozen organisms
(lyophilization).
used in industry to preserve foods, antibiotics, antisera
and other microorganisms.

C. Osmotic pressure
Is the pressure exerted on the cell membrane by
solutions inside and outside of the cell.
a. hypertonic -make the cell shrinks
b. isotonic -in and out of cell (normal cell)
c. hypotonic -make the cell swells (crenation)
Plasmolysis -cytoplasm shrink away from cell wall.
Hemolysis -swell andMicrobiology
burstingandofParasitology
cell.
Joel P. Defensor RN,USRN,MAN
Example:
Preservation of food by killing
microorganisms:
-Sugar solutions for jellies, dates
-Salt solutions for pickles, salted food

There are microbes that can survive in
salty environment:
haloduric -can survive in salty environment
halophilic -prefer salty environments
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
D. Barometric Pressure
barophiles -microoganisms survive in a
very high atmospheric pressure
Autoclaves and pressure cookers kills
microbes by a combination of high
pressure and high temperature.

E. Gases
The types of gases available in the
environment. some bacteria will die if there
is oxygen.
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Antimicrobial Methods
A. Physical Antimicrobial Methods
Heat sterilization
-most frequently used, Two factors: time and temperature
a. Thermal death point -lowest temperature to kill microbes
b. Thermal death time -length of time to kill microbes

Important:
-must remove first pus, feces, vomitus, mucus and blood that
would serve as protective coating before sterilizing equipment with
heat.
1. dry heat (160 to 165 ºC) for 2 hours
-flaming (use of direct fire)
ü Like flaming the surface of metal forceps is an effective
way of killing microorganisms.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
2. moist heat (90 to 100 ºC) for 10-30 minutes
-heat applied in he presence of moisture as
in Boiling water and steamer.
- this is faster and more effective than dry
heat.
- articles made of metals, and glass such as
needles and simple instruments maybe
disinfected by boiling for 30 minutes.
- the endospores of bacteria such as those
that causes anthrax, tetanus, gas gangrene and
botulism are heat resistant and often survive by
boiling.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
3. pressurized steam (121.5 ºC) for 20
minutes
-autoclave -large metal pressure
cooker: high temperature and moisture
-effective in destroying spores.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
4. Cold
-freezing inhibit and stop microbes reproduction.
- most microorganisms are not killed by cold
temperatures and freezing, but their metabolic activities
are slowed, greatly inhibiting their growth, it does not
completely inhibit growth.

5. Drying
-drying food can prevent microbial growth because of
the absence of moisture.
in the hospital setting, dried specimens and dust may
contain viable microorganisms.

Joel P. Defensor RN,USRN,MAN
Microbiology and Parasitology
6. Radiation
-killing microbes by the use of UV rays. (example X-
ray)
-exposed to direct sunlight can kill microorganisms.
-this will directly damage DNA.
-UV lamp or germicidl lamp are helpful to
continuously kill bacteria in places light newborn
nurseries, operating roms, cafeteria, and classrooms.
-People should be carefull not to expose their eyes
and skin cause this can cause severe burn or even
cancer.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
7. Ultrasonic waves
-use for cleaning and sterilizing delicate equipment.
-use of short sound waves to dislodge organic debris
on instruments and glassware.
- ultrasonic cleaners consists of tanks filled with
liquid solvents (usually water).
8. Filtration
-use to separate or filter cells larger viruses, bacteria
and other microbes.
-filters with tiny pores (micropore filters) are used in
the laboratories to filter bacteria and viruses out of
liquids.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Chemical Antimicrobial Methods
Chemical disinfection is the use of chemical
agents to inhibit, prevent and control the growth
of microorganisms.

Nurses should understand an important
limitation of chemical disinfection.

Many disinfectants might not be effective in the
actual or clinical environment.

Most disinfection methods do not destroy spores
that are present in any instruments.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Characteristics of good chemical
antimicrobial agent:

1. It must kill pathogens within reasonable period and in specified
concentration.

2. It must be nontoxic to human tissues and nondestructive to
materials.

3. It must be soluble in water and easy to apply.

4. It should be inexpensive and easy to prepare.

5. It must be is stable in the dissolved or solid form, so that it can be
stored for a reasonable period of time.

6. It should be stable pH and temperature changes within reasonable
limits.
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
How Antimicrobial Agents Work
A. Injury of Cell Membranes

1. soap and detergents
-surfactants
-surface active agents that helps remove
bacteria in the surface.
-Safeguards and Dial contain
disinfectants to kill bacteria.
-concentration of weak acids like acetic
and benzoic acids may also be used for
soap.
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
B. Inactivation of Enzymes
1. Alcohols (ethyl and isopropyl) 70%
-good skin antiseptics
-use to sterilize thermometers
-can't destroy spores

2. Phenolics (phenol, carbonic acid, xylenols)
-example: Lysol, very effective in the presence of organic materials
and can be active on surfaces for extended period.
-too irritating and toxic to skin

3. Salt of heavy metals (mercury chloride)
-example: Merthiolate and Silver nitrate (Argyrol)
-Silver nitrate is used in the eyes of newborns to kill Neisseria
gonorrhoeae.

4.Chemical oxidizing
-example: Hydrogen peroxide
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
5. Chlorine
-example: Clorox
-kills HIV by soaking instruments for 10 minutes.
6. Iodine
-example: Betadine solution
-effective skin antiseptics and disinfectants.

C. Damage to Genetic Materials
-example:Formaldehyde ( Formaline)
-antimicrobial as well as sporicidal.
-cannot be used in living tissues, very irritating.
-usually used to preserve specimens and also
dead human and animal bodies.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
CHEMOTHERAPY (In vivo)
Chemotherapeutic agents
- are substances (drugs) used to treat
disease, including infectious diseases.

Antimicrobial agents
- are chemotherapeutic agents used to treat
infectious diseases.

Antibiotics
- are substances produced by microorganism
that is effective in killing or inhibiting the growth
of other microorganisms.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Types of antimicrobial agent
Antibacterial -Drugs used to treat bacterial
disease.

Antifungal agents -Drugs used to treat
fungal disease.

Antiprotozoal -Drugs used to treat protozoal
disease.

Antiviral -Drugs used to treat viral disease.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Major Discoveries of Chemotherapy
It started in the late 1800s when Paul Ehrlich
began his search for chemcals that would
destroy bacteria.
He tested and discarded more than 600
chemicals.
He finally discovered an arsenic compound
that is effective treatment for syphilis.
In 1928, Alexander Fleming discovered a
substance produced by a mold, Penicillium
notatum, inhibited the growth of staphylococci.
Penicillium notatum was also considered to be
nontoxic to animals and humans.
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
 During World War II, Sir Howard Walter
Florey and Ernst Boris were two
biochemists that purified penicillin and
demonstrated its effectiveness in the
treatment of various bacterial infections.

By 1942, the U.S. drug industry was able
to produce sufficient penicillin for human
use.

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
 Characteristics of Antimicrobial
Agents
The ideal antimicrobial agent should:

1. kill or inhibit the growth of pathogens

2. cause no damage to the host

3. cause no allergic reaction in the host

4. be stable when stored in solid or liquid form

5. remain in specific tissues in the body long enough to be
effective

6. kill the pathogens before they mutate and become
resistant to it. Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
 Mechanisms of action of
Antimicrobial agents

1. Inhibition of cell wall synthesis

2. Damage to cell membrane

3. Inhibition of nucleic acid synthesis (either DNA
or RNA synthesis)

4. Inhibition of protein synthesis

5. Inhibition of enzyme activity

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Types of antibiotics
A. Narrow-spectrum antibiotics
-are drugs that destroy gram positive
bacteria.
ü vancomycin
-are drugs that destroy gram negative
bacteria.
ü colistin and nalidixic acid.
B. Broad-spectrum antibiotics
-are drugs that are destructive to both gram
negative and positive bacteria.
ü Ampicillin
ü Chloramphenicol
ü tetracycline
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
Side Effects of Antimicrobial Agents
1. Microorganisms may mutate and become
resistant to the drugs.

2. The patient may become allergic to the drugs.

3. One few antibiotics may be toxic to humans.
Example: chloramphenicol (Chloromycetin) that
may cause aplastic anemia;
streptomycin which can damage the
auditory nerve and cause deafness.

4. Prolonged use of drugs may destroy the normal
flora of the mouth, intestine, or vagina.
Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN
End of Unit 4

Microbiology and Parasitology
Joel P. Defensor RN,USRN,MAN