Asepsis By Dr. Seham Mohamed PDF

Summary

This document is about asepsis, a condition where no disease-causing microorganisms are present, and covers procedures aimed at reducing the risk of microbial contamination in healthcare settings. It also discusses nosocomial infections, factors that increase susceptibility to infection, and nursing strategies related to infection control.

Full Transcript

Asepsis
By
Dr. Seham Mohamed
Outlines:
Introduction.

Definitions.

Nosocomial infections.

Factors contribute to nosocomial
infections.
Chain of infection.

Body defenses against infections.

Factors increasing susceptibility to
infection.
Nursing management
 Nursing interventions that break the
chain of infection.
 Preventing nosocomial infections.
 Disinfecting and sterilizing.
 Three categories for sterilization,
disinfection, and cleaning
 Isolation precautions.
 Infection control for health care
workers.
 Role of the Infection Control
Department.
 Role of the nurse.
Introduction
Nurses are directly involved in
providing a biologically safe
environment. Microorganisms exist
everywhere: in water, in soil, and on
body surfaces such as the skin,
intestinal tract, and other areas open
to the outside (e.g., mouth, upper
respiratory tract, vagina, and lower
urinary tract).
WHO is working with numerous
partners to support Member States to
deliver clean, quality care for all,
through Infection Prevention and
Control (IPC) best practices.
Definitions:
Microorganisms: comes from Micro
= small and organism = body
 Cannot be seen with the naked
eye, only under the microscope
 Are found everywhere, both
inside and outside the body.
Within the body found in the
mouth, in various body systems
and on the skin. Live in
communities called colonies.
 Some microorganisms capable of
causing disease referred to as
Some microorganisms essential for
maintaining health or have no
harmful effect on the body referred
to as non-pathogens.
Colonies of non-pathogens in the
body constitute what is known as
normal body flora
Flora not the same in all body areas,
e.g. normal flora in the intestines is
different from the normal flora of
the skin, when it misplaced to
another part of the body can
become pathogens; e.g. intestinal
Contamination: the process of making something dirty,
polluted, or poisonous by adding a chemical, waste, or
infection.

Infection: it is defined as the successful transmission of
pathogenic microorganisms, such as bacteria, viruses,
parasites or fungi that are spread.

Local infection: is the infection that limited to the specific
part of the body where the microorganisms remain.

Systemic infection: the microorganisms spread and
damage different parts of the body.

Acute infection: Appears suddenly or last a short time.

A chronic infection: occurs slowly, over a very long
period, and may last months or years.
A carrier: is a person or animal
reservoir of a specific infectious agent
that usually does not manifest any
signs of disease.
Bacteremia: When a culture of the
person’s blood reveals
microorganisms.
Septicemia: When bacteremia results
in systemic infection.
Sepsis: is a life-threatening illness
caused by your body’s response to an
infection. Your immune system
protects you from many illnesses and
infections, but it’s also possible for it
to go into overdrive in response to an
infection.
Asepsis:
is a condition in which no living disease-
causing microorganisms are
present. Asepsis covers all those
procedures designed to reduce the risk of
bacterial, fungal or viral contamination,
using sterile instruments, sterile draping
and the gloved ‘no touch’ technique.
There are two types of asepsis; medical
and surgical asepsis.
Infection Prevention and Control (IPC): is a
public health issue that is fundamental in
patient safety and health system
strengthening.
Nosocomial infections: also called
health-care-associated or hospital-
acquired infections, are a subset of
infectious diseases acquired in a
health-care facility. To be
considered nosocomial, the
infection cannot be present at
admission; rather, it must develop
at least 48 hours after admission.
The microorganisms that cause
nosocomial infections can originate
from:
1. The clients themselves (an
endogenous source)
2. The hospital environment and hospital
personnel (an exogenous sources).
Most nosocomial infections appear to
have endogenous source. Escherichia
coli, staphylococcus aureus, and
enterococci are the most common
infecting microorganisms.
Factors contribute to nosocomial
infections:
Iatrogenic infections: are the direct result
of diagnostic or therapeutic procedures,
e.g. bacteremia that results from an
intravascular line.
Compromised host: is a client whose
normal defenses have been lowered by
surgery or illness.
The hands of personnel: are a common
vehicle for the spread of microorganisms.
Insufficient hand cleansing is thus an
important factors contributing to the
spread of nosocomial microorganisms.
Types of nosocomial infection:
Iatrogenic infection: resulting from a diagnostic or
therapeutic procedure. (Urinary catheter insertion).
An exogenous infection: the causative organism is
acquired from other people, such as Tuberculosis.
Endogenous infections: when sufficient numbers of
microorganisms normally found in one body cavity or
lining are transferred to another body site, an
endogenous infection develops. For example,
transmission of enterococci, normally found in fecal
material, from the hands to the skin is a cause of wound
infections. Major sites for nosocomial infection include
the urinary tract, surgical wounds, the respiratory tract,
and the bloodstream.
Modes or routes of infection
transmission
:Body defenses mechanisms
Factors increasing susceptibility to
infection

Host susceptibility is considered one
of the most important factors for
occurring the infection after
invasion of the body by pathogenic
microorganism and affected by
various factors as age, hereditary,
level of stress, nutritional status,
Age
Infections are a major cause of death
of newborns, who have immature immune
systems and are protected only for the first
2 or 3 months by immunoglobulin passively
received from the mother.
With advancing age, the immune responses
again become weak.
Heredity
Heredity influences the development
of infection in that some people have a
genetic susceptibility to certain infections.
For example, some may be deficient in
serum immunoglobulin, which play a
significant role in the internal defense
mechanism of the body.
The nature and duration of physical and
emotional stressors
Stressors elevate blood cortisone.
Prolonged elevation of blood cortisol decreases
anti-inflammatory responses, depletes energy
stores, leads to a state of exhaustion, and
decreases resistance to infection. For example, a
person recovering from a major operation or
injury is more likely to develop an infection than a
healthy person.
Nutritional status
Because antibodies are proteins, the
ability to synthesize antibodies may be impaired
by inadequate nutrition, especially when protein
reserves are depleted (e.g., as a result of injury,
surgery, or debilitating diseases such as cancer).
Some medical therapies
Predispose a person to
infection. For example, radiation
treatments for cancer destroy not
only cancerous cells but also some
normal cells, thereby rendering
them more vulnerable to infection.
Some diagnostic procedures
may also predispose the client to an
infection, especially when the skin
is broken or sterile body cavities
are penetrated during the
procedure.
Certain mediations
 Anticancer medications may
depress bone marrow function,
resulting in inadequate
production of white blood cells.
 Anti-inflammatory medications,
such as adrenal corticosteroids,
inhibit the inflammatory
response, an essential defense
against infection.
 Antibiotics may kill resident flora,
allowing the proliferation of
strains that would not grow and
Any disease

That lowers the body’s

defenses against infection places

the client at risk. Examples are

chronic pulmonary disease, which

impairs cilliary action and weakens
 Nursing management

Assessing

During the assessment phase

of the nursing process, the nurse

obtains the client’s history, conducts

the physical assessment, and gathers

laboratory data.
Nursing history: The nurse assess:
 The clients at risk of developing an
infection through collecting data
regarding the factors influencing the
development of infection, especially
existing disease process.
 History of recurrent infections.
 Current medications and therapeutic
measures. Current emotional stressors.
 Nutritional status, and history of
immunizations.
 Any client complaints suggesting the
presence of an infection.
Physical assessment
Signs and symptoms of an infection
vary according to the body area
involved.
For example:
Sneezing, watery or mucoid
discharge from the nose and nasal
stuffiness commonly occur with an
infection of the nose and sinuses.
Urinary frequency and cloudy or
discolored urine often occur with a
urinary infection.
Signs of local infection include the
following:
 Localized swelling
 Localized redness
 Pain or tenderness with palpation
or movement
 Palpable heat at the infected area
 Loss of function of the body part
affected, depending on the site
and extent of involvement
 Open wound may exude drainage
of various colors.
Signs of systemic infection include the
following:
 Fever

 Increased pulse and respiratory rate if
the fever is high
 Malaise and loss of energy

 Anorexia and, in some situations,
nausea and vomiting
 Enlargement and tenderness of lymph
nodes that drain the area of infection
C. Laboratory data
Laboratory data that indicate the
presence of an infection include the
following:
Elevated leukocyte (white blood cell or
WBC) count (4,500 to 11,000 /ml is normal).
Increased in specific types of leukocytes.
Elevated erythrocyte sedimentation rate
(ESR). Red blood cells normally settle
slowly, but the rate increases in the
presence of an inflammatory process
Urine, blood, sputum, or other drainage
cultures that indicate the presence of
pathogenic microorganisms.
Diagnosing

 Potential Complication of Infection: Fever

 Imbalanced Nutrition: Less Than Body

Requirements

 Acute Pain if the client is experiencing tissue

damage and discomfort

 Impaired Social Interaction or Social Isolation

 Anxiety if the client is apprehensive regarding

changes in life activities
Planning

The major goals for clients susceptible to

infection are to:

 Maintain or restore defenses.

 Avoid the spread of infectious

organisms.

 Reduce or alleviate problems

associated with the infection.
Implementing
The nurse implements strategies to
prevent infection. If infection cannot
be prevented, the nurse’s goal is to
prevent the spread of the infection
within and between individuals, and
to treat the existing infection.
Break the chain of infection
Nursing activities that interfere with
the chain of infection to prevent and
control transmission of infectious
organisms.
Preventing nosocomial infections
 Strict use of medical and surgical
asepsis is necessary to prevent
transport of potentially infectious
microorganisms.
 Hand hygiene is considered one
of the most effective infection
control measures.
 Supporting defenses of a
susceptible host through proper
oral and skin hygiene, balanced
nutrition, fluid intake to flush out
the bladder and urethra,
Disinfecting and sterilizing
The first links in the chain of
infection, the etiologic agent and
reservoir are interrupted by
antiseptics, disinfectant and by
sterilization.
Disinfection: is a process that
eliminates almost all pathogen
organisms on objects, with the
exception of bacterial spores.
Disinfectant: is a chemical agent
that destroys pathogens other than
spores, such as phenol and used on
Antiseptic:
is a chemical preparation that
inhibits the growth of some
microorganism and used on skin and
tissue.
Both antiseptic and disinfectant are
bactericidal (destroy bacteria) or
bacteriostatic (prevent the growth
and reproduction of some bacteria).
Sterilization: is a process that
destroys all microorganisms,
including spores and viruses. Four
commonly used method of
Moist heat. To sterilize with moist
heat (such as with autoclave), steam
under pressure is used because it
attains temperatures higher than
the boiling point.
Gas. Ethylene oxide gas destroys
microorganisms by interfering with
their metabolic processes. It is also
effective against spores. Its
advantages are good penetration
and effectiveness for heat-sensitive
items. Its major disadvantage is its
toxicity to humans.
Boiling water. This is the most
practical and inexpensive method
for sterilizing in the home. The main
disadvantage is that spores and
some viruses are not killed by this
method. Boiling a minimum of 15
minutes is advised for disinfection
of articles in the home.
Radiation
Both ionizing (such as alpha,
beta, and x-rays) and non-ionizing
(ultraviolet light) radiation are used
for disinfection and sterilization.
The main drawback to ultraviolet
light is that the rays do not
penetrate deeply. Ionizing radiation
is used effectively in industry to
sterilize foods, drugs, and other
items that are sensitive to heat. Its
main advantage is that it is
effective for items difficult to
Three categories for preventing nosocomial
infection
First category: for Critical items – by
sterilization
Items that enter sterile tissue or vascular
system present a high risk of infection if
the items are contaminated with any
microorganisms and spores. Items must be
sterile. Some of these items follow:
 Surgical instruments
 Cardiac catheters
 Urinary catheters
 Needles
 Implants
Second category: for Semi critical
items-by Disinfection
Items that come in contact with skin
that is not intact or mucous
membranes also present risks.
These objects must be free of all
microorganisms (except bacterial
spores). Some of these items follow:
 Respiratory therapy equipment
 Endotracheal tubes
 Gastrointestinal endoscopes
 Reusable mercury thermometers
Third category: for Noncritical items
– by cleaning
Items that come in contact with
intact skin but not mucous
membranes must be clean. Some of
these items follow:
 Bedpans
 Blood pressure cuffs
 Crutches
 Linens
 Food utensils
Isolation precautions
Isolation precautions create barriers
between people and germs. These
types of precautions help prevent
the spread of germs in the hospital.
Isolation:
refers to measures designed
to prevent the spread of infections
or potentially infectious
microorganisms to health
personnel, clients, and visitors.
Two types of isolation precautions protect

against different types of germs.

A. Standard Precautions:

 When you are close to or handling

blood, bodily fluid, bodily tissues,

mucous membranes, or areas of open

skin, you must use

personal protective equipment (PPE).
 Follow standard precautions with
all patients, based on the type of
exposure expected.
 Depending on the anticipated
exposure, types of PPE that may
be required include:
 Gloves
 Masks and goggles
 Aprons, gowns, and shoe covers
B. Transmission-based Precautions
Transmission-based precautions are extra
steps to follow for illnesses that are caused
by certain germs. Transmission-based
precautions are followed in addition to
standard precautions. Some infections
require more than one type of transmission-
based precaution.
Follow transmission-based precautions when
an illness is first suspected. Stop following
these precautions only when that illness has
been treated or ruled out and the room has
been cleaned.
Patients should stay in their rooms as much
as possible while these precautions are in
place. They may need to wear a mask when
they leave their rooms.
(B-1) Airborne precautions
 may be needed for germs that are so small
they can float in the air and travel long
distances.
 Airborne precautions help keep staff, visitors,
and other people from breathing in these
germs and getting sick.
 Germs that warrant airborne precautions
include chickenpox,measles, and
tuberculosis (TB) bacteria infecting the lungs
or larynx (voice box).
 People who have these germs should be in
special rooms where the air is gently sucked
out and not allowed to flow into the hallway.
This is called a negative pressure room.
 Anyone who goes into the room should put on
a well-fitted respirator mask before they
enter.
(B-2) Contact precautions may be needed
for germs that are spread by touching.
 Contact precautions help keep staff
and visitors from spreading the germs
after touching a person or an object
the person has touched.
 Some of the germs that contact
precautions protect from are C
difficile and nor virus. These germs
can cause serious infection in the
intestines.
 Anyone entering the room that may
touch the person or objects in the
room should wear a gown and gloves.
(B-3) Droplet precautions are used
to prevent contact with mucus and
other secretions from the nose and
sinuses, throat, airways, and lungs.
 When a person talks, sneezes, or
coughs, droplets that contain
germs can travel about 3 feet (90
centimeters).
 Illnesses that require droplet
precautions include influenza
(flu), pertussis (whooping cough),
mumps, and respiratory illnesses,
such as those caused by
Infection control for health care
workers
There are three major modes of
transmission of infectious materials
in clinical setting:
 Puncture wounds from
contaminated needles or other
sharps
 Skin contact, which allows
infectious fluids to enter through
wounds and broken or damaged
skin
 Mucous membrane contact, which
Steps to follow after exposure to blood
borne pathogens
 Report the incident immediately to
appropriate personnel within the
agency.
 Complete an injury report.
 Seek appropriate evaluation and
follow up. This include:
 Identification and documentation of
the source individual.
 Testing of the source for hepatitis B,
hepatitis C, and HIV when consent is
given.
 Making results of the test available to
source individual’s health care
provider.
 Testing of blood of exposed for
hepatitis C, hepatitis B, and HIV
antibodies.
 Post exposure prophylaxis if medically
indicated.
 Medical and psychological counseling
regarding personal risk of infection or
risk of infecting others.
For puncture/ laceration:
 Allow some bleeding to drain the site
but do not squeeze the tissues.
 Wash/clean the area with soap and
water.
 Initiate first-aid and seek treatment if
indicated.
 For a mucous membrane exposure
(eye, nose, mouth) saline or water
flushes for 5 to 10 minutes.
Role of the Infection Control
Department:
 Providing staff education on
infection control.
 Reviewing infection control policies
and procedures.
 Gathering statistics regarding the
epidemiology of nosocomial
infections.
 Investigation of outbreaks of
infection.
 Providing input regarding selection
of patient-care products.
 Research related to infection control
activities.
Role of the nurse:
 The nurse is responsible for providing
the client with the safe environment by
using effective aseptic techniques.
 The nurse should also assume
responsibility for monitoring other
health care team members who enter
the client's environment.
 Educate others regarding the client's
isolation status. Aggressive preventive
measures can be highly effective in
reducing nosocomial infections.
 The nurse uses precautions for all
clients, even when an infection has not
been diagnosed.
Evaluating
If outcomes have not been achieved, the nurse
may need to consider questions such as the
following:
 Were appropriate measures implemented
to prevent skin breakdown and lung
infection?
 Was strict aseptic technique implemented
for invasive procedures?
 Are prescribed medications affecting the
immune system?
 Is client placement appropriate to reduce
the risk of transmission of microorganisms?
 Did the client and family misunderstand or
fail to comply with necessary instructions?