Infectious disease
Download
Report
Transcript Infectious disease
Epidemiology of Infectious disease
1
Symbiotic Relationships Between
Microbes and Their Hosts
Symbiosis means “to live together”
We have symbiotic relationships with countless
microorganisms
Types of symbiosis
Mutualism
Commensalism
Parasitism
2
Symbiotic Relationships Between Microbes and Their Hosts
3
Infection
Mutualsim: Each one benefits
Commensual: One organism benefits, the other is
not harmed.
Parasitism: Advantage to one, disadvantage to the
other.
Obligate relationship: one depends on the other for
survival (parasites are obligate pathogens)
Normal Flora: Organism is always on or in us; GI, GU, oral
mucosa.
Sterile areas of the body: Blood, CSF. Any organism here
indicates something is wrong. The first indicator is
decreased glucose, increased protein
Opportunistic Pathogens: A normal flora organism that
becomes a pathogen when the host’s immune defense
decreases.
Trauma, Surgery, Burns: overcomes barriers of defense
Catheterization: allows increased access and decreased defense
Chemotherapy: e.g. ablative (for CA) destroys bone marrow,
therefore myeloid and lymphoid immunity goes down.
Co-infection: e.g. haemophilic influenza is 2° to viral influenza.
Tissue Tropism
Tissue Tropism (organisms are selective of tissues they
infect): influenza does not affect your hand; gonorrhea
only effects mucosa. Tropism can also be species, organ,
or non-specific.
HIV integrates a provirus into our chromosome.
Antibodies actually assist the HIV organisms because
opsinization helps to internalize the virus. Because of
almost no cell mediated immunity (T-cells are infected),
AIDS patients die from TB, cytomegalovirus (CMV),
Candida, pneumocystis. When a person has a second
infection, it is called a CO-INFECTION.
OBLIGATE PATHOGENS
Will always cause infection and disease whenever
and wherever they are encountered (e.g. Yersinia
pestis plague, anthrax, smallpox) unless you are
immune. However, they don’t want to kill their
host.
Virulence
VIRULENCE: Ability to cause infection and disease. They have special
structures that allow them to attach, invade, spread, etc.
MULTIPLICITY OF INFECTION (INNOCULUM): the number of
organisms needed to cause disease. There is an inverse relationship
between virulence and Multiplicity of Infection. If only a few bacterial cells
cause the disease, it is said to be very virulent.
Obligate pathogens are virulent, even with a low inoculum, because they
are effective. Most innoculum needs 103-5 organisms. Only 10 organisms
can form an innoculum in a virulent organism such as anthrax.
Anthrax avoids immune defenses by exploiting the very mechanisms
used to fight it. It becomes activated after phagocytosis.
Mycobacterium will coat the wall of vacuoles so lysozymes can’t fuse.
Rickettsia is on a timer, and escapes the vacuole to invade the nucleus.
PORTALS OF ENTRY (POE)
CEPHALIC (7 PORTALS): Mouth, nose, eyes, ears.
CORPOREAL: Mammary, Vaginal, Urethral, Rectal
TRAUMA/MEDICAL: Burn, Compound Fracture,
surgical/catheter, injury/IVDA, abnormal mucosa (CA
chemo).
MODES OF TRANSMISSION (MOT)
AEROSOL: Airborne micro-particles (soil aerosol containing
endospores)
DROPLET NUCLEI: Mucoid micro-droplet via cough or sneeze, durable
on surfaces, mainly transmitted by contact. Sneeze and cough into your
elbow!
DIRECT CONTACT: Direct object/tissue-to-tissue contact.
o
CASUAL TRANSMISSION: handshake, clothing
o
ASPIRATION: inhalation of oral, GI, or food-borne organisms
o
FECAL-ORAL: autoinoculation or contamination
(poor hygiene)
o
SEXUAL TRANSMISSION (STD): sexual/bodily fluid contact
AGENTS OF TRANSMISSION
VECTOR: a living organism that spreads disease from one
host to another.
(mosquitoes, ticks, rats, humans)
FOMITE: inanimate object that spreads disease from one
host to another.
(toothbrush, water glass, toys, handles, keyboard, light
switch, cell phones, TV remote)
HOST-PATHOGEN RELATIONSHIP (HPR)
INFECTION: presence of organism
DISEASE: adverse symptoms due to infection
NORMAL FLORA: organism typically found on healthy individual
PATHOGEN: organism causing disease (etiologic agent)
IMMUNOCOMPROMISED: suppressed or deficient immunity
NOSOCOMIAL: acquired in hospital setting
COMMUNITY-ACQUIRED: acquired in routine, day-to-day activities
OPPORTUNISTIC PATHOGEN: normal flora + compromised pathogen
OBLIGATE PATHOGEN: always causes Dz if present
PATHOGENESIS (Px): events leading to Dz (POEDz)
MULTIPLICITY OF INFECTION (MOI): inoculum required for infxn
INCUBATION (INC): time from transmission to Dz
VIRULENCE: measure of Dz capability
VIRULENCE FACTOR (VF): ultrastructure, exoenzyme, or exotoxin
BACTERIAL SYMPTOM TERMINOLOGY
BACTEREMIA: bacteria in bloodstream
BACTERURIA: bacteria in urine (normal or pathogenic flora)
SEPTICEMIA: Gram negative bacteremia in the bloodstream
PYEMIA: Gram + bacteremia
PYROGENIC: fever-producing infection or bacterial components
PURULENT: pus-producing, reaches an opening to drain out. The pus is a
collection of dead neutrophils, which are the 1° immune cells when there is pus.
GRANULOMATOUS: infxn where macrophages are 1° immune cells (no pus)
DIFFERENTIAL DIAGNOSIS (DDx): all possible causes of the disease.
UROSEPSIS: Septicemia from UTI
FACULTATIVE INTRACELLULAR PARASITES: are not obligate pathogens. They
can survive temporarily in white cells, such as neutrophils, Monocytes/
Macrophages.
EXOTOXINS: A toxin made and then secreted, e.g. pesticin, hemolysins,
shigatoxins, choleragen, enterotoxins, plasminogen activating factor, coagulase,
etc.
ENDOTOXINS: A component of the cell wall is toxic to us, e.g. LPS and LOS.
Symbiotic Relationships Between Microbes and Their Hosts
Normal Microbiota in Hosts
Also termed normal flora and indigenous
microbiota
Organisms that colonize the body’s surfaces
without normally causing disease
Two types
Resident microbiota
Transient microbiota
14
Symbiotic Relationships Between Microbes and Their Hosts
Resident microbiota
Are a part of the normal microbiota throughout life
Are mostly commensal
Transient microbiota
Remain in the body for short period
Found in the same regions as resident microbiota
Cannot persist in the body
Competition from other microorganisms
Elimination by the body’s defense cells
Chemical or physical changes in the body
15
Symbiotic Relationships Between Microbes and Their Hosts
Acquisition of normal microbiota
Development in womb free of microorganisms (axenic)
Microbiota begin to develop during birthing process
Much of one’s resident microbiota established during
first months of life
16
Symbiotic Relationships Between Microbes and Their Hosts
How Normal Microbiota Become Opportunistic
17
Pathogens
Opportunistic pathogens
Normal microbiota that cause disease under certain
circumstances
Conditions that provide opportunities for pathogens
Introduction of normal microbiota into unusual site in
body
Immune suppression
Changes in the normal microbiota
Changes in relative abundance may allow
opportunity for a member to thrive and cause
disease
Inflammation
18
Host defense summary
19
What can you catch
from a toilet seat?
Cell surface markers
Designated as “CD”
Cluster of Differentiation
used to identify specific structures on a cell
~200 different designations
20
21
Reservoirs of Infectious Diseases of Humans
Most pathogens cannot survive for long outside of
their host
Reservoirs of infection
Sites where pathogens are maintained as a source
of infection
Three types of reservoirs
Animal reservoir
Human carriers
Nonliving reservoir
22
Reservoirs of Infectious Diseases of Humans
Animal Reservoirs
Zoonoses
Diseases naturally spread from animal host to
humans
Acquire zoonoses through various routes
Direct contact with animal or its waste
Eating animals
Bloodsucking arthropods
Humans are usually dead-end host to zoonotic
pathogens
23
Reservoirs of Infectious Diseases of
Humans
Human Carriers
Infected individuals who are asymptomatic but
infective to others
Some individuals eventually develop illness while
others never get sick
Healthy carriers may have defensive systems that
protect them
24
Reservoirs of Infectious Diseases of
Humans
Nonliving Reservoirs
Soil, water, and food can be reservoirs of
infection
Presence of microorganisms often due to
contamination by feces or urine
25
The Movement of Microbes into Hosts:
Infection
Exposure to Microbes: Contamination and
Infection
Contamination
The mere presence of microbes in or on the
body
Infection
When organism evades body’s external defenses,
multiplies, and becomes established in the body
26
The Movement of Microbes into Hosts: Infection
Portals of Entry
Sites through which pathogens enter the body
Four major pathways
Skin
Mucous membranes
Placenta
Parenteral route (intravenous)
27
Routes by which humans acquire parasitic infections
28
Figure 23.1
Routes of entry for invading pathogens
29
Portals of exit
30
The Movement of Microbes into Hosts:
Infection
Portals of Entry
Skin
Outer layer of dead skin cells acts as a barrier
to pathogens
Some pathogens can enter through openings or
cuts
Others enter by burrowing into or digesting
outer layers of skin
31
The Movement of Microbes into Hosts:
Infection
Portals of Entry
Mucous membranes
Line the body cavities that are open to the environment
Provide a moist, warm environment hospitable to
pathogens
Respiratory tract is the most common site of entry
Entry is through the nose, mouth, or eyes
Gastrointestinal tract may be route of entry
Must survive the acidic pH of the stomach
32
The Movement of Microbes into Hosts:
Infection
Portals of Entry
Placenta
Typically forms effective barrier to pathogens
Pathogens may cross the placenta and infect the
fetus
Can cause spontaneous abortion, birth defects,
premature birth
33
The Movement of Microbes into Hosts:
Infection
Portals of Entry
Parenteral route
Not a true portal of entry
Pathogens deposited directly into tissues beneath
the skin or mucous membranes (needle injection
or i.v.)
34
The Movement of Microbes into Hosts:
Infection
The Role of Adhesion in Infection
Process by which microorganisms attach
35
themselves to cells
Required to successfully establish colonies within
the host
Adhesion factors include
Specialized structures (acts like Velcro)
Attachment proteins (acts like glue)
The presence of adhesions are considered a
virulence factor.
The Movement of Microbes into Hosts: Infection
The Role of Adhesion in Infection
Attachment proteins help in adhesion
Found on viruses and many bacteria
Viral or bacterial ligands (proteins) bind host cell
36
receptors
Interaction can determine host cell specificity
Changing/blocking a ligand or its receptor can
prevent infection
Inability to make attachment proteins or adhesins
renders microorganisms avirulent
Some bacterial pathogens attach to each other to
form a biofilm
The Nature of Infectious Disease
Infection is the invasion of the host by a pathogen
Disease results if the invading pathogen alters
normal body functions
Disease is also referred to as morbidity
37
The Nature of Infectious Disease
Manifestations of Disease: Symptoms, Signs, and
Syndromes
Symptoms
Subjective characteristics of disease felt only by the patient
Signs
Objective manifestations of disease observed or measured
by others
Syndrome
Symptoms and signs that characterize a disease or abnormal
condition
Asymptomatic, or subclinical, infections lack symptoms but
may still have signs of infection
38
The Nature of Infectious Disease
Cause of Disease: Etiology
Study of the cause of disease
Germ theory of disease
Disease caused by infections of pathogenic
microorganisms
Robert Koch developed a set of postulates one
must satisfy to prove a particular pathogen causes a
particular disease
39
Koch’s Postulates
40
The Nature of Infectious Disease
Causation of Disease: Etiology
Exceptions to Koch’s postulates
Some pathogens can’t be cultured in the laboratory
Diseases caused by a combination of pathogens and
other cofactors
Ethical considerations prevent applying Koch’s
postulates to pathogens that require a human host
Difficulties in satisfying Koch’s postulates
Diseases can be caused by more than one pathogen
Pathogens that are ignored as potential causes of disease
41
The Nature of Infectious Disease
Virulence Factors of Infectious Agents
Pathogenicity
Ability of a microorganism to cause disease
Virulence
Degree of pathogenicity (how good is it at its job?)
Virulence factors contribute to virulence
Adhesion factors
Biofilms
Extracellular enzymes
Toxins
Antiphagocytic factors
42
The Nature of Infectious Disease
Virulence Factors of Infectious Agents
Extracellular enzymes
Secreted by the pathogen
Dissolve structural chemicals in the body
Help pathogen maintain infection, invade, and
avoid body defenses
43
The Nature of Infectious Disease
Virulence Factors of Infectious Agents
Toxins
Chemicals that harm tissues or trigger host
immune responses that cause damage
Toxemia refers to toxins in the bloodstream that
are carried beyond the site of infection
Two types
Exotoxins (made and secreted)
Endotoxins (part of the bacterial cell wall)
44
The Nature of Infectious Disease
45
The Nature of Infectious Disease
Virulence Factors of Infectious Agents
Antiphagocytic factors
Factors prevent phagocytosis by the host’s phagocytic
46
cells
Bacterial capsule
o Composed of chemicals not recognized as foreign
o Slippery; difficult for phagocytes to engulf bacteria
Antiphagocytic chemicals
o Prevent fusion of lysosome and phagocytic vesicles
o Leukocidins directly destroy phagocytic white blood
cells
The Nature of Infectious Disease
The Stages of Infectious Disease
The disease process occurs following infection
Many infectious diseases have five stages following
infection
Incubation period
Prodromal period
Illness
Decline
Convalescence
47
The stages of infectious disease
48
The Movement of Pathogens Out of
Hosts: Portals of Exit
Pathogens leave host through portals of exit
Many portals of exit are the same as portals of entry
Pathogens often leave hosts in materials the body
secretes or excretes
49
Portals of exit
50
Modes of Infectious Disease
Transmission
Transmission is from a reservoir or a portal of exit to
another host’s portal of entry
Three groups of transmission
Contact transmission
Direct, indirect, or droplet
Vehicle transmission
Airborne, waterborne, or foodborne
Vector transmission
Biological or mechanical
51
Classification of Infectious Diseases
Diseases can be classified in number of ways
The body system they affect
GI system, nervous system, blood
Taxonomic categories
Viral disease, Gram +
Their longevity and severity
Chronic vs. acute; mild vs. severe
How they are spread to their host
STD, blood borne, food
The effects they have on populations (rather than
52
on individuals): global/pandemic vs. epidemic
Classification of Infectious Diseases
Terms used to classify infectious disease
Acute disease (rapid onset, short duration)
Chronic disease (long duration)
Subacute disease (slower onset, medium duration)
Latent disease (present but not obvious symptoms)
Communicable (Contagious)
53
Epidemiology of Infectious Diseases
INFECTION: Presence of microbe
DISEASE: Symptomatic
consequence of infection
54
Epidemiology
Epidemiology is the study of the patterns, causes, and effects
of health and disease conditions in defined populations. It is
the cornerstone of public health by identifying risk factors
for disease and provides information for preventive
healthcare.
Major areas of epidemiological study include disease etiology,
outbreak investigation, disease surveillance and screening,
biomonitoring, and comparisons of treatment effects such as
in clinical trials.
John Snow
Dr. John Snow is
known as the father
of modern
epidemiology. He
showed that cholera
was water-borne,
and debunked the
Miasma theory,
which stated that
cholera came from
bad air.
John Snow
John Snow was a British physician in London in 1854, where
a major cholera outbreak struck the nearby city of Soho.
In three days, 127 people who lived near Broad Street died of
Cholera. Within a week, 500 people had died and one in
seven people who developed cholera eventually died from it.
John Snow suspected contamination of the water, but
couldn’t find any organic matter in it. Almost all the cases of
cholera occurred close to the Broad Street Water Pump.
Snow mapped out the cases of cholera in relation to the
water pump.
The evidence Snow presented convinced the local council to
remove the pump handle, halting the spread of the disease. It
wasn’t until 1885, when Robert Koch identified V. cholerae as the
bacillus causing the disease that he had proof of his theory. He was
right, but wasn’t around to see this discovery himself. John Snow
died four years later, at the age of 45.
Epidemiology of Infectious Diseases
Frequency of Disease
Track occurrence of diseases using two measures
Incidence
Number of new cases of a disease in a given
area during a given period of time
Prevalence
Number of total cases of a disease in a given
area during a given period of time
Occurrence also evaluated in terms of frequency
and geographic distribution
61
The incidence and estimated
prevalence of AIDS
62
Epidemiologists report data in a
number of ways
63
Different terms for the occurrence of
disease
64
Epidemics Defined Relative to
Expected Number of Cases
65
Epidemiology of Infectious Diseases
Epidemiological Studies
Descriptive epidemiology
Careful tabulation of data concerning a disease
Record location and time of the cases of
disease
Collect patient information
Try to identify the index case (or first case) of
the disease
66
Epidemiology of Infectious Diseases
Epidemiological Studies
Analytical epidemiology
Seeks to determine the probable cause
67
(etiology), mode of transmission, and methods of
prevention
Useful in situations when Koch’s postulates can’t
be applied
Often retrospective
Investigation occurs after an outbreak has
occurred
Epidemiology of Infectious Diseases
Epidemiological Studies
Experimental epidemiology
Involves testing a hypothesis concerning the
cause of a disease
Application of Koch’s postulates is experimental
epidemiology
68
Endemic
1: characteristic of or prevalent in a particular field, area, or
environment
2: restricted or peculiar to a locality or region
“Endemic" means "in the population."
"Endemic" is often used to characterize diseases that are
generally found in a particular area; malaria, for example, is
said to be endemic to tropical and subtropical regions. This use
differs from that of the related word "epidemic" in that it
indicates a more or less constant presence in a particular
population or area rather than a sudden, severe outbreak within
that region or group. The word is also used by biologists to
characterize the plant and animal species that are only found in
a given area.
Epidemic
Affecting or tending to affect a DISPROPORTIONATELY large
number of individuals within a population, community, or
region at the same time
Demographics
The changes (such as the number of births, deaths,
marriages, and illnesses) that occur over a period of time in
human populations; also : a set of such changes.
The demographics of a particular disease would include the
ratio of males to females that have the disease, the average
age, the geographical distribution, and the incidence (the
likelihood of a person getting the disease) in a particular
Country.
Epidemiology of Infectious Diseases
Hospital Epidemiology: Nosocomial Infections
Types of nosocomial infections
Exogenous
Pathogen acquired from the health care environment
Endogenous
Pathogen arises from normal microbiota due to
factors within the health care setting
Iatrogenic
Results from modern medical procedures
72
The interplay of factors that result in
nosocomial infections
73
Epidemiology of Infectious Diseases
Hospital Epidemiology: Nosocomial
Infections
Control of nosocomial infections
Precautions designed to reduce factors that result
in disease
Hand washing is the most effective way to reduce
nosocomial infections
74
Epidemiology of Infectious Diseases
Epidemiology and Public Health
Agencies at the local, state, national, and global
level share information concerning disease
The United States Public Health Service
World Health Organization (WHO)
Public health agencies work to limit disease
transmission
Monitor water and food safety
Public health agencies campaign to educate the
public on healthful choices to limit disease
75
Basic Principles of
Microbial Control