Human-Microbe Interactions: Principles of Disease Transmission PDF

Summary

This document covers human-microbe interactions and disease transmission. It includes learning objectives, patterns of disease, stages of disease, discussion, spread of infection, and more. It is likely part of a course on microbiology or a similar topic at an undergraduate level.

Full Transcript

NURS 236:
Human-microbe interactions
Principles of disease and transmission

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 Learning objective (part 1)
To recall predisposing factors for disease
To explain the stages of disease
To explore the variety of reservoirs of infection
To contrast methods of disease transmission and
examples of each

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 Patterns of disease
Predisposing factors
– Any factor that would increase a host’s ability to be infected or
alter how a disease progresses
– Examples
Gender – UTIs, pneumonia, meningitis
Genetic background – sickle-cell anemia and malaria
Climate – environmental survival of MO
Weather, nutrition, fatigue, age, environment, lifestyle, occupation, etc.
p. 410

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 Patterns of disease
Stages of disease
– Can link to stages of MO growth
– Different MOs
May vary in the length of each period
Whether the host is infectious at each stage

Fig. 14.5
Tortora et al., 2013

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 Patterns of disease
Incubation period
– Initial infection to first symptoms
Prodromal period
– Early, mild symptoms
– Relatively short, may not be present in all diseases (virulence attack)

Fig. 14.5
Tortora et al., 2013

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 Patterns of disease
Period of illness
– Most severe signs and symptoms; major immune response
Period of decline
– Symptoms decrease; susceptibility to secondary infections

Fig. 14.5
Tortora et al., 2013

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 Patterns of disease
Period of convalescence
– Return to normal/homeostasis

Fig. 14.5
Tortora et al., 2013

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 Discussion:

How do the stages of microbial growth compare to the
different stages of disease?

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 Spread of infection:
Reservoirs
Reservoirs
– Source of a disease-causing MO
3 major groups
– Humans
– Animals
– Nonliving

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 Spread of infection:
Reservoirs
Humans
– Symptomatic
– Asymptomatic
Carriers (E.g., hospital staff with MRSA)
During incubation or period of convalescence stages of disease
– Example organisms
STIs
Streptococcal infections

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 Spread of infection:
Reservoirs
Animals
– Zoonoses
Diseases that are transferred from animals to humans
– Many different routes
Direct contact with an infected animal or its feces
Animal contaminated water, food (pets), animal products, hides
Can also be transmitted by arthropod vectors

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 Table 14.2
Tortora et al., 2013

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 Spread of infection:
Reservoirs
Nonliving
– Environmental sources of infection
Soil
– Fungi, nematodes, Clostridium tetani, C. botulinum
Water
– Protozoa, some helminths
Food
– Food poisoning, such as salmonellosis

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 Spread of infection:
Transmission
3 modes: contact, vehicles, vectors
Contact
– Direct contact
Physical contact between source and host (touching, kissing, etc.)
Common cold, influenza, hepatitis A, measles, STIs
Prevent via protective equipment

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 Spread of infection:
Transmission
Contact (continued)
– Indirect contact
Physical contact from source to host via a
nonliving object
HIV or hepatitis B in contaminated syringes,
organisms living in hospital environment
Prevention by maintaining a clean environment
– Droplet
Contact with aerosolized liquid that contains MOs
(< 1 m)
Influenza, whooping cough
Prevention through good hygiene practices
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 Spread of infection:
Transmission
Vehicle transmission
– Disease transmitted by a medium
– Water
E.g., fecal contamination leading to cholera or
leptospirosis
– Food
Such as poor cooking, storage or preparation
conditions leading to food poisoning or tapeworms
– Air
Similar to droplet contact, but larger distances
Airborne MOs or dust particles leading to tuberculosis
or fungal infections
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 Spread of infection:
Transmission
Vectors
– MO is transmitted between hosts by another organism (typically
an insect)
– Mechanical
Passive transport by insect from vector’s body to food
Typhoid fever or shigellosis on fly feet
– Biological
More active and complex
Some phase of MO life cycle (growth/reproductive) occurs in vector
Malaria – Plasmodium faciparum

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Vector organisms

Table 14.3
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Tortora et al., 2013
 Learning Objectives( Part 2)
To be able to explain pathology, etiology, infection and
disease
To recognize the difference between normal and transient
microbiota
To understand the different types of symbiosis
To be aware of where in the body normal flora are present
or absent
To recall the impact of opportunistic pathogens
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 Important terms
Pathology
– Scientific study of disease
Etiology
– Cause of a particular disease (e.g., a particular
MO)
Pathogenesis
– Steps in progression of a disease
Infection
– Pathogenic MO enters a host and begins to grow
Disease
– Change in host’s state of health that is associated
with an infection 20
 MOs on the human body
Many environments on/in
the human body
– Microbiomes
– Influenced by many factors
(chapter 6)
Differences between:
– Normal microbiota
MOs that are normally found
on our body
– Transient microbiota
MOs that live on/in our body
for a period of time and then
leave
– Can also be differences
between individuals Image from Wikimedia Commons 21
Example human MOs

Table 14.1 22
Tortora et al., 2013
 MOs on the human body
Different relationships with these MOs
– Different types of symbiosis

+/O +/+ +/-

Relationships can change with conditions
(Ch. 6)
– Opportunistic pathogens (E.g., Candida albicans,
Clostridium difficile) Fig. 14.2 23
Tortora et al., 2013
 Learning objectives (part 3)
To know all that there is to know about nosocomial
infections
To recognize the causes of emergent infectious diseases
and some examples

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 Nosocomial infections
Infection acquired
during a hospital or
other health-care
associated visit
– Growing frequency

Interaction between
3 factors
Fig. 14.5
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Tortora et al., 2013
 Nosocomial infections
MOs in hospital environment
– Common environment for MOs that alter
health
– Resistances to cleaning agents, antibiotics

Table 14.4
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Tortora et al., 2013
 Nosocomial infections
Compromised host
– Many body structures prevent
illness
These can be broken (open
wounds, skin, or mucous
membranes) or weakened
(immune system)

Table 14.5
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Tortora et al., 2013
 Nosocomial infections
Chain of transmisssion
– Mostly through direct and indirect contact transmission (hospital
staff)
Moving between different patients, shared patients

Control of nosocomial infections
– Handwashing – lead by example
– Identify sources/causes and resolve any problems
– Watch for patterns → epidemiology

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 Think-pair-share

Identify the 3 factors that results in nosocomial infections
and 2 strategies that could be used to combat these.
Have each strategy address different factors.

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 Emerging infectious disease
Disease that either appears for the first time or changes in
a manner that either potentially or actually increases its
incidence
Many causes/factors influence “emergence”

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 Emerging infectious disease: factors
Factors
– New disease
Zoonotics – humans never exposed before (HIV)
New to an area - international travel a major concern
(smallpox in N. America, West Nile virus)
– Genetic
Acquisition of a new traint
– Antibiotic resistance (MRSA), strain mixing (Influenza),
Toxin production (E. coli O157:H7)
– Environmental
Movement of MO, reservoir, or vector to a new area
– Climate change leading to changes in malaria, Hantavirus
regions
– More on p. 418
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Emerging infectious
diseases: examples

Table 14.6
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Tortora et al., 2013
 Sample question

Identify an emerging infectious disease and explain why
that particular disease may be classified that way

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