AP Biology (An Introduction)
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Transcript AP Biology (An Introduction)
Infectious Disease
AS Supplement
Infectious Disease
An infectious disease is a transmissible disease
resulting from the presence of pathogens including
prions, viruses, bacteria, fungi, protozoa and
multicellular parasites.
These pathogens are able to cause disease in animals
and/or plants.
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Pathogen Transmission
Transmission can be
Direct contact – directly from person to person
Fluid transfer (HIV)
Pathogen cannot survive outside of host
Vector borne
Malaria – Anopheles mosquitoes
Water borne
Cholera
MattDamon Bourne
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Some Definitions
Transmission cycle is the way in which a pathogen
passes from one host to another.
Control methods attempt to break the transmission
cycle
Major control methods
Vaccination
Barriers
Sterilization of instruments
Disinfecting or antiseptic procedures
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Some Definitions (Page 2)
Incidence – Number of NEW cases in a time period
Prevalence – TOTAL number of infected individuals
Endemic – When the disease is always found in a
population
Prevalence may be high or low
Epidemic – Sudden or dramatic increase in the
incidence of a disease in an area or country
Pandemic – Worldwide epidemic
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WHO (World Health Org.) Data
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Comparison by Income
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Pathogen Class & Disease
Bacterial
Viral
TB
(Tuberculosis)
HIV / AIDS
Protist
Malaria
Cholera
Smallpox
Measles
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Cholera (Overview)
Caused by the bacterium Vibrio cholerae
3% death rate
Water-borne
Infection occurs by ingestion of fecal
contaminated fluids or food
Profuse diarrhea and vomiting
Due to enterotoxin production
(3 to 5 US gal) of diarrhea a day.
High bacteria load in diarrhea (rice water)
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Cholera (Overview 2)
Endemic in Africa and areas without access to
If treated, recovery is quick
If untreated, mortality > 50%
Treatment
Oral rehydration therapy (ORT)
In severe cases
Potassium replenishment due to acidosis
Antibiotic therapy
Doxycycline (Vibramycin)
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Cholera: Pathology
The bacteria lodge in the small intestine & multiply
Produce an enterotoxin called choleragen
Disrupts epithelium functions by inhibiting a G-Protein
This leads to excess salt exiting the epithelium into the
intestinal lumen
Now the intestinal lumen is hypertonic, so
Excess water is secreted into the intestinal lumen from
the epithelial linings
AND the patient loses copious amounts of water via
diarrhoea
Can be fatal if untreated for 24 hours
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Cholera: Cause & Transmission
Vibrio Cholerae (bacterium) is
ingested
Fecal contaminated of water or
food
Usually unclean water supply
Especially in poor nations
Sometimes oysters or shellfish
If living in waters infected with
human sewage
Mainly found in wealthy nations
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Cholera is a top 10 cause of death, WHY?
Very rare in the US
Nearly all domestic cases (0-5 per year) are attributed to
exposure abroad
Common in recently industrialized countries
Africa has the highest case fatality rate
Large population migrations into urban centers in developing
countries strain existing water and sanitation infrastructure
and increasing disease risk.
Cholera epidemics are a marker for poverty and lack of basic
sanitation.
An ongoing global pandemic in Asia, Africa and Latin
America for the last four decades.
2010 Haiti outbreak following earthquake = 303 deaths
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Cholera is a social issue
No sewage treatment or clean water in growing
populations of developing countries
No financial resources to tackle large municipal projects
such as providing drainage system and clean water
supply.
Inadequate cooking or washing in contaminated water.
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Measles
Highly contagious respiratory disease
Measles virus = pathogen AND measles = disease
Death Rate = 1-2 /1,000
7-10 day course of infection
Rash throughout body and flu-like symptoms
Children may spike high fevers
Characterized by frequent complications & highly
contagious nature
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Measles (Page 2)
Transmitted via breathing, coughing or
sneezing.
CDC: “It is so contagious that any child
who is exposed to it and is not immune
will probably get the disease.”
Easily prevented by a common
childhood vaccine that is recommended
for all children
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Measles Prevalence
Prior to vaccine availability, almost every child
in the US (and parts of Europe) contracted
measles.
Now, only sporadic cases remain in the US and
other Americas.
But deaths do occur in India and Asia
2010 Worldwide: 20 mil. cases AND 164,000
deaths
Anti-vaccine movement
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Malaria
Malaria is caused by the protoctist
(protist) Plasmodium
It is an Anopheles mosquito-borne
infectious disease
Anopheles is considered a vector
(transmits the pathogen)
Confined to tropical areas
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Mosquito Vector
The female Anopheles mosquitoes feed on
human blood to obtain protein
Plasmodium may be present in Anopheles’
saliva, so a bitten by an infected Anopheles,
may take up some of the plasmodium.
The female is only sucking blood, so how
does the plasmodium get injected into the
human?
Once in the blood, the plasmodium
parasites travel to the liver to mature and
reproduce.
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Mosquito Vector (Page 2)
The infective stages of the
Plasmodium enter the red blood
cells, where they multiply.
When the infected mosquito feeds
again, it injects an anti-coagulant
into the blood meal so that it flows
out from the host into the
mosquito.
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Clarification…
How does a vector differ from a pathogen?
Can you get infected from a mosquito bite, when the
mosquito does not harbor the plasmodium parasite?
Can you get infected from a male mosquito bite, when
the mosquito has the plasmodium parasite?
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Prevention of Malaria
The three main ways to control
malaria:
1. Reduce the number of mosquitoes
(destruction of breeding ground,
stagnant water, the use of
insecticides)
2. Avoid mosquitoes bites (using fly
screens, mosquito repellents)
3. Use prophylactic drugs to prevent
infection (chloroquine and quinine,
proguanil, mefloquine).
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Current Issues in Malaria Treatment
An increase in drug-resistance forms of Plasmodium.
An increase in proportion of cases caused by
Plasmodium falciparum (more lethal form)
Difficulties in developing a vaccine
An increase in the number of epidemics because of
climatic and environmental changes that favours the
spread of mosquitoes (Global Warming is bad?)
the migration of people as a result of civil unrest and
war.
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HIV / AIDS
AIDS = Acquired Immune Deficiency
Syndrome (NOT Disease)
Due to a collection of opportunistic infections
Caused by the retrovirus HIV (Human
Immunodeficiency Virus)
HIV Disease is caused by HIV pathogen
HIV infects Helper T-cells
CD4 cells
Involved in which acquired immunity?
So how is it pathological?
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-- 2 copies of ssRNA = viral genome
-- Has reverse transcriptase (Why?)
-- Proteases for exiting cells
-- Glycoprotein 120 and 41 in envelope
-- p24 in the conical capsid
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HIV / AIDS Pathology
HIV infection results in the gradual destruction of the
immune system by destroying the CD4 cells and
macrophages
Since the immune system is compromised, patients are
susceptible to Opportunistic Infections (OIs)
Patients cannot defend against OIs, and die ultimately
of the OI, but really died due to the loss of immune
system functionality
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HIV Disease
Infection is characterized by a brief flu-like disease
Called Acute HIV syndrome
2-4 weeks following exposure
Clinical Latency
Patient will be asymptomatic for multiple years
3-20 years after exposure
Progressive appearance of symptoms
People may not know they are HIV carriers
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AIDS
Following the progressive degeneration of the immune
system, eventually the patient runs out of T-cells
Diagnosis: T-cell (CD4) count < 200
Coincides with the appearance of an OI
End stage of HIV disease
PCP – pneumocystis Carnii pneumonia (40%)
Esophageal Candidiasis, wasting disease
Viral induced cancers (Kaposi’s sarcoma)
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Transmission
Unprotected sexual intercourse
Primarily anal (0.03-3.00% risk) and vaginal (0.05-0.30%)
Risk varies dramatically between high risk (low income
countries) and lower risk (high income countries)
Exposure to bodily fluids or tissues (blood to blood)
Birth (25% risk)
Risk can be reduced to 1% with Anti-Retroviral Therapy
Intravenous drug usage (0.67%)
Inappropriate syringe usage in sub-Saharan Africa
Blood transfusions (90%)
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Social Issues
HIV infection weakens the immune system thus people
are more vulnerable to malnutrition, TB and malaria.
AIDS cause an adverse effect on the economic
development of countries
Purchase of expensive drugs drains government funds
AIDS has reversed 10-15 years of economic growth for
some African states.
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Treatment
No cure and no vaccine for HIV
Drug therapy can slow down the onset of AIDS
The drugs have side effects and are expensive.
Two or more drugs (combination therapy) can prevent
the replication of the virus inside the host cells.
Delays progression of the disease
May lead to atherosclerosis and cardiomegalopathy
The pattern and timing of medication through the day
must be strictly followed.
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Global Distribution of HIV
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Tuberculosis
Tubercle Bacillus (TB)
Tubercle is a round nodule or wart-like structure
Mycobacterium = pathogen
Airborne
An invasive disease - it starts with a primary infection in
the lungs and quickly spreads to the lymph nodes,
bones and gut.
It often strikes HIV-positive people when their immune
system begins to weaken.
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Characteristics
Most commonly affects the lungs (pulmonary TB)
but can also affect the CNS, lymphatic system, and
even skin.
Some people become infected and develop TB
quite quickly, whilst in others the bacteria remain
inactive for many years.
People with this inactive infection do not spread
the disease to others.
But the bacteria become active when these
people are weaken by other diseases, suffer from
malnutrition or become infected with HIV.
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Transmission Method
Generally, it is spread via
airborne droplets, and is
particularly prevalent in
overcrowded areas, and people
suffering malnutrition are more
susceptible.
TB is spread when infected
people with the active form of
the illness cough or sneeze
The bacteria are carried in the
air in tiny droplets of liquid.
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TB due to Bovine?
M. Bovis also causes tuberculosis
and occurs in cattle, it can be
spread via their meat and milk, but
both bacterium infections have
fallen now because of vaccine
introduction in the 1950s.
People can also contract TB from
cattle through airborne droplets
Pasteurization has made this
virtually irrelevant
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Treatment
Diagnosis - sputum sample is searched by microscope
for identification of the tuberculosis bacteria
Treatment always involves patient isolation
Treatment involves multiple antibiotics to ensure that
all bacteria are killed, especially the drug resistant
strain of the bacterium.
Long course of treatment (9 months to a year)
Incomplete treatment course may lead to infecting
others with drug-resistant forms (evolved) of TB.
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TB Resistance
Tuberculosis is unfortunately showing a comeback, and
this is thought to be due to a variety of factors.
These include;
Breakdown in the vaccination and control program
Poor housing causing overcrowding
The AIDS epidemic weakening immune systems and
allowing it to be more prevalent
Some strains are now resistant to antibiotics
Multiple Drug Resistant (MDR-TB) &
Extremely Drug Resistant (XDR-TB)
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TB Prevalence
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TB Mortality
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Current Issues
Frontline “TB Silent Killer” in Swaziland
NDM-1 plasmid gene
NDM-1 was first detected in a Klebsiella pneumoniae
isolate in 2008. It was later detected in India, Pakistan,
the UK, US, Canada, and Japan
Escherichia coli and Klebsiella pneumoniae, but the gene
for NDM-1 can spread from one strain of bacteria to
another by horizontal gene transfer.
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