Outline of Lectures 18 Review of the work on contagious disease by Koch. 19 Epidemiology and Public Health. 20 Microbial interactions with higher animals. Examination of the normal flora of animals. 21 Entry of the pathogen into the host. Colonisation and growth. 22 Transmission of pathogens. Bacterial respiratory infections and sexually transmitted bacterial diseases. 23 Insect transmitted diseases. 24 Food-borne and water-borne bacterial diseases.
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Outline of Lectures 18 Review of the work on contagious disease by Koch. 19 Epidemiology and Public Health. 20 Microbial interactions with higher animals.
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Outline of Lectures
18 Review of the work on contagious disease by Koch.
19 Epidemiology and Public Health.20 Microbial interactions with higher animals.
Examination of the normal flora of animals.21 Entry of the pathogen into the host.
Colonisation and growth. 22 Transmission of pathogens. Bacterial
respiratory infections and sexually transmitted bacterial diseases.
23 Insect transmitted diseases.24 Food-borne and water-borne bacterial
diseases.
Course text: Brock Biology of Microorganisms
Michael T. MadiganJohn M. MartinkoPaul V. DunlapDavid P. Clark
Tenth/Eleventh/Twelfth (international) Edition
Publisher: Pearson Education
18. Review of the work on contagious disease by Robert
•In the U.S., the major causes of death at the beginning of the 20th century were infectious agents called pathogens.•The elderly and the young were the most susceptible to the infectious diseases caused by these pathogens.•Today, in developed countries the incidence of death is greatly reduced through understanding how these pathogens cause disease and the disease process itself, improved sanitary and public health practices and the development and use of antimicrobial agents.•Instead non-microbial diseases (e.g. heart disease, cancer, etc.) are the major causes of death in the U.S. according to the data obtained in 2008.
•Although, medical and microbial science have been successful in controlling many microorganisms and even eradicating them (smallpox), there are still microbial infections (malaria, tuberculosis, cholera, measles, pneumonia to count some) that cause death.
•Furthermore, diseases that could emerge suddenly [severe acute respiratory syndrome (SARS), bird flu, swine flu] and have the potential to infect different species including humans, in addition to exotic and rare diseases such as ebola haemorrhagic fever can also spread across the world due to the ease of global travel.
Microorganisms as disease agents
Some early history of microbiology
Brock 12th ed. Table 1.1
Some early history of microbiology
(a) Drawing of a bluish-coloured mold by Robert Hooke. This is the first drawing describing a microorganism. (b) Antoni van Leeuwenhoek’s drawings of bacteria. Rod-shaped: A,C,F and G; spherical or coccus-shaped: E; cocci packets: H. (c) Photomicrograph of a blood smear taken through a van Leeuwenhoek microscope. Red blood cells are visible and a single cell is about 6 μm in diameter.
Some early history of microbiology
Ferdinand Cohn’s drawing of the large filamentous sulfur-oxidizing bacterium Beggiatoa mirabilis.
Robert Koch’s Germ Theory of Disease
It was recognized in the 16th century that diseases would spread in populations.
Concept of contagious disease understood.
Work by Pasteur (1864) and subsequent discovery of sanitization (Lister 1867) was indirect evidence that microorganisms were responsible for disease – spontaneous generation theory finally quashed.
Robert Koch provided firm proof that microbes were responsible for certain diseases.
"Bring out your dead," from scene 2 of the film, Monty Python and the Holy Grail
http://www.microbiologyplace.com – Spontaneous generation theory quashed.
• Development of conditions for growth of microorganisms in pure culture on solid media.
• Prevention of contamination (Ferdinand Cohn)
• Animal models of disease.
Robert Koch (1843-1910)• 1862: studies medicine at University of
Göttingen, Germany.
• He studied anthrax, a disease of the cattle and occasionally humans, caused by the endospore forming bacterium Bacillus anthracis. He noticed by careful microscopy that blood of diseased animals contained the bacterium.
• This association does not prove that anthrax caused the disease – maybe growth of the bacterium is a result of the disease?
• During his “spare time” he worked at home
inoculating healthy mice with the “unpurified” anthrax from (blood of) spleens of diseased (infected) farm animals -the newly infected mice died of anthrax.
• He then isolated the anthrax bacillus and showed this organism still caused anthrax. He thus proved that it was the anthrax bacterium and not the “bad” blood that caused the disease.
KOCH’S POSTULATES
The Postulates: Tools:
1. The suspected pathogenic organism should be present in all cases of the disease and absent from healthy animals.
2. The suspected organism should be grown in pure culture.
Microscopy, staining
Laboratory culture
Redbloodcells
Colonies ofsuspectedpathogen
Suspectedpathogen
Streak agar platewith samplefrom eitherdiseased orhealthy animal
Inoculate healthy animal withcells of suspected pathogen
Observeblood/tissueunder themicroscope
Diseasedanimal
Healthyanimal
Redbloodcell
Noorganismspresent
KOCH’S POSTULATES
The Postulates: Tools:
3. Cells from a pure culture of the suspected organism should cause disease in a healthy animal.
4. The organism should be reisolated and shown to be the same as the original.
Experimental animal
Laboratory reisolation
Diseased animal
Suspectedpathogen
Remove blood or tissue sampleand observe by microscopy
Laboratoryculture
Pure culture(must besameorganismas before)
Diseased animal
Healthy animal
Robert Koch’s work on Tuberculosis (TB)
• In 1881, 1/7th of all human deaths were caused by TB – a wasting disease (consumption)
• Until Koch’s work, the causal agent had not been identified.
• He used microscopy, purified culture, tissue staining and animal inoculation.
• Koch developed a specific stain for Mycobacterium tuberculosis cells.
• Importantly he developed conditions for growth of M. tuberculosis – blood serum agar.
• He used Guinea pigs to examine infection (animal model).
• Again he satisfied his four criteria that M. tuberculosis caused TB.
Koch’s work on TB
• Koch used all his methods as he set out to identify the causative agent of TB.– Microscopy– Staining– Pure culture– Animal models
• Growth of M. tuberculosis in pure culture was very challenging – but he never gave up!
• Once pure culture growth was achieved his four postulates could be readily satisfied.
Studies of Mycobacterium tuberculosis
• (a) Section through a tubercle from lung tissue. Cells of M. tuberculosis stain blue, whereas the lung tissue stains brown.
• (b) Cells of M. tuberculosis in a sputum sample of a tuberculous patient.
• (c, d) Growth of M. tuberculosis in pure culture.
• (c) Growth of M. tuberculosis on a glass plate of coagulated blood serum inside a glass box (with lid open).
• (d) A colony of M. tuberculosis cells taken from the plate in (c) and observed microscopically at 700×; cells appear as long "cordlike" forms.
Brock 12th ed. Fig. 1.16
Robert Koch (1843-1910)• 1882: Koch publishes his
work on tuberculosis.
• Studied cholera in India.
• Did further work on pure cultures on solid media in flat dishes designed by Petri.
• 1905: Awarded Nobel Prize in Physiology or medicine for his decisive work on tuberculosis.
• Increasing prevalence today due to AIDS and antibiotic resistance.
• Genome sequenced
See Brock Chapter 34.5
Tuberculosis X-rays. (a) Normal chest X-ray. (b) Advanced case of pulmonary TB chest X-ray.
Diagnosis of Tuberculosis today
A century later:
Peptic Ulcers in the 1980’s
Peptic Ulcers in the 1980’s
• Prevailing view (pharmaceutical industry vested interest?): “ulcers were caused by acid, lifestyle stress, spicy foods, and should be treated by drugs blocking acid production”
• Tagamet™ and Zantac™ two of best ever selling drugs (Histamine H2 receptor blockers).
• These drugs did not “cure” disease but managed it - so perfect drugs for maximum profit!
• At the time the stomach was considered sterile -acid environment (pH 2) Barry Marshall