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Printable Handouts
Navigable Slide Index
- Introduction
- Great advances in the control of disease
- Chronic diseases
- Diseases of uncertain cause (1)
- Why identifying chronic disease causes is difficult
- Risk factor
- Primary causes versus secondary causes
- Categories of disease causation
- Categories of disease causation: cystic fibrosis
- Categories of disease causation: tuberculosis
- Diseases of uncertain cause (2)
- Risk factor and disease cause: atherosclerosis (1)
- Atherosclerosis - definition
- Atherosclerosis - early pathology
- Atherosclerosis - late pathology
- Atherosclerosis and heart attack
- Risk factor and disease cause: atherosclerosis (2)
- Why epsilon 4 is not just a bad allele (1)
- Why epsilon 4 is not just a bad allele (2)
- Hunter/gatherer group survival table
- Why epsilon 4 is not just a bad allele (3)
- The thrifty genotype hypothesis
- Geographical variation in epsilon 4 frequencies (1)
- Molecular phylogeny of the epsilon alleles
- Unrealistic implications for epsilon 4 diseases
- Pathogen vulnerability hypothesis (1)
- Pathogen vulnerability hypothesis (2)
- C. pneumoniae infection and epsilon 4
- C. pneumoniae DNA in Alzheimer's patients brain
- Pathogen can cause different bad effects
- Geographical variation in epsilon 4 frequencies (2)
- Risk factor and disease cause: atherosclerosis (3)
- Environmental caustaion: smoking (1)
- Schemataic overview smoking and atherosclerosis
- Environmental caustaion: smoking (2)
- Environmental caustaion: high fat diet (1)
- Environmental caustaion: high fat diet (2)
- Environmental amelioration: alcohol
- Environmental amelioration: garlic
- Environmental causation: iron
- Inflammation and C-reactive protein
- Drug treatment and atherosclerosis: aspirin
- Drug treatment and atherosclerosis: statins
- Risk factor and disease cause: atherosclerosis (4)
- Acceptance of infection causation in the future
Topics Covered
- Chronic diseases (cystic fibrosis, atherosclerosis, tuberculosis)
- Risk factors
- Primary and secondary causes
- Categories of disease causation
- Risk factors and disease causation
- The e4 allele and the thrifty genotype hypothesis
- Geographical variations in allele frequencies
- Pathogen vulnerability hypothesis
- Environmental causations (smoking, high fat diet, alcohol, garlic, iron)
- Drug treatment and atherosclerosis
Links
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Talk Citation
Ewald, P. (2007, October 1). Infection and chronic disease [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 21, 2024, from https://doi.org/10.69645/TPCF9253.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Paul Ewald has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
A selection of talks on Immunology
Transcript
Please wait while the transcript is being prepared...
0:00
Infection and chronic disease.
0:04
The health sciences have generated great advancements over the past two centuries.
The prevention of waterborne transmission of diarrhoeal diseases alone saved
the lives of at least 10 percent of the residents of prosperous countries.
The invention of antibiotics has allowed physicians to cure rather than
console patients with lethal bacterial diseases such as ammonia.
The widespread use of vaccines has blocked
the circulation of deadly bacteria and viruses.
The deadliest virus of all the agent of
smallpox has been eradicated from the human population.
The discovery of essential dietary components vitamins has prevented
tremendous amounts of suffering and disfigurement
from diseases such as scurvy and rickets.
All of these accomplishments depended on an understanding of
disease causation or at least in insightful guess about what causes disease,
most of these accomplishments resulted from application of the germ theory.
The idea that diseases can be caused by parasites too small to be seen with a naked eye.
It makes sense that an understanding of
disease causation would be central to the advancement of medicine.
Once the cause of a disease is understood,
it may be blocked or eliminated,
and the disease may be prevented or cured.
Considering the tremendous importance of understanding disease causation
the great technological sophistication that has
been applied to medical problems in recent decades,
one would think the causes of virtually all human diseases would now be well understood,
but this is not the case.
Modern medicine has a good understanding of
disease causation for only about half of all human diseases.
1:28
Nearly all of these diseases of uncertain cause are chronic,
it develops slowly in a person and persist over long periods of time.
These chronic diseases of uncertain cause
include the big killers of prosperous countries.