• Fundamentals of Evolution and Medicine
• 50 min
  1. Evolutionary medicine

  • Prof. Randolph Nesse
• 38 min
  2. Evolution and medicine: from the perspective of an evolutionary biologist

  • Prof. Stephen C. Stearns
• 31 min
  3. Developmental plasticity, evolution and the origins of disease

  • Dr. Mary Jane West-Eberhard
• Evolutionary Genetics
• 47 min
  4. Genetic variation and human disease

  • Dr. David Houle
• 65 min
  5. Evolutionary genetics: the detection of natural selection using molecular data

  • Dr. Mark Thomas
• 46 min
  6. Ecogenetics, evolutionary biology and human disease

  • Prof. Gilbert Omenn
• 24 min
  7. Race in genetics and medicine

  • Prof. Jeffrey Long
• 46 min
  8. Health disparities in common complex diseases: a role for genetics?

  • Dr. Kathleen Barnes
• Infectious Disease
• 44 min
  9. Bacteria and virus evolution: a model for the study of natural selection

  • Prof. Paul Turner
• 39 min
  10. Evolutionary arms races

  • Prof. Mark Pagel
• 43 min
  11. Antibiotic resistance and hospital-acquired infection

  • Dr. Carl Bergstrom
• 36 min
  12. Evolution of drug resistance

  • Dr. Pleuni Pennings
• 34 min
  13. Evolution of virulence: malaria, a case study

  • Prof. Andrew Read
• 38 min
  14. Infection and chronic disease

  • Prof. Paul Ewald
• Defenses
• 36 min
  15. Fever and related defenses

  • Prof. Matthew Kluger
• 45 min
  16. The evolutionary ecology of immunity

  • Prof. Paul Schmid-Hempel
• Novel Environmental Factors
• 39 min
  17. What did humans evolve to eat? evolutionary perspectives on human nutritional health

  • Prof. William R. Leonard
• 45 min
  18. The original human diet: what was it and should it be a model for contemporary nutrition?

  • Prof. S. Boyd Eaton
• 42 min
  19. The paleolithic lifestyle and prevention of chronic disease

  • Prof. S. Boyd Eaton
• 49 min
  20. Early nutrition, development and health: evolutionary perspectives on the metabolic syndrome

  • Dr. Christopher Kuzawa
• 31 min
  21. Evolution, human-microbe interactions and the "epidemic" of inflammation-related disorders (alias: the hygiene hypothesis)

  • Prof. Graham Rook
• 31 min
  22. Diseases of civilization: an evolutionary legacy

  • Prof. Alan Weder
• Problems Arising From Constraints and Trade-Offs
• 51 min
  23. Aging and evolutionary medicine

  • Prof. Linda Partridge
• 45 min
  24. Human aging and menopause

  • Prof. Kristen Hawkes
• 32 min
  25. Why we cook with spices: preventative darwinian medicine

  • Prof. Paul Sherman
• Sex and Reproduction
• 32 min
  26. Setting the second stage: the evolution of menopause & post-reproductive life

  • Prof. Lynnette Sievert
• 44 min
  27. Evolutionary obstetrics

  • Prof. Wenda Trevathan
• 41 min
  28. Sex differences in mortality

  • Dr. Daniel Kruger
• 46 min
  29. The endocrinology of human life history transitions

  • Prof. Peter Ellison
• 43 min
  30. Genetic conflicts in human pregnancy

  • Prof. David Haig
• 57 min
  31. Environmental effects on human reproduction

  • Prof. Gillian Bentley
• Cancer
• 54 min
  32. A darwinian eye view of cancer

  • Prof. Mel Greaves
• 56 min
  33. Viruses and cancer

  • Prof. Robin Weiss
• 38 min
  34. Connecting aging and cancer through the lens of evolution

  • Prof. James DeGregori
• 44 min
  35. Evolutionary dynamics in cancer control and cure

  • Dr. Bob Gatenby
• Specific Body Systems
• 44 min
  36. Hard tissue biology in human health and evolution: enamel biology

  • Prof. Timothy Bromage
• 19 min
  37. Hard tissue biology in human health and evolution: bone biology

  • Prof. Timothy Bromage
• 46 min
  38. Hard tissue biology in human health and evolution: craniofacial biology

  • Prof. Timothy Bromage
• 26 min
  39. Hard tissue biology in human health and evolution: life history and chronobiology

  • Prof. Timothy Bromage
• 53 min
  40. Lung biology and lung disease

  • Prof. John S. Torday
• 30 min
  41. The evolutionary web of life

  • Prof. John S. Torday
• 32 min
  42. Evolutionary considerations and the endothelium

  • Dr. William Aird
• Mental Disorders
• 38 min
  43. Evolutionary psychiatry

  • Prof. Randolph Nesse
• 48 min
  44. Evolutionary behavioural genetics and mental disorders

  • Dr. Matthew Keller
• Questions and Answers
• 57 min
  45. Audience questions about evolution and medicine

  • Prof. Randolph Nesse
• Paediatrics
• 41 min
  46. Evolutionary pediatrics

  • Dr. Paul Turke
• Microbiome
• 49 min
  47. Evolution, the microbiome, and human health

  • Dr. Joe Alcock
• Archived Lectures *These may not cover the latest advances in the field
• 42 min
  48. The hygiene hypothesis

  • Prof. Graham Rook
• 26 min
  49. Mapping motivations: evolutionary health promotion

  • Dr. Valerie Curtis
  • Dr. Robert Aunger
• 16 min
  50. Evolutionary biology of depression

  • Prof. Lewis Wolpert
• 52 min
  51. Evolutionary genetic epidemiology

  • Prof. Nicholas Schork
• 65 min
  52. Mental disorders in the light of evolutionary biology

  • Prof. Randolph Nesse
• 59 min
  53. Evolution: medicine's missing basic science

  • Prof. Randolph Nesse
• 47 min
  54. Environmental effects on human reproduction

  • Prof. Gillian Bentley

Printable Handouts

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Navigable Slide Index

1. Introduction
2. Definition of drug resistance
3. Two types of evolutionary biologists
4. Two reasons to study the evolution of drug resistance
5. The pathogens I will talk about today
6. Discovery of HIV
7. Antivirals for HIV stopped working
8. Mutations in HIV genome lead to resistance
9. RT gene, amino acid position 67
10. Asp 67 to Asn in patient 102 of Bacheler dataset
11. The resistant strain is taking over the virus population in the body
12. Selective sweep – diversity lost
13. Transmitted drug resistance
14. Cheat sheet for resistance mutations in HIV
15. Combination therapy for HIV prevents evolution
16. In the mid-'90s triple-drug therapy became available
17. HIV drug resistance evolution main takeaways
18. The pathogens I will talk about today: Mycobacterium tuberculosis
19. Mycobacterium tuberculosis – a bacterium
20. Reminder of drug resistance (here antibiotic resistance)
21. Mycobacterium tuberculosis is very common
22. Treatment
23. Drug resistance
24. One unlucky TB patient
25. Resistant strains of Mycobacterium can evolve
26. Resistance evolution within patient and clonal interference
27. Clonal interference also happens in HIV
28. Resistant strains of Mycobacterium can be transmitted to others
29. Resistant strains of Mycobacterium can be transmitted
30. TB main takeaways
31. The pathogens I will talk about today: MRSA
32. The number of deaths due to MRSA increased and then decreased in the 2000s
33. What makes MRSA methicillin resistant?
34. mecA is part of the SCCmec element
35. SCCmec is 52,000 base pairs long
36. How does mecA make S. aureus resistant?
37. Horizontal gene transfer (HGT)
38. We know that HGT happens, but observations are rare
39. How often does drug resistance evolve?
40. MRSA main takeaways
41. Conclusion

Topics Covered

• Drug resistance
• Transmission vs. evolution of drug resistance
• Mycobacterium tuberculosis
• MRSA (Methicillin-resistant Staphylococcus aureus)
• HIV (human immunodeficiency virus)

Links

Series:

• Evolution and Medicine
• Introduction to Evolutionary Biology

Categories:

• Genetics & Epigenetics
• Microbiology
• Pharmaceutical Sciences

Talk Citation

Publication History

• Published on November 30, 2023

Financial Disclosures

• There are no financial matters to disclose.