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1. Introduction
2. What is pain?
3. How much pain is someone suffering?
4. What is the use of pain?
5. Pain to moderate human behavior
6. Pain pathways
7. Types of pain
8. How pain is perceived by nociceptors (1)
9. How pain is perceived by nociceptors (2)
10. Primary erythromelalgia
11. Mutations in SCN9A cause erythromelalgia
12. SCN9A erythromelalgia
13. Voltage-gated ion channel (1)
14. Paroxysmal extreme pain disorder
15. Mutations in SCN9A cause PEPD
16. SCN9A in PEPD
17. Voltage-gated ion channel (2)
18. Case histories
19. Congenital insensitivity to pain
20. Map of SCN9A gene
21. Electrical activity of WT vs mutant (1)
22. Low-copy number vector = pcDNA3JC
23. Electrical activity of WT vs mutant (2)
24. SCN9A mutations
25. Ion channels on nerve terminals
26. SCN9A family genes variants
27. Man vs. mouse
28. Genes that play a role in pain
29. Membrane domain lineup
30. Neuropathies HSANs
31. Rita Levi Montalcini
32. Nerve growth facror beta
33. Gene expression at early stage of embryogenesis
34. TRKA signaling
35. HSAN4
36. Family history
37. Family tree
38. HSAN4/HSAN5 phenotype
39. HSAN5 - NGFB
40. NGFB deficiency infections
41. NGFB summary
42. Summary of neuropathies causes
43. Familial dysautonomia
44. Treatment of pain
45. Mendelian disorders of pain
46. References

Topics Covered

• What is pain?
• How much pain is someone suffering?
• What is the use of pain?
• Pain pathways
• Types of pain (Nociceptive, Inflammatory, Neuropathic, mixed)
• Primary erythromelalgia
• Mutations in SCN9A cause erythromelalgia
• Voltage-gated ion channels
• Paroxysmal extreme pain disorder (familial rectal pain)
• Mutations in SCN9A cause PEPD
• Congenital insensitivity to pain
• SCN9A gene map
• Electrical activity of wild type versus mutant constructs
• Low-copy number vector = pcDNA3JC
• Exon 6 splice variants
• Neuropathies HSANs
• Rita Levi Montalcini
• TRKA signalling
• Hereditary autonomic and sensory neuropathy type 4 (HSAN4)
• HSAN5
• NGFB
• Familial dysautonomia
• Treatment of pain
• Mendelian disorders of pain
• Update talk: Congenital insensitivity to pain
• Update talk: Genetic pain loss disorders and associated mutations
• Update talk: Hereditary sensory neuropathy
• Update talk: Hereditary sensory and autonomic neuropathy
• Update talk: FAAH-OUT-associated pain insensitivity
• Update talk: Mutated genes as potential analgesic drug targets
• Update talk: Painful genetic disorders

Links

Series:

• Molecular Genetics of Human Disease
• Pain and the Control of Pain

Categories:

• Biochemistry
• Genetics & Epigenetics
• Neuroscience

Talk Citation

Publication History

• Published on September 3, 2014
• Updated on February 29, 2024

Financial Disclosures

• Prof. Geoff Woods has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
• There are no financial/commercial matters to disclose.

Update Available

The speaker addresses developments since the publication of the original talk. We recommend listening to the associated update as well as the lecture.

1. Embed full lecture Full lecture Duration: 56:31 min Embed full lecture
2. Embed Congenital Syndromes of Pain and Painlessness: an update Congenital Syndromes of Pain and Painlessness: an update Duration: 10:49 min Embed Congenital Syndromes of Pain and Painlessness: an update