Motor neurone disease: molecular basis

Talbot, Kevin

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Playlist
Slides
Topics
Links
Citation

Clinical Introduction
49 min
1. Frontotemporal dementia
- Prof. Bruce Miller
57 min
2. Parkinson disease
- Prof. Stanley Fahn
35 min
3. Atypical parkinsonian syndromes
- Dr. David Burn
40 min
4. Huntington's disease
- Prof. Roger Barker
Neuroimaging
22 min
5. Molecular brain imaging (PET) in diseases with dementia
- Prof. Karl Herholz
Pathology, Genetic and Molecular Aspects (1)
42 min
6. A molecular understanding of Alzheimer's disease
- Prof. John Hardy
33 min
7. Neuropathology of neurodegenerative disorders
- Prof. Jillian Kril
52 min
8. The role of MAPT (Tau) in neurodegenerative disease: one bullet with many triggers
- Dr. Michael Hutton
12 min
9. Ubiquitination and Alzheimer related disorders
- Prof. John Mayer
Pathology, Genetic and Molecular Aspects (2)
46 min
10. The molecular biology of Huntington's disease
- Prof. David C. Rubinsztein
46 min
11. Metals, oxidative stress and neurodegeneration
- Prof. Ashley Bush
Latest Developments in the Field
46 min
12. Animal models of tauopathy
- Prof. David Westaway
61 min
13. Parkinson's disease and transplants
- Prof. Roger Barker
Archived Lectures *These may not cover the latest advances in the field
29 min
14. Neuropathology of neurodegenerative disorders
- Prof. Jillian Kril
36 min
15. Motor neurone disease: molecular basis
- Prof. Kevin Talbot
51 min
16. Alzheimer's disease (AD)
- Prof. John Hodges
53 min
17. Frontotemporal dementia syndromes
- Prof. John Hodges
38 min
18. Motor neurone disease: clinical aspects
- Prof. Kevin Talbot
26 min
19. Neuro-imaging in dementia: using MRI in routine work-up
- Prof. Philip Scheltens
53 min
20. Prion diseases
- Prof. Pierluigi Gambetti
38 min
21. Mitochondrial disorders and neurodegeneration
- Prof. Anthony Schapira
21 min
22. Neurodegenerative disease: expression levels of normal sequence pathogenic proteins contribute to risk of disease
- Prof. John Hardy
44 min
23. Mutations in parkinsonian syndromes
- Dr. Andrew Singleton
42 min
24. Experimental therapies in Alzheimer's disease: the development and use of mouse models
- Prof. David Westaway
32 min
25. Frontotemporal dementia
- Prof. Bruce Miller

Printable Handouts

PDF

Navigable Slide Index

Intro slide
MND/ALS
Amyotrophic Lateral Sclerosis: core facts
Pathology of ALS
Molecular pathology of sporadic ALS
What is the cause of MND?
Evidence from genetics
Genetic basis of ALS-MND
Familial ALS
Mutations in SOD1 in familial ALS
Superoxide dismutase Type 1
FALS due to SOD1 mutations
SOD1 activity/disease severity in mouse models
Transgenic mouse model
SOD1 mutations and oxidative metabolism
Natural history in SOD1 mutant mice
SOD1 gain of function
Protein aggregation
Mitochondrial dysfunction
Mitochondrial dysfunction 2
Excitotoxicity in ALS
Neurofilaments
Role of inflammation
Role of protein aggregation
Apoptosis
Vascular Endothelial Growth Factor (1)
Vascular Endothelial Growth Factor (2)
VEGF in human ALS
VEGF as a potential therapy
Mouse drug studies
Positive animal (SOD G93A) trials
Human therapeutic trials
Mouse models
Motor neuron death is a multistep process
Lessons from other motor neuron disorders
ALS-Parkinsonian Complex of Guam
'ALS2''
ALS4''
'ALS8''
Other genetic motor neuron disorders
RNA metabolism and motor neurone disorders
Mechanisms of motor neurone degeneration
Future prospects
Summary

Topics Covered

Models of MND pathogenesis
Current understanding on genetic basis of MND
Animal and cellular models
Pathways of motor neurone vulnerability
Abnormal protein handling
Mitochondrial dysfunction
Abnormalities in axonal transport and apoptosis
Current limitations in treatment
Role of genetic research in identifying biological basis
Future directions and developing biomarkers

Links

Series:

Neurodegenerative Diseases

Categories:

Therapeutic Areas:

Neurology

Talk Citation

Talbot, K. (2007, October 1). Motor neurone disease: molecular basis [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 21, 2024, from https://doi.org/10.69645/HEZE7571.
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