Difference between revisions of "Aging and Adaptation in Infectious Diseases/Session IV: Complex Rhythms, environment, and aging in epidemiology"
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|Start time=July 27, 2018 01:00:00 PM | |Start time=July 27, 2018 01:00:00 PM | ||
|End time=July 27, 2018 03:00:00 PM | |End time=July 27, 2018 03:00:00 PM | ||
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|Presenter=DavidSchneider | |Presenter=DavidSchneider | ||
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|Presenter=MicaelaMartinez | |Presenter=MicaelaMartinez | ||
− | |Description=Infectious diseases across scales, circadian rhythms | + | |Description=Infectious diseases across scales, circadian rhythms |
− | | | + | |Post-meeting notes=<meta charset="utf-8"> |
}}{{Agenda sub-item | }}{{Agenda sub-item | ||
|Presenter=AndrewPDobson | |Presenter=AndrewPDobson | ||
|Description=Insights into aging and pathogens from allometrically scaled models for host-parasite systems | |Description=Insights into aging and pathogens from allometrically scaled models for host-parasite systems | ||
|Pre-meeting notes=Assemble a talk that describes non-human examples of how host exposure and response to pathogens and disease changes with age. | |Pre-meeting notes=Assemble a talk that describes non-human examples of how host exposure and response to pathogens and disease changes with age. | ||
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Describe ways of quantifying age-dependent changes in exposure. | Describe ways of quantifying age-dependent changes in exposure. | ||
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Discuss possible dynamic consequences in variation in duration of incubation and infectivity with age. | Discuss possible dynamic consequences in variation in duration of incubation and infectivity with age. | ||
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Describe models for parasitic nematodes of different sizes living as a community of worms in hosts of different sizes. | Describe models for parasitic nematodes of different sizes living as a community of worms in hosts of different sizes. | ||
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Illustrate recent work with Ian Hatton on body size scaling of vital rates from Algae to Elephants - use this to suggest we could use this scaling for models of immune system in mammals (from bats and mice to elephants and whales). | Illustrate recent work with Ian Hatton on body size scaling of vital rates from Algae to Elephants - use this to suggest we could use this scaling for models of immune system in mammals (from bats and mice to elephants and whales). | ||
+ | |Post-meeting notes=Really interesting set of talks that blended into a good set of discussions on projects the group could work on. There will be a big emphasis on human immunity and how it first gains 'experience' and then breaks down with age. | ||
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+ | I'm likely to focus my attention on developing body sized scaled models for immune system. These could be both fairly simple models for immunity mainly capturing differences between Type I and Type II immunity, but then expanding this to take Jean Carlson's model for human immunity and rescale elements of this with host body size and BMR. | ||
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Revision as of 10:58, August 4, 2018
July 27, 2018
1:00 pm - 3:00 pm
- Chair
David Schneider (Stanford)
- Presentation file(s)
- Related files
Sub-items
- Presenter
- Jenny Tung (Duke Univ.)
- Presentation file
- Download Presentation (Delete)
- Related files
Post-meeting Reflection
Reference Material
Title | Author name | Source name | Year | Citation count From Scopus. Refreshed every 5 days. | Page views | Related file |
---|---|---|---|---|---|---|
Social status alters immune regulation and response to infection in macaques | Noah Snyder-Mackler, Joaquín Sanz, Jordan N. Kohn, Jessica F. Brinkworth, Shauna Morrow, Amanda O. Shaver, Jean Christophe Grenier, Roger Pique-Regi, Zachary P. Johnson, Mark E. Wilson, Luis B. Barreiro, Jenny Tung | Science | 2016 | 105 | 25 |
- Presenter
- Micaela Martinez (Columbia Univ.)
Post-meeting notes
<meta charset="utf-8">
- Presentation file
- Related files
Post-meeting Reflection
Reference Material
- Presenter
- Andrew P. Dobson (Princeton)
Abstract
Assemble a talk that describes non-human examples of how host exposure and response to pathogens and disease changes with age.
Describe ways of quantifying age-dependent changes in exposure.
Discuss possible dynamic consequences in variation in duration of incubation and infectivity with age.
Describe models for parasitic nematodes of different sizes living as a community of worms in hosts of different sizes.
Illustrate recent work with Ian Hatton on body size scaling of vital rates from Algae to Elephants - use this to suggest we could use this scaling for models of immune system in mammals (from bats and mice to elephants and whales).
Post-meeting notes
Really interesting set of talks that blended into a good set of discussions on projects the group could work on. There will be a big emphasis on human immunity and how it first gains 'experience' and then breaks down with age.
I'm likely to focus my attention on developing body sized scaled models for immune system. These could be both fairly simple models for immunity mainly capturing differences between Type I and Type II immunity, but then expanding this to take Jean Carlson's model for human immunity and rescale elements of this with host body size and BMR.
- Presentation file
- Download Presentation (Delete)
- Related files
Post-meeting Reflection
Andrew P. Dobson (Princeton) Link to the source page
Really interesting set of talks that blended into a good set of discussions on projects the group could work on. There will be a big emphasis on human immunity and how it first gains 'experience' and then breaks down with age.
I'm likely to focus my attention on developing body sized scaled models for immune system. These could be both fairly simple models for immunity mainly capturing differences between Type I and Type II immunity, but then expanding this to take Jean Carlson's model for human immunity and rescale elements of this with host body size and BMR.