Registration for a live webinar on 'Precision medicine treatment for anticancer drug resistance' is now open.
See webinar detailsWe noted you are experiencing viewing problems
-
Check with your IT department that JWPlatform, JWPlayer and Amazon AWS & CloudFront are not being blocked by your network. The relevant domains are *.jwplatform.com, *.jwpsrv.com, *.jwpcdn.com, jwpltx.com, jwpsrv.a.ssl.fastly.net, *.amazonaws.com and *.cloudfront.net. The relevant ports are 80 and 443.
-
Check the following talk links to see which ones work correctly:
Auto Mode
HTTP Progressive Download Send us your results from the above test links at access@hstalks.com and we will contact you with further advice on troubleshooting your viewing problems. -
No luck yet? More tips for troubleshooting viewing issues
-
Contact HST Support access@hstalks.com
-
Please review our troubleshooting guide for tips and advice on resolving your viewing problems.
-
For additional help, please don't hesitate to contact HST support access@hstalks.com
We hope you have enjoyed this limited-length demo
This is a limited length demo talk; you may
login or
review methods of
obtaining more access.
Printable Handouts
Navigable Slide Index
- Introduction
- Model vector-borne disease systems used for discussion in this module
- What is the purpose of vector-borne disease surveillance? (1)
- Vector-borne pathogen detection
- What is the purpose of vector-borne disease surveillance? (2)
- Human dengue 1934
- Distribution of SLE virus 1978-2004
- What is the purpose of vector-borne disease surveillance? (3)
- Human case epicurve – Colorado, 2003
- What is the purpose of vector-borne disease surveillance? (4)
- Rainfall and mosquito-borne diseases
- Factors that drive vector-borne diseases
- What are some important vector-borne disease surveillance techniques? (1)
- Indirect pathogen surveillance
- Sentinel chickens in Florida
- What are some important vector-borne disease surveillance techniques? (2)
- Direct pathogen surveillance
- Northern cardinals
- Direct pathogen surveillance
- Exit traps
- What are some important vector-borne disease surveillance techniques? (3)
- Vector surveillance: Species composition
- The Florida arbovirus vector: Culex nigripalpus
- Vector surveillance: Vector abundance
- Vector abundance
- Vector surveillance: Vector population age structure
- Vector age determination
- What are the major vector-borne disease surveillance techniques? (1)
- Avian amplification host species
- The common grackle
- SLE antibodies in wild birds
- Reproductive success
- Emergence of hatchling year birds
Topics Covered
- Vector-borne disease surveillance
- Pathogen and disease detection
- Spatial distribution of an outbreak
- Temporal development of an outbreak
- Transmission risk of a pathogen
- Human Dengue 1934
- Distribution of SLE virus
- Surveillance techniques
Talk Citation
Day, J. (2021, November 28). Surveillance, prevention, and control of vector-borne diseases 1 [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 21, 2024, from https://doi.org/10.69645/MVRP9958.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Jonathan Day has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
Surveillance, prevention, and control of vector-borne diseases 1
Published on November 28, 2021
36 min
A selection of talks on Microbiology
Transcript
Please wait while the transcript is being prepared...
0:00
My name is Jonathan Day.
I'm a Professor Emeritus at the University of Florida where I spent
my entire career studying vector-borne diseases.
0:12
For this talk, we're going to use four model systems to
discuss the surveillance and prevention and control of vector-borne diseases.
These will be the St. Louis encephalitis virus in Florida,
Dengue virus in Florida,
West Nile virus in North America,
and Eastern Equine Encephalitis virus in North America.
0:36
What is the purpose of vector-borne disease surveillance?
The primary purpose of surveillance is to detect the presence of a pathogen or a virus
that is a virus-borne disease.
0:52
For example, in Miami-Dade County in 2019,
there was an outbreak of the West Nile virus in downtown Miami
and this slide shows the early beginnings of that outbreak.
This is from July 5th, 2020 and at that point there were
at least 18 cases of human disease in Miami.
That was how the West Nile virus was detected in Miami-
it was the presence of human cases.
Surveillance, human case surveillance,
allowed early identification of West Nile virus transmission
in Miami and it's identified that there was a reemergence of this vector-borne disease,
West Nile Virus in the southeastern United States.