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
- Cortico-basal ganglia-thalamocortical circuitry
- The thalamostriatal system
- Extrinsic glutamatergic drive to the striatum
- Talk outline
- Functional anatomy and synaptic connectivity
- Existence of the thalamostriatal system is known
- Origin of the thalamostriatal projection
- Thalamostriatal projections in rats and monkeys
- Basal ganglia-thalamostriatal loops
- CM/Pf vs. cortical afferents to the striatum
- vGLuT1 and vGLuT2
- Thalamic nuclei & striatal axo-spinous synapses
- CM/Pf vs. non-CM/Pf-striatal projections
- Thalamostriatal system from CM/Pf in attention
- The CM/Pf nuclear complex in vigilance & attention
- CM and Pf neurons respond differently
- CM/Pf terminals and cholinergic interneurons
- Inactivation of neuronal activity in CM/Pf
- Lesion of the CM/Pf thalamostriatal system
- Selective lesion of the Pf-striatal system & learning
- Behavioral role of CM/Pf-striatal network
- Potential impact of CM/Pf degeneration in PD
- CM/Pf neurons degenerate in PD
- CM/Pf neuronal loss in PD can be mimicked
- CM/Pf degeneration & synaptic connectivity
- Effects of the synaptic loss on different synapses
- Conclusions
- Future studies
- Acknowledgements
Topics Covered
- Anatomy, physiology and pathophysiology of the thalamostriatal system in Parkinson’s disease
- Thalamostriatal network connectivity, electrophysiological properties and potential role in cognitive functions
- Degeneration of the thalamostriatal system and its impact upon the development of early cognitive deficits in Parkinson’s disease.
Links
Series:
Categories:
Therapeutic Areas:
Talk Citation
Smith, Y. (2020, October 14). The thalamic regulation of striatal function in normal and Parkinsonian states [Video file]. In The Biomedical & Life Sciences Collection, Henry Stewart Talks. Retrieved December 22, 2024, from https://doi.org/10.69645/HKMS1551.Export Citation (RIS)
Publication History
Financial Disclosures
- Prof. Yoland Smith has not informed HSTalks of any commercial/financial relationship that it is appropriate to disclose.
The thalamic regulation of striatal function in normal and Parkinsonian states
A selection of talks on Neurology
Transcript
Please wait while the transcript is being prepared...
0:00
-Hello.
My name is Dr. Yoland Smith.
I'm a neuroscientist at the Yerkes
National Primate Research Center
and at the Department of
Neurology of Emory University.
For the past 30 years,
my main research interest
had being devoted
to the understanding
of the anatomical and functional
organization of the basal ganglia
in normal and diseased conditions,
particularly in relation
to Parkinson's disease.
In this presentation, I will give
an overview of our current knowledge
of the thalamic regulation
of striatal function
in normal and Parkinsonian states.
0:35
Our current view of the
relationships between the thalamus
and the basal ganglia are shown
on this slide, which illustrates
simplified schematics of the basal
ganglia-thalamocortical connections
taken from a textbook commonly
used in neuroscience education.
As you can see from this diagram,
the thalamus and the basal ganglia
nuclei are part of functional loops
through which the information flows
from the cerebral cortex to
the striatum, which in primates
comprise the caudate
nucleus in the putamen,
and then to globus pallidus and the
substantia nigra pars reticulata,
which, in turn, send gabaergic
projection to the thalamus.
The thalamus then
transmits this information
the cerebral cortex and so on.
1:18
This arrow diagram shows the same
basal ganglia-thalamocortical loop
in a highly schematic fashion.
However, my talk today will
not be focused on this system,
but will rather discuss the
organization of another projection
system that bypasses
the cerebral cortex
and links directly the
thalamus with the striatum--
the so-called
thalamostriatal system.
Although this network
has long been known,
our limited understanding of its
basic anatomical, physiological,
and pathophysiological organization
has significantly hampered advances
in knowledge about the
role of this system
in the functional circuitry
of the basal ganglia
in normal and diseased states.
Hide