PhD Proposal by Peter Borden

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  • Date/Time:
    • Thursday March 2, 2017
      10:00 am - 11:00 am
  • Location: : Emory Rollins Research Center 1052
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Summary Sentence: The Impact of Thalamic State on Sensory Cortical Processing and Behavior

Full Summary: No summary paragraph submitted.

Peter Borden 

BME PhD Thesis Proposal Presentation

 

Date and Time:Thursday, March 2nd, 10-11am 

 

Location: Emory Rollins Research Center 1052 

 

Committee:

Garrett Stanley (advisor)

Dieter Jaeger                                                 

Robert Liu                                                  

Bilal Haider

Biyu He (NYU) 

 

Title: The Impact of Thalamic State on Sensory Cortical Processing and Behavior

 

The thalamus is a central junction that processes both sensory afferent and motor efferent signals. Although many neurological disorders including Parkinson’s disease, Schizophrenia, and Central Pain are linked to thalamic dysfunction, basic information about thalamic processing is still unknown. Specifically, it is unclear how ongoing changes in membrane polarization (i.e. state) alter the transmission of information to and from cortical regions. Thalamic neurons have dynamic firing modes (i.e. tonic and burst) and receive tremendous amounts of neuromodulatory inputs that shape the encoding of sensory features. My project will develop novel techniques to measure entire cortical regions and use these tools determine the role of thalamic state on tactile processing and detectability of sensory inputs. Specifically, I utilize the novel genetically expressed voltage indicator ArcLight to measure voltage activity across cortical structures. I will record cortical ArcLight signals while simultaneously manipulating the ongoing thalamic activity using genetically expressed light sensitive protein channels (optogenetics). I will further combine these techniques to modulate thalamic state to control the evoked cortical response and behavioral performance of mice during a tactile detection task.  It is critical that we understand how thalamic state alters information transmission to develop better treatment options for these complex neurological disorders.

 

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  • Created By: Tatianna Richardson
  • Workflow Status: Published
  • Created On: Feb 17, 2017 - 10:13am
  • Last Updated: Feb 17, 2017 - 10:13am