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UID:20250214T1816Z-1739556996.9879-EO-11066-1@10.73.10.224
STATUS:CONFIRMED
DTSTAMP:20260715T205802Z
CREATED:20210816T174818Z
LAST-MODIFIED:20210816T174818Z
DTSTART;TZID=America/Chicago:20220504T120000
DTEND;TZID=America/Chicago:20220504T130000
SUMMARY: Central Pattern Generation and Central Pain Suppression Circuits\,
  Fan Wang\, PhD (McGovern Institute)
DESCRIPTION: Fan Wang\, PhDInvestigator & ProfessorDepartment of Brain & Co
 gnitive SciencesMcGovern Institute Hosted by: Jason Yi\, PhD Virtual eventW
 ebinar link: https://bit.ly/DoNSeminarSeries In this seminar\, I will descr
 ibe two studies. The first is about the identification of neurons forming a
  central rhythm generator and their recurrent inhibitory synaptic connectio
 ns as the key mechanism in rhythm generation. This […]
X-ALT-DESC;FMTTYPE=text/html: <p><img class="alignright size-medium wp-imag
 e-7873" src="https://neuroscience.wustl.edu/app/uploads/2021/08/Headshot-Wa
 ngF-232x300.png" alt="fan wang" width="232" height="300" /></p><p><a href="
 https://mcgovern.mit.edu/profile/fan-wang/" target="_blank" rel="noopener">
 Fan Wang</a>\, PhD<br />Investigator & Professor<br />Department of Brain &
  Cognitive Sciences<br />McGovern Institute</p><p><strong>Hosted by:</stron
 g> Jason Yi\, PhD</p><p><em>Virtual event</em><br />Webinar link: <a href="
 https://wustl.zoom.us/j/94442652549?pwd=WnlYTFRYMmZ4ZUY3RXNyRDFDYVFSdz09" t
 arget="_blank" rel="noopener">https://bit.ly/DoNSeminarSeries</a></p><p>In 
 this seminar\, I will describe two studies. The first is about the identifi
 cation of neurons forming a central rhythm generator and their recurrent in
 hibitory synaptic connections as the key mechanism in rhythm generation. Th
 is is achieved using in vivo photo-tagged recording\, functional manipulati
 ons\, connectivity tracing and synaptic perturbation experiments. The secon
 d is about the identification of a central pain-suppression circuit that is
  activated by general anesthesia to prevent nociception without affecting c
 onscious perception\; and how we can use this circuit to reverse engineer a
  placebo effect.</p><p><a href="https://neuroscience.wustl.edu/news-events/
 events/">Return to events calendar »</a></p>
CATEGORIES:Seminar Series
ORGANIZER;CN="Katie Cammarata":MAILTO:cammarata@wustl.edu
URL;VALUE=URI:https://neurology.wustl.edu/events/event/central-pattern-gene
 ration-and-central-pain-suppression-circuits-fan-wang-phd-mcgovern-institut
 e/
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DTSTART:20220313T080000
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