Georgia Tech and Emory University To Offer MiniMedical School Courses in Biomedical Engineering

Lisa Grovenstein
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Biomedical scientists will explain the latest medical advances made possible through the union of medical research and engineering technology.


This fall's Emory MiniMedical School course will feature scientists from the Wallace H. Coulter Department of Biomedical Engineering, a joint program of Georgia Tech's College of Engineering and Emory University School of Medicine.

Biomedical scientists will explain the latest medical advances made possible through the union of medical research and engineering technology. Learn about new products available through tissue engineering, creating brain activity with computer chips, new ways to diagnose and treat heart disease and cancer, and brain imaging of thoughts and feelings.

This course is designed for the general public but also will be of interest and value to health care professionals, business persons, entrepreneurs, and anyone interested in the latest advances in science. No science background is necessary.

The MiniMedical School course will begin Tuesday, Oct. 1, and continues for four consecutive Tuesday evenings from 7-9 p.m., with cookies and coffee served at 6:30. Tuition is $80 ($68 for past MiniMedical School graduates and Georgia Tech and Emory faculty, staff and students) and includes a "textbook," an Emory MiniMedical T-shirt, and a (mini) medical degree diploma.

Classes are held on the Emory University campus in the Woodruff Health Sciences Center Administration Building, 1440 Clifton Road, with free parking in the Michael Street parking deck and shuttles to transport you to the auditorium.

You may register online at Or, register by calling the Emory Center for Lifelong Learning, 404-727-6000.

Course topics are as follows, followed by short discussions:

Oct. 1: Overview of biomedical engineering Tissue engineering overview, including new bioengineered devices

Oct. 8: Biomedical engineering and cancer, including nanotechnology and genomics Cardiology advances, including artificial heart valves and pediatrics

Oct. 15: Advanced imaging systems, including functional MRI and PET Behavioral imaging (visualizing thoughts and feelings)

Oct. 22: Biomedical engineering and the brain, including creating brain activity with computer chips and advances in recording brain activity

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  • Created By: Matthew Nagel
  • Workflow Status: Published
  • Created On: Sep 11, 2002 - 8:00pm
  • Last Updated: Oct 7, 2016 - 11:02pm