Muscle Mechanics & Modeling

BMED-6660

This graduate/advanced undergraduate hybrid course examines the structural and physiologic properties of muscle, as well as its force production and overall biomechanical function. Muscle structure and function will be explored at the protein, single fiber and whole tissue levels. Discussions will focus primarily on skeletal muscle, and topics will include muscle morphology, cross-bridge theory, molecular motor and actomyosin interaction, Hill-type and Huxley-type models, electromyography, fatigue, muscle inhibition, history-dependent phenomena, in vitro and in vivo muscle function, and the response to injury. Each topic will be introduced and developed utilizing seminal articles in the literature as well as excerpts from texts, and further discussion on current problems and state-of-the-art experimental techniques will draw on the current scientific literature.

3 credits
Prereqs:
none

Past Term Data

Offered
Not Offered
Offered as Cross-Listing Only
No Term Data
Spring Summer Fall
(Session 1) (Session 2)
2025
2024
2023
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 12/15
2022
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 10/10
2021
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 11/10
2020
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 8/10
2019
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 8/10
2018
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 9/10
2017
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 9/40
2016
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 9/40
2015
2014
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 14/15
2013
Muscle Mechanics & Modeling (3c)
  • David Thomas Corr
Seats Taken: 7/30
2012
2011
2010
2009
2008
2007
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2005
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2003
2002
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1998