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Heart and Muscle Mechanics Lab

Developing Next Generation Therapies for Heart Failure and Muscle Disease

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  • Research
    • Gene and Cell Based Therapies
    • Stem Cell Cardiomyocytes
    • Regulation of Contractile Properties
    • Myofilament Dysfunction in Disease
    • Quantitative and Computational Models of Muscle
      • Molecular Dynamics Simulations
      • Stochastic Modeling of Crossbridge Cycling
      • Multiscale Muscle Modeling — MUSICO
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Research

Researchers in the HAMM Lab use interdisciplinary, multiscale approaches to study contraction in healthy and diseased muscles and develop myofilament-based therapies.

Areas of Research

  • Gene and Cell Based Therapies
  • Stem Cell Cardiomyocytes
  • Regulation of Contractile Properties
  • Myofilament Dysfunction in Disease
  • Quantitative and Computational Models of Muscle
    • Molecular Dynamics Simulations
    • Stochastic Modeling of Crossbridge Cycling
    • Multiscale Muscle Modeling — MUSICO

Areas of Research

  • Gene and Cell Based Therapies
  • Stem Cell Cardiomyocytes
  • Regulation of Contractile Properties
  • Myofilament Dysfunction in Disease
  • Quantitative and Computational Models of Muscle
    • Molecular Dynamics Simulations
    • Stochastic Modeling of Crossbridge Cycling
    • Multiscale Muscle Modeling — MUSICO
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