Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Biomechanics of Cardiac Electromechanical Coupling and Mechanoelectric Feedback.

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Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Biomechanics of Cardiac Electromechanical Coupling and Mechanoelectric Feedback J Biomech Eng. 2014;136(2): doi: / The relationship between excitation–contraction coupling and MEF from the scale of the myocyte to the whole heart Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Biomechanics of Cardiac Electromechanical Coupling and Mechanoelectric Feedback J Biomech Eng. 2014;136(2): doi: / The first step in the initiation of contraction begins with an influx of sodium ions, which depolarizes the membrane and opens the voltage-gated L-type calcium channels. This causes an influx of calcium into the cell, some of which binds to ryanodine receptors (RyR) located on surface of the sarcoplasmic reticulum (SR), which allows for a large scale release of calcium from inside the SR; a process referred to as calcium induced calcium release. There is then an abundance of free calcium in the cell that can bind to troponin (Tn), in particular troponin-C. This binding causes tropomyosin (Tm) to shift, exposing the myosin binding site on actin. Once the myosin head binds to actin, force is generated. At the end of the crossbridge cycle, calcium is released from troponin-C and is then either pumped out of the cell by the sodium-calcium exchanger (NCX) or resequestered into the SR via the sarcoplasmic reticulum calcium ATPase (SERCA) pump. Resulting changes in the mechanical context of the cell can alter the dynamics of conduction of electrical excitation throughout the tissue and the duration of cell action potential, by modulating channels, junctions, and cell capacitances and resistances; thus feeding back between cardiac mechanics and electrophysiology. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Biomechanics of Cardiac Electromechanical Coupling and Mechanoelectric Feedback J Biomech Eng. 2014;136(2): doi: / Combined apparatus for biaxial stretch of micropatterned neonatal cardiomyocytes and optical mapping of cell membrane potential permits study of conduction through multicellular preparations. (a) Diagram of optical mapping and micropatterned stretch equipment; (b) representative map of electrical activation, spatial scale 2 mm; (c) example stretch experiment result, showing that conduction in the longitudinal and transverse directions of the micropatterned cell culture slows with biaxial stretch, scale 2 mm; and (d) Example activation map in a transgenic mouse model of arrhythmia associated with mechanoelectric junctions, in collaboration with Dr. Farah Sheikh, UCSD. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Biomechanics of Cardiac Electromechanical Coupling and Mechanoelectric Feedback J Biomech Eng. 2014;136(2): doi: / Layout of a computer-controlled system designed for measuring cardiac muscle mechanics. The system is capable of measuring force, calcium transients, sarcomere length (in trabeculae), muscle length, and local muscle strain. The high-speed servomotor performs very precise stretches. Figure Legend:

Date of download: 9/18/2016 Copyright © ASME. All rights reserved. From: Biomechanics of Cardiac Electromechanical Coupling and Mechanoelectric Feedback J Biomech Eng. 2014;136(2): doi: / (a) Measured strain in a mouse papillary muscle due to a 20% prestretch with a timing in relation to activation (vertical line) that is similar to (b) measured strain in the late activated region of a ventricularly paced dog heart Figure Legend: