lv wall contraction | Left Ventricle Heart

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The contraction of subepicardial fibers will rotate the apex of the LV in counterclockwise and its base in clockwise direction. Conversely, the contraction of .

Left ventricular contraction is characterized by complex deformation of the myocardium, including longitudinal myocardial fiber shortening, radial thickening, circumferential shortening, and left .Left ventricular contractility. The primary central abnormality in HF is an impaired left ventricular (LV) contractility or contractile reserve. Patients with an LV ejection fraction (LVEF) less than .

Late in diastole, atrial contraction increases the atrial pressure, producing a second atrial-to-LV pressure gradient that again propels blood into the LV. After atrial systole, as the left atrium .

A, Relative rotation of LV base (red curved arrow), and apex (blue curved arrow) during isovolumic contraction, ejection, and isovolumic relaxation and early diastole. B, LV rotational curves for the LV base (red line) and apex . Contractility is best measured by the slope, Emax, of the end-systolic pressure–volume relationship. Ventricular systole is usefully characterized by a time-varying elastance (ΔP/ΔV).In the subendocardium, this torque causes fiber rearrangement such that subendocardial fibers are sheared toward the LV cavity for LV wall thickening, whereas the LV base is pulled toward the apex, shortening the longitudinal . Normal ventricular function requires coordinated electrical activation and contraction. Given the 3-dimensional pattern of ventricular activation and contraction, the assessment of mechanical activation using conventional imaging methods is a complex task.

The left ventricle is an integral part of the cardiovascular system. Left ventricular contraction forces oxygenated blood through the aortic valve to be distributed to the entire body. With such an important role, decreased function caused by injury or maladaptive change can induce disease symptoms. The contraction of subepicardial fibers will rotate the apex of the LV in counterclockwise and its base in clockwise direction. Conversely, the contraction of subendocardial fibers will rotate the LV apex and base in exactly the opposite directions.

The left ventricle is conical in shape with an anteroinferiorly projecting apex and is longer with thicker walls than the right ventricle. It is separated from the right ventricle by the interventricular septum, which is concave in shape (i.e. bulges into the right ventricle).

Twist Mechanics of the Left Ventricle: Principles and

Twist Mechanics of the Left Ventricle:

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Left ventricular contraction is characterized by complex deformation of the myocardium, including longitudinal myocardial fiber shortening, radial thickening, circumferential shortening, and left ventricular twist or torsion.Left ventricular contractility. The primary central abnormality in HF is an impaired left ventricular (LV) contractility or contractile reserve. Patients with an LV ejection fraction (LVEF) less than 50% (or <40% depending on which definition is used) are referred to as having systolic HF or HF with reduced EF (HFrEF).Late in diastole, atrial contraction increases the atrial pressure, producing a second atrial-to-LV pressure gradient that again propels blood into the LV. After atrial systole, as the left atrium relaxes, its pressure decreases below the LV pressure, causing the mitral valve to begin closing.

A, Relative rotation of LV base (red curved arrow), and apex (blue curved arrow) during isovolumic contraction, ejection, and isovolumic relaxation and early diastole. B, LV rotational curves for the LV base (red line) and apex (blue line) from a normal healthy subject. Contractility is best measured by the slope, Emax, of the end-systolic pressure–volume relationship. Ventricular systole is usefully characterized by a time-varying elastance (ΔP/ΔV).In the subendocardium, this torque causes fiber rearrangement such that subendocardial fibers are sheared toward the LV cavity for LV wall thickening, whereas the LV base is pulled toward the apex, shortening the longitudinal axis of the LV.

Normal ventricular function requires coordinated electrical activation and contraction. Given the 3-dimensional pattern of ventricular activation and contraction, the assessment of mechanical activation using conventional imaging methods is a complex task. The left ventricle is an integral part of the cardiovascular system. Left ventricular contraction forces oxygenated blood through the aortic valve to be distributed to the entire body. With such an important role, decreased function caused by injury or maladaptive change can induce disease symptoms.

The contraction of subepicardial fibers will rotate the apex of the LV in counterclockwise and its base in clockwise direction. Conversely, the contraction of subendocardial fibers will rotate the LV apex and base in exactly the opposite directions.

The left ventricle is conical in shape with an anteroinferiorly projecting apex and is longer with thicker walls than the right ventricle. It is separated from the right ventricle by the interventricular septum, which is concave in shape (i.e. bulges into the right ventricle).Left ventricular contraction is characterized by complex deformation of the myocardium, including longitudinal myocardial fiber shortening, radial thickening, circumferential shortening, and left ventricular twist or torsion.Left ventricular contractility. The primary central abnormality in HF is an impaired left ventricular (LV) contractility or contractile reserve. Patients with an LV ejection fraction (LVEF) less than 50% (or <40% depending on which definition is used) are referred to as having systolic HF or HF with reduced EF (HFrEF).

Late in diastole, atrial contraction increases the atrial pressure, producing a second atrial-to-LV pressure gradient that again propels blood into the LV. After atrial systole, as the left atrium relaxes, its pressure decreases below the LV pressure, causing the mitral valve to begin closing. A, Relative rotation of LV base (red curved arrow), and apex (blue curved arrow) during isovolumic contraction, ejection, and isovolumic relaxation and early diastole. B, LV rotational curves for the LV base (red line) and apex (blue line) from a normal healthy subject. Contractility is best measured by the slope, Emax, of the end-systolic pressure–volume relationship. Ventricular systole is usefully characterized by a time-varying elastance (ΔP/ΔV).In the subendocardium, this torque causes fiber rearrangement such that subendocardial fibers are sheared toward the LV cavity for LV wall thickening, whereas the LV base is pulled toward the apex, shortening the longitudinal axis of the LV.

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The Cardiac Cycle and the Physiological Basis of Left Ventricular

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lv wall contraction|Left Ventricle Heart

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