Quantification of myocardial strain at early systole in mouse heart: restoration of undeformed tagging grid with single-point HARP. Read more about Quantification of myocardial strain at early systole in mouse heart: restoration of undeformed tagging grid with single-point HARP.
Strain and torsion quantification in mouse hearts under dobutamine stimulation using 2D multiphase MR DENSE. Read more about Strain and torsion quantification in mouse hearts under dobutamine stimulation using 2D multiphase MR DENSE.
Strain and torsion quantification in mouse hearts under dobutamine stimulation using 2D multiphase MR DENSE. Read more about Strain and torsion quantification in mouse hearts under dobutamine stimulation using 2D multiphase MR DENSE.
Rapid T1 mapping of mouse myocardium with saturation recovery Look-Locker method. Read more about Rapid T1 mapping of mouse myocardium with saturation recovery Look-Locker method.
Rapid T1 mapping of mouse myocardium with saturation recovery Look-Locker method. Read more about Rapid T1 mapping of mouse myocardium with saturation recovery Look-Locker method.
Altered in vivo left ventricular torsion and principal strains in hypothyroid rats. Read more about Altered in vivo left ventricular torsion and principal strains in hypothyroid rats.
Altered in vivo left ventricular torsion and principal strains in hypothyroid rats. Read more about Altered in vivo left ventricular torsion and principal strains in hypothyroid rats.
Delineation of substrate selection and anaplerosis in tricarboxylic acid cycle of the heart by 13C NMR spectroscopy and mass spectrometry. Read more about Delineation of substrate selection and anaplerosis in tricarboxylic acid cycle of the heart by 13C NMR spectroscopy and mass spectrometry.
Delineation of substrate selection and anaplerosis in tricarboxylic acid cycle of the heart by 13C NMR spectroscopy and mass spectrometry. Read more about Delineation of substrate selection and anaplerosis in tricarboxylic acid cycle of the heart by 13C NMR spectroscopy and mass spectrometry.
Changes in myofilament proteins, but not Ca²⁺ regulation, are associated with a high-fat diet-induced improvement in contractile function in heart failure. Read more about Changes in myofilament proteins, but not Ca²⁺ regulation, are associated with a high-fat diet-induced improvement in contractile function in heart failure.
