Remodeling of cardiac fiber structure after infarction in rats quantified with diffusion tensor MRI. Read more about Remodeling of cardiac fiber structure after infarction in rats quantified with diffusion tensor MRI.
Quantitative "magnetic resonance immunohistochemistry" with ligand-targeted (19)F nanoparticles. Read more about Quantitative "magnetic resonance immunohistochemistry" with ligand-targeted (19)F nanoparticles.
Harmonic phase MR tagging for direct quantification of Lagrangian strain in rat hearts after myocardial infarction. Read more about Harmonic phase MR tagging for direct quantification of Lagrangian strain in rat hearts after myocardial infarction.
Occult cardiac contractile dysfunction in dystrophin-deficient children revealed by cardiac magnetic resonance strain imaging. Read more about Occult cardiac contractile dysfunction in dystrophin-deficient children revealed by cardiac magnetic resonance strain imaging.
Regional ventricular wall thickening reflects changes in cardiac fiber and sheet structure during contraction: quantification with diffusion tensor MRI. Read more about Regional ventricular wall thickening reflects changes in cardiac fiber and sheet structure during contraction: quantification with diffusion tensor MRI.
Paradoxical increase in ventricular torsion and systolic torsion rate in type I diabetic patients under tight glycemic control. Read more about Paradoxical increase in ventricular torsion and systolic torsion rate in type I diabetic patients under tight glycemic control.
Role of cellular compartmentation in the metabolic response to stress: mechanistic insights from computational models. Read more about Role of cellular compartmentation in the metabolic response to stress: mechanistic insights from computational models.
Role of cellular compartmentation in the metabolic response to stress: mechanistic insights from computational models. Read more about Role of cellular compartmentation in the metabolic response to stress: mechanistic insights from computational models.
MR tagging demonstrates quantitative differences in regional ventricular wall motion in mice, rats, and men. Read more about MR tagging demonstrates quantitative differences in regional ventricular wall motion in mice, rats, and men.
MR tagging demonstrates quantitative differences in regional ventricular wall motion in mice, rats, and men. Read more about MR tagging demonstrates quantitative differences in regional ventricular wall motion in mice, rats, and men.
