Hyperpolarized 3He MRI of mouse lung

## Abstract Quantitative measurement of lung microstructure is of great significance in assessment of pulmonary disease, particularly in the earliest stages. The technique for MRI‐based ^3^He lung morphometry was previously developed and validated for human lungs, and was recently extended to ex vi

## Abstract ## Purpose To investigate the effects of subchronic ozone exposure on rat lung ventilation using hyperpolarized (HP) ^3^He MRI. ## Materials and Methods A total of 24 Sprague‐Dawley rats, distributed in one control group and four groups exposed to 0.5 ppm ozone concentration for two

In this study, the upper-limit volume (gas plus partial tissue volume) as well as absolute volume (gas only) of lungs measured with hyperpolarized (3)He-MR imaging is compared with that determined by micro-computed tomography (CT) under similar ventilation conditions in normal rats. Five Brown Norwa

## Abstract MR elastography (MRE) is a phase contrast–based technique for spatially mapping the mechanical properties of tissue‐like materials. While hyperpolarized noble gases such as helium‐3 (^3^He) have proven to be an ideal contrast mechanism for imaging of the lung using conventional MR techn

Alveolar ventilation/perfusion ratio (VA/Q) is a key parameter in functional imaging of the lung. Herein, regional VA/Q was calculated from regional values of alveolar partial pressure of oxygen (PAO2) measured by hyperpolarized 3He gas MRI (HP 3He MRI). Yorkshire pigs (n = 7, mean weight = 25 kg) w

## Abstract In this study, MRI of hyperpolarized ^3^He gas in human para‐nasal sinuses is presented. Helium images were obtained at 1.5 T, using a surface coil and a 2D, fast gradient‐echo sequence with a nominal constant flip angle of 12°. Coronal images of 20‐mm thick slices were generated and co