Comparison of new sequences for high-resolution cartilage imaging

The objective of this study was to develop and verify a new technique for monitoring the progression of osteoarthritis (OA) by combining a rat model with the imaging modality optical coherence tomography (OCT). Time-sequential, in vivo, OCT imaging was performed on the left femoral condyles of 12 Wi

## Abstract We investigated an approach to reconstructing high‐resolution images from dynamic image sequences using local spectral analysis. High‐resolution reconstruction from linearly shifted multiple static image frames has previously been studied, in which the aliasing relationship between the

T2-weighted high-resolution gradient and fast spin echo sequences are widely used as an alternative or adjunct to contrast-enhanced T1-weighted temporal bone imaging. However, to date no systematic comparison has been presented. The purpose of this work is to identify optimal acquisition parameters

## Abstract The sodium present in articular cartilage interacts with the negatively charged proteoglycan aggregates in the matrix of the cartilage. Sodium images of short echo time may be useful for detecting changes that occur in the proteoglycan content of the cartilage. Such changes are indicati

## Abstract MR diffusion tensor imaging (DTI) was used to analyze the microstructural properties of articular cartilage. Human patellar cartilage‐on‐bone samples were imaged at 9.4T using a diffusion‐weighted SE sequence (12 gradient directions, resolution = 39 × 78 × 1500 μm^3^). Voxel‐based maps