In vivo Quantitative characterization of trabecular bone by NMR

## Abstract A multiple spin‐echo (MSE) sequence has been applied for the first time to study trabecular bone ex vivo. The second echo generated by the demagnetizing field presents discrete drops in signal intensity for certain values of the pitch of the magnetization helix created by the correlatio

## Abstract Phosphorus was imaged in vivo in human cortical and trabecular bone and the __T__~1~ and __T__ were measured. An ultrashort TE (UTE) pulse sequence (TE = 70 μm) was used with half pulse excitation and radial mapping of __k__‐space from the center out. __T__ was measured using multiple e

## Abstract In micro‐MRI studies of trabecular bone designed to evaluate structural changes in response to intervention, follow‐up scan volumes do not typically align exactly with the baseline scan volumes due to the orientation and placement of the anatomic location, here the distal tibia, relativ

A full automatic and reliable method for NMR quantification is proposed. It is based on the linear prediction singular-value decomposition with continuous regularization [LPSVD(CR)] and on the enhancement procedure (EP) followed by LPSVD (EPLPSVD). Advantages of both methods have been considered. LP

We present a new method for quantitatively assessing the consolidation of bone regeneration by performing distraction osteogenesis in micropigs. We measured in vivo stiffness using a newly developed, revolving, bone-healing meter. After the micropigs were killed, we obtained maximum torsional moment

## Abstract In vitro studies have demonstrated that strontium (Sr) could increase osteogenic differentiation of bone marrow stromal cells (BMSCs). We investigated the in vivo effect of Sr on BMSCs. Thirty‐six female rats were randomly divided into the following groups: sham operated and treated wit