In vivo high resolution 3D-QCT of the human forearm
A Laib, HJ Häuselmann… - Technology and health …, 1998 - content.iospress.com
A Laib, HJ Häuselmann, P Rüegsegger
Technology and health care, 1998•content.iospress.comIn vivo examinations of bone microarchitecture have become available recently through high
resolution computed tomography (3D-QCT) and magnetic resonance imaging. The spatial
resolution of the resulting images, however, is not sufficient to depict individual trabeculae in
their true shape. Nevertheless, structural indices such as relative bone volume, trabecular
number, mean thickness and mean separation can be extracted with the help of a ridge
detection algorithm. Precision of the procedure is of the order of 1%, accuracy is ascertained …
resolution computed tomography (3D-QCT) and magnetic resonance imaging. The spatial
resolution of the resulting images, however, is not sufficient to depict individual trabeculae in
their true shape. Nevertheless, structural indices such as relative bone volume, trabecular
number, mean thickness and mean separation can be extracted with the help of a ridge
detection algorithm. Precision of the procedure is of the order of 1%, accuracy is ascertained …
Abstract
In vivo examinations of bone microarchitecture have become available recently through high resolution computed tomography (3D-QCT) and magnetic resonance imaging. The spatial resolution of the resulting images, however, is not sufficient to depict individual trabeculae in their true shape. Nevertheless, structural indices such as relative bone volume, trabecular number, mean thickness and mean separation can be extracted with the help of a ridge detection algorithm. Precision of the procedure is of the order of 1%, accuracy is ascertained using a micro-CT based calibration.
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