Effect of scanner in longitudinal diffusion tensor imaging studies

## Abstract In order to investigate the properties of water motion within and around brain tumors as a function of tumor growth, longitudinal diffusion tensor imaging (DTI) was carried out in a rat brain glioma (C6) model. As tumors grew in size, significant anisotropy of water diffusion was seen b

## Abstract ## Purpose: To evaluate the effects of drift in scanner hardware and inter‐scanner variability on global and regional brain volume changes using longitudinal data obtained on two scanners of the exact same model. ## Materials and Methods: A total of 208 subjects (70 females and 138 m

## Abstract ## Purpose To evaluate the feasibility of using a clinical 1.5T MR scanner to perform magnetic resonance (MR) diffusion tensor imaging (DTI) on in vivo rodent brains and to trace major rodent neuronal bundles with anatomical correlation. ## Materials and Methods Two normal adult Spra

The effect of susceptibility differences between fluid and fibers on the properties of DTI fiber phantoms was investigated. Thereto, machine-made, easily producible and inexpensive DTI fiber phantoms were constructed by winding polyamide fibers of 15 microm diameter around a circular acrylic glass s

## Abstract The diffusion tensor is typically assumed to be positive definite. However, noise in the measurements may cause the eigenvalues of the tensor estimate to be negative, thereby violating this assumption. Negative eigenvalues in diffusion tensor imaging (DTI) data occur predominately in re