Your search keyword '"Grimbergen, K."' showing total 6 results

1. Adaptive noise filtering for accurate and precise diffusion estimation in fiber crossings

Author

Caan, M. W., Khedoe, G., Poot, D., Arnold den Dekker, Olabarriaga, S., Grimbergen, K., Vliet, L., Vos, F., Amsterdam Neuroscience, Radiology and Nuclear Medicine, Amsterdam Public Health, Epidemiology and Data Science, Amsterdam Cardiovascular Sciences, Amsterdam Gastroenterology Endocrinology Metabolism, and Biomedical Engineering and Physics

Abstract

Measuring the diffusion properties of crossing fibers is very challenging due to the high number of model parameters involved and the intrinsically low SNR of Diffusion Weighted MR Images. Noise filtering aims at suppressing the noise while pertaining the data distribution. We propose an adaptive version of the Linear Minimum Mean Square Error (LMMSE) estimator to achieve this. Our filter applies an adaptive filtering kernel that is based on a space-variant estimate of the noise level and a weight consisting of the product of a Gaussian kernel and the diffusion similarity with respect to the central voxel. The experiments show that the data distribution after filtering is still Rician and that the diffusivity values are estimated with a higher precision while pertaining an equal accuracy. We demonstrate on brain data that our adaptive approach performs better than the initial LMMSE estimator

Published

2010

2. Man-machine aspects of minimally invasive surgery

Author

Stassen, H. G., Dankelman, J., Grimbergen, K. A., and Meijer, D. W.

Published

2001

3. Generating fiber crossing phantoms out of experimental DWIs

Author

Caan, M., Vries, A. W., Khedoe, G., Akkerman, E., Lucas van Vliet, Grimbergen, K., and Vos, F.

4. Adaptive noise filtering for accurate and precise diffusion estimation in fiber crossings.

Author

Caan MW, Khedoe G, Poot D, den Dekker A, Olabarriaga S, Grimbergen K, van Vliet L, and Vos F

Subjects

Algorithms, Humans, Reproducibility of Results, Sensitivity and Specificity, Artifacts, Brain anatomy & histology, Diffusion Tensor Imaging methods, Image Enhancement methods, Image Interpretation, Computer-Assisted methods, Imaging, Three-Dimensional methods, Nerve Fibers ultrastructure

Abstract

Measuring the diffusion properties of crossing fibers is very challenging due to the high number of model parameters involved and the intrinsically low SNR of Diffusion Weighted MR Images. Noise filtering aims at suppressing the noise while pertaining the data distribution. We propose an adaptive version of the Linear Minimum Mean Square Error (LMMSE) estimator to achieve this. Our filter applies an adaptive filtering kernel that is based on a space-variant estimate of the noise level and a weight consisting of the product of a Gaussian kernel and the diffusion similarity with respect to the central voxel. The experiments show that the data distribution after filtering is still Rician and that the diffusivity values are estimated with a higher precision while pertaining an equal accuracy. We demonstrate on brain data that our adaptive approach performs better than the initial LMMSE estimator.

Published

2010

5. Editorial: SMIT and the role of technology in medicine.

Author

Grimbergen K

Published

2003

6. A venturi suction electrode array for clinical body surface mapping.

Author

Sippensgroenewegen A, Reek EJ, Spekhorst H, Broekhuijsen P, Smit HW, and Grimbergen KA

Subjects

Electrodes, Humans, Electrocardiography instrumentation, Heart Diseases diagnosis

Published

1986