Koen L. Vincken
Utrecht University
183 Papers
1.3K Citations
Koen L. Vincken is an academic researcher from Utrecht University. The author has contributed to research in topics: Medicine & Segmentation. The author has an hindex of 45, co-authored 181 publications. Previous affiliations of Koen L. Vincken include University of Groningen & University Medical Center Utrecht.
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Papers
Registration of Brain CT Images to an MRI Template for the Purpose of Lesion-Symptom Mapping
Hugo J. Kuijf,J. Matthijs Biesbroek,Max A. Viergever,Geert Jan Biessels,Koen L. Vincken +4 more
- 22 Sep 2013
TL;DR: A two-step registration procedure was implemented, using lesion-masking and contrast stretching to correctly align the soft tissue of the CT image to the MNI152 template image and the results were used to transform the lesion delineations to the template.
Automatic Extraction of the Midsagittal Surface from Brain MR Images using the Kullback–Leibler Measure
Hugo J. Kuijf,Susanne J. van Veluw,Mirjam I. Geerlings,Max A. Viergever,Geert Jan Biessels,Koen L. Vincken +5 more
TL;DR: In the present study, an automated method to extract the midsagittal surface is proposed, evaluated on a large dataset, and compared to a conventional midsagital plane representation.
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Comparison of multiscale representations for a linking-based image segmentation model
Wiro J. Niessen,Koen L. Vincken,Max A. Viergever +2 more
- 21 Jun 1996
TL;DR: In this paper, different multiscale generators are qualitatively compared with respect to their performance within a multi-scale linking model for image segmentation and the linking model used is the hyperstack that was inspired by linear scale space theory.
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Validation of the interleaved pyramid for the segmentation of 3D vector images
TL;DR: A multiresolution pyramid with double scale space sampling (compared to the Burt & Hong scheme) for the segmentation of 3D images, of which the elements are multiple valued, is described.
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•Journal Article
Pre-existent vertebral rotation in the human spine is influenced by body position.
Michiel M. A. Janssen,Koen L. Vincken,Bastiaan Kemp,Marina Obradov,De Kleuver M,Max A. Viergever,René M. Castelein,Lambertus W. Bartels +7 more
TL;DR: It was shown that in all three positions the mid- and lower thoracic vertebrae were predominantly rotated to the right, however, vertebral rotation was significantly less in the quadrupedal position than in both the standing upright and supine positions.
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