Interactive Intra-operative 3D Ultrasound Reconstruction and Visualization
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Publisher
Springer Berlin Heidelberg
Link
http://link.springer.com/content/pdf/10.1007/3-540-45787-9_20
Reference11 articles.
1. G. Unsgaard, S. Ommedal, T. Muller, A. Gronningsgaeter and T.A. Nagelhus Hernes. Neuronavigation by Intraoperative Three-dimensional Ultrasound: Initial Experience during Brain Tumor Resection. Neurosurgery 50:804–812, 2002.
2. A. Gronningsaeter, A. Kleven, S. Ommedal, T.E. Aerseth, T. Lie, F. Lindseth, T. Langø and G. Unsgård. Sono Wand, an Ultrasound-based Neuronavigation System. Neurosurgery 47:1373–1380, 2000.
3. D. L. G. Hill, C. R. Maurer Jr., R. J. Maciunas, J. A. Barwise, J. M. Fitzpatrick and M.Y. Wang. Measurement of Intraoperative Brain Surface Deformation under a Craniotomy. Neurosurgery 43:514–528, 1998.
4. D. W. Roberts, A. Hartov, F. E. Kennedy, M. I. Miga and K. D. Paulsen. In-traoperative Brain Shift and Deformation: A Quantitative Analysis of Cortical Displacement in 28 Cases. Neurosurgery 43:749–760, 1998.
5. W. Schroeder, K. W. Martin and W. Lorensen. The Visualization Toolkit, 2nd Edition. Prentice Hall, Toronto, 1998.
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