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ICIP
2010
IEEE
2010
IEEE
Surgical needle reconstruction using small-angle multi-view X-ray
In biopsies, drainages, vertebroplasty, and other needle-based procedures, insight on the 3D position of a needle is crucial for correct navigation by the clinician. In this paper, we present a method for the reconstruction of surgical needles using multi-view X-ray imaging with a small motion of the C-arm. It is required that the extent of the motion is limited (< 30 degrees) to allow use of this method during an intervention. This small motion provides sufficient multi-view information, which is used in combination with a needle model for the 3D reconstruction of the needle. To this end, we describe a system comprising the steps of (a) needle detection in a novel, RANSAC-based framework, (b) tracking of needles in subsequent views using geometric constraints and (c) needle reconstruction. Results are presented in comparison to a volume reconstruction using a full rotation of the C-arm ( 207 degrees), showing good accuracy of the proposed method.
Real-time TrafficICIP 2010 | Image Processing | Multi-view X-ray | Small Motion | Sufficient Multi-view Information |
| Added | 12 Feb 2011 |
| Updated | 12 Feb 2011 |
| Type | Journal |
| Year | 2010 |
| Where | ICIP |
| Authors | Chrysi Papalazarou, Peter M. J. Rongen, Peter H. N. de With |
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