Your search keyword '"Harald Staedele"' showing total 6 results

1. Rotation invariance principles in 2D/3D registration.

Author

Wolfgang Birkfellner, Joachim Wirth, Wolfgang Burgstaller, Bernard Baumann, Harald Staedele, Beat Hammer, Nils-Claudius Gellrich, Augustinus Ludwig Jacob, Pietro Regazzoni, and Peter Messmer

Published

2003

2. Fluoroscopy-Based Surgical Navigation versus Fluoroscopic Guidance to Control Guide Wire Insertion for Osteosynthesis of Femoral Neck Fractures

Author

Norbert Suhm, Pietro Regazzoni, Harald Staedele, Peter Messmer, Cesare Marazzi, Ivan Zuna, Thomas M. Beck, and Augustinus Ludwig Jacob

Subjects

medicine.medical_specialty, Osteosynthesis, Percutaneous, medicine.diagnostic_test, business.industry, Synthetic bone, Femoral Neck Fractures, Radiation exposure, Fracture fixation, medicine, Fluoroscopy, Surgery, Guide-wire placement, Radiology, business

Abstract

Long fluoroscopic times and related radiation exposure are a universal concern when C-arm fluoroscopy is used to guide percutaneous procedures. Fluoroscopy-based surgical navigation has been proposed as an alternative guidance method requiring limited fluoroscopic times to achieve precision. The purpose of this experimental study was to compare fluoroscopy-based surgical navigation with C-arm fluoroscopy for guidance with respect to the precision achieved, the fluoroscopic time, and the resources needed. 114 guide wires were placed in 38 synthetic bone models using either C-arm fluoroscopy (group A) or fluoroscopy-based surgical navigation (group B) for guidance. Precision of guide wire placement was rated on the basis of an individual CT scan on all fracture models of both groups. The fluoroscopic time, the procedure time, and the number of attempts required to place the guide wires were documented as well. An average fluoroscopic time of 26 s was needed with C-arm fluoroscopy to place three guide wires compared with an average fluoroscopic time of 2 s that was needed when fluoroscopy-based surgical navigation was used for guidance (p < 0.0001). Precision of guide wire placement and procedure times required to place the guide wires did not differ significantly between both groups. The number of attempts required for correct placement was found significantly reduced with fluoroscopy-based surgical navigation when compared with fluoroscopic guidance (p = 0.04). Fluoroscopic times to achieve precision are reduced with fluoroscopy-based surgical navigation compared with C-arm fluoroscopy. The impact of this new technique on minimally invasive, percutaneous procedures has to be evaluated in controlled prospective clinical studies.

Published

2004

3. A faster method for 3D/2D medical image registration—a simulation study

Author

Niels Claudius Gellrich, Wolfgang Burgstaller, Wolfgang Birkfellner, Bernard Baumann, Peter Messmer, Harald Staedele, Joachim Wirth, Beat Hammer, Pietro Regazzoni, and Augustinus Ludwig Jacob

Subjects

Quality Control, Optimization problem, Coordinate system, Image registration, Parameter space, Sensitivity and Specificity, Bone and Bones, Pelvis, Rendering (computer graphics), Imaging, Three-Dimensional, Humans, Six degrees of freedom, Radiology, Nuclear Medicine and imaging, Computer vision, Pose, Mathematics, Tibia, Radiological and Ultrasound Technology, business.industry, Skull, Reproducibility of Results, Volume rendering, Radiographic Image Enhancement, Subtraction Technique, Radiographic Image Interpretation, Computer-Assisted, Artificial intelligence, Tomography, X-Ray Computed, business, Algorithms

Abstract

3D/2D patient-to-computed-tomography (CT) registration is a method to determine a transformation that maps two coordinate systems by comparing a projection image rendered from CT to a real projection image. Iterative variation of the CT's position between rendering steps finally leads to exact registration. Applications include exact patient positioning in radiation therapy, calibration of surgical robots, and pose estimation in computer-aided surgery. One of the problems associated with 3D/2D registration is the fact that finding a registration includes solving a minimization problem in six degrees of freedom (dof) in motion. This results in considerable time requirements since for each iteration step at least one volume rendering has to be computed. We show that by choosing an appropriate world coordinate system and by applying a 2D/2D registration method in each iteration step, the number of iterations can be grossly reduced from n6 to n5. Here, n is the number of discrete variations around a given coordinate. Depending on the configuration of the optimization algorithm, this reduces the total number of iterations necessary to at least 1/3 of it's original value. The method was implemented and extensively tested on simulated x-ray images of a tibia, a pelvis and a skull base. When using one projective image and a discrete full parameter space search for solving the optimization problem, average accuracy was found to be 1.0 +/- 0.6(degrees) and 4.1 +/- 1.9 (mm) for a registration in six parameters, and 1.0 +/- 0.7(degrees) and 4.2 +/- 1.6 (mm) when using the 5 + 1 dof method described in this paper. Time requirements were reduced by a factor 3.1. We conclude that this hardware-independent optimization of 3D/2D registration is a step towards increasing the acceptance of this promising method for a wide number of clinical applications.

Published

2003

4. Use of the modified three-point Dixon technique in obtaining T1-weighted contrast-enhanced fat-saturated images on an open magnet

Author

P. F. J. Tirman, Mikayel Grigorian, Harry K. Genant, Rolf W. Huegli, Harald Staedele, S. Zaim, and Harald M. Bonel

Subjects

Adult, Gadolinium DTPA, Male, medicine.medical_specialty, Scanner, media_common.quotation_subject, Gadolinium, Contrast Media, chemistry.chemical_element, Imaging phantom, Image Processing, Computer-Assisted, medicine, Humans, Contrast (vision), Radiology, Nuclear Medicine and imaging, Point (geometry), media_common, Gadolinium-Chelate, Phantoms, Imaging, business.industry, Ultrasound, General Medicine, Middle Aged, Image Enhancement, Magnetic Resonance Imaging, Adipose Tissue, chemistry, Magnet, Female, Spinal Diseases, Radiology, Artifacts, business, Nuclear medicine

Abstract

The purpose of this study was to investigate the modified three-point Dixon technique as a method for obtaining fat-saturated T1-weighted sequences before and after intravenous gadolinium administration using an open MR imaging scanner. A preliminary experiment using an oil/gadolinium phantom was performed on a 0.35-T open magnet and an advanced 1.5-T unit. Fat saturation was achieved at 1.5 T using a frequency selective presaturation technique and a modified three-point Dixon technique on the low-field scanner. The modified three-point Dixon sequence was then evaluated in ten patients undergoing MRI examinations of the spine with gadolinium enhancement to determine image characteristics and diagnostic potential. The phantom study demonstrated a homogenous suppression of signal from oil and a good distinction between fat and a gadolinium chelate on the 0.35-T unit comparable to that on the 1.5-T scanner. By applying the modified three-point Dixon technique on the open-magnet, the distinction between fat and gadolinium dimeglumine was rated as very good in 139 and good in 17 axial slices in a total of 156 images. No image was rated as difficult or not possible. Motion artifacts that hampered the reading were detected in the lower cervical spine due to respiratory movement in four (3% of all) images. The modified three-point Dixon technique provides the combination of gadolinium enhancement with fat saturation on an open magnet. Early clinical applications appear promising.

Published

2004

5. Subject Index Vol. 63, 1999

Author

A.M.E. Nouri, Mihály Berényi, Tatsuo Iizumi, Hiroaki Shiina, Hiroshi Kanetake, Tomayoshi Hayashi, Mario Bonadio, T. Klotz, W. Bloch, Tatsuaki Yoneda, Yutaka Saito, T. Kehagia-Koutoufari, Edward L. Gheiler, S.C. Karan, Sheng-Pin Changlai, U. Engelmann, András Kiss, Takashi Umeda, Mahendra Bhandari, Alexander von Weymarn, Liu-Ing Bih, Manal Kumar, Armando Vigna, Kazushi Shigeno, Hiroshi Tomomasa, Shinji Urakami, John F. Harb, Felipe Sacristan, Mikio Igawa, Shigeru Kanda, Rabi Tiguert, M. Braun, Benedetta Longo, Rajesh Ahlawat, Harald Staedele, Hirofumi Shimizu, Eloisio Alexsandro Da Silva, Craig Smith, Francisco Neira Pampin, Mahesh C. Goel, A. Ptochos, N. Torabi-Pour, Thomas Gasser, Yasuto Yamasaki, Yukihiro Wada, N.P. Gupta, E. Tyrothoulakis, Ana de la Fuente Buceta, G. Karydas, Micaela Meini, Eduardo Zungri Telo, F. Chineguwndo, P. Derakhshani, Cristina Gigli, Ding-Bang Lin, N. Iosifidis, Kyouichi Hariu, Yutaka Kamiyama, Yasushi Mochizuki, Georg Bongartz, G. Papazafiriou, Koichiro Nomata, Ágoston Csontai, A. Heidenreich, R.T.D. Oliver, Monish Aron, Tsunetada Yazaki, Flavio Stoffel, Patrick M. Hurley, Roberto Casella, M.J. Mathers, and Hiroshi Yagi

Subjects

Index (economics), business.industry, Urology, Statistics, Medicine, Subject (documents), business

Published

1999

6. Contents Vol. 63, 1999

Author

Alexander von Weymarn, Monish Aron, Tatsuo Iizumi, G. Karydas, Ding-Bang Lin, N.P. Gupta, Kyouichi Hariu, Harald Staedele, Rajesh Ahlawat, M.J. Mathers, T. Kehagia-Koutoufari, Hiroaki Shiina, Mahendra Bhandari, Francisco Neira Pampin, R.T.D. Oliver, M. Braun, Micaela Meini, Thomas Gasser, Yasuto Yamasaki, T. Klotz, F. Chineguwndo, Benedetta Longo, P. Derakhshani, Ágoston Csontai, Mario Bonadio, Patrick M. Hurley, A. Heidenreich, Tatsuaki Yoneda, N. Iosifidis, Yukihiro Wada, Hiroshi Yagi, Tsunetada Yazaki, Liu-Ing Bih, N. Torabi-Pour, Hirofumi Shimizu, Flavio Stoffel, Hiroshi Kanetake, Takashi Umeda, A.M.E. Nouri, Roberto Casella, Mihály Berényi, Kazushi Shigeno, Tomayoshi Hayashi, A. Ptochos, U. Engelmann, Yutaka Kamiyama, John F. Harb, Shigeru Kanda, Georg Bongartz, Edward L. Gheiler, Eloisio A. Da Silva, Armando Vigna, Yasushi Mochizuki, Rabi Tiguert, Mahesh C. Goel, Koichiro Nomata, Shinji Urakami, G. Papazafiriou, Hiroshi Tomomasa, Mikio Igawa, W. Bloch, Yutaka Saito, Eduardo Zungri Telo, Ana de la Fuente Buceta, S.C. Karan, Sheng-Pin Changlai, Craig Smith, András Kiss, Manal Kumar, Felipe Sacristan, E. Tyrothoulakis, and Cristina Gigli

Subjects

Traditional medicine, business.industry, Urology, Medicine, business

Published

1999