Your search keyword '"J.C. Torner"' showing total 2 results

1. Computed Tomography versus Magnetic Resonance Imaging in Stereotactic Localization

Author

J.S. Gerdes, P.W. Hitchon, W. Neerangun, and J.C. Torner

Subjects

Adult, Male, medicine.medical_specialty, Interventional magnetic resonance imaging, education, Computed tomography, Stereotaxic Techniques, Neuroimaging, Image Processing, Computer-Assisted, medicine, Humans, Computed tomography laser mammography, Aged, Brain Mapping, medicine.diagnostic_test, business.industry, Reproducibility of Results, Magnetic resonance spectroscopic imaging, Magnetic resonance imaging, Middle Aged, Magnetic Resonance Imaging, Therapy, Computer-Assisted, Female, Surgery, Neurology (clinical), Tomography, Radiology, Tomography, X-Ray Computed, business, Nuclear medicine, Preclinical imaging

Abstract

Neurosurgeons are often faced with a lesion that is obvious on magnetic resonance imaging (MRI), but not well-defined on computerized tomography (CT). However, questions remain regarding the distortion inherent in MRI images. Therefore the following comparative study was conducted. Five patients with intracranial lesions (1 lymphoma, 1 multiple sclerosis, 2 glioblastomas, and 1 AVM), underwent both CT and MRI for purpose of stereotactic biopsy or radiosurgery. The Brown-Roberts-Wells CT and MRI compatible localizing rings were used. Coordinates of the left optic nerve-globe junction, the aqueduct, pineal and optic chiasm were recorded from both CT and MRI. With MRI, all three imaging planes, axial, coronal and sagittal, were used. Coordinates were calculated in millimeters and submitted to statistical analysis using Pierson correlation coefficients. In all, there were 17 CT, 17 MRI axial, 13 MRI coronal, and 13 MRI sagittal coordinates. The analysis revealed that of the MRI coordinates, the axial coordinates were more available and retrievable. Lateral targets, such as the left optic nerve-globe junction, were more difficult to identify on coronal and sagittal images and often lacked a full compliment of fiducial points for calculation. The correlation with CT was best for axial, followed by coronal and then sagittal MRI planes. Geometric image distortion occurs owing to nonlinearity of the magnetic field as well as magnet susceptibility to different tissues at an interface. We feel that MRI stereotaxy can be utilized in conjunction with CT for verification of lesion coordinates in relatively large lesions, and particularly in those not well delineated on CT.

Published

1994

2. Subject Index Vol. 63,1994

Author

L. Lopez-Gomez, J. Michiels, M.P. Mehta, D. Munoz, Lutz Nolte, A. Takahashi, Y. Piguet, L. Cardentey, R. J. Ledoux, Ross Davis, P.W. Hitchon, T.J.M. Hulsebos, Patrick Mertens, T. Yamamoto, Mustapha Chiha, Philip L. Gildenberg, M. Peter Heilbrun, Ian A. Cunningham, Bruce A. Kail, J. Brotchi, Hiroshi Tokimura, K. Wiese, Ch.B. Ostertag, J.M. Brucher, I. Ortega, I. Kaetsu, J. Muñoz, Kintomo Takakura, V. Jankovič, Barry Berner, R.A. Meuli, T. Uchiyama, S. Leenstra, B.C. Wen, P. Flury, Patrick J. Kelly, Stephan J. Goerss, André Olivier, L. Alvarez, K. Watanabe, P. Suetens, F. Andermann, Cesare Giorgi, M. Šramka, B.S. Rhode, H. Kohga, Kazuho Hirahara, Ferenc A. Jolesz, Katharina Pellegrin, J.P. Farias, J. L. Barcia-Salorio, Eric R. Cosman, Majeed Kadi, Takaomi Taira, Walter Grant, Shiao Woo, J. Piedra, D. Troost, G. López, J. Thomas, Hiroko Kawabatake, M. Ioku, Michael Stanley, Ronald P. Lesser, D. Glauser, G. Savard, H. Fankhauser, F. Soler, J. Miguéns, Luzia Zamorano, G. Redekop, Sandra Emmons, L. Assis, Tatsuya Tanikawa, F.. Quesney, William Peters, B. Fisher, J.C. VanGilder, J. Levy Melancia, Peter McL. Black, Eben Alexander, Paul R. McDonald, R. Kuroda, J.S. Gerdes, S. Goldman, D. Andries Bosch, A. Majeed Kadi, E. Ružický, David Altobelli, D. Baleriaux, M. Hirato, P. Mack, A.G. Gonçalves-Ferreira, A. Alaminos, James A. Taren, C. Drake, Hirotsune Kawamura, R. Verbeeck, A.B. Levin, Scott Stiving, Yosy Zohar, Alan Hirschfeld, Patricia O. Franklin, Terry M. Peters, M. Nakamura, J. Favre, W. Neerangun, W. Soler, Bryan Butler, P.L. Gleason, Ron Kikinis, B. Nuttin, Scott O. Stiving, F. Morales, M. Epitaux, Ahmed Rawanduzy, Richard Day, G. Marchal, Hiroshi Iseki, Patrick Herregodts, Sumio Uematsu, Jeffrey Labuz, M. Levivier, H. Iwasaki, D. Vandermeulen, Jean D'Haens, Linda Schicker, S. Jani, George C. Curtis, T. Tsubokawa, Tohru Hoshida, Roberto Spiegelmann, M. Andrade, G. Zomosa, Tadeusz Stadnik, Tetsuhiko Asakura, F. Akai, Stephen S. Gebarski, Kost Elisevich, William D. Tobler, Nobuhiko Hata, H.K. Inoue, Jeffrey A. Winfield, William M. Wells, R.Q. Quiñones-Molina, Fernando Diaz, Gerald A. King, William C. MacFarland, H. Molina, Richard A. Stea, P.K. Pillay, Marc Sindou, M. Knauth, J.E. Masciopinto, J. Espinosa, G. Hernández, C. Ohye, Meir Faibel, J.C. Torner, Y. Katayama, J. Gybels, A. Torres, N. Hayase, Bruce A. Kall, Juan A. Barcia, Spencer Koehler, Zhaowei Jiang, T.C. Ryken, B. Pirotte, Lucia Zamorano, J. Nakatani, Takeyoshi Dohi, François Dubeau, Koichi Baba, and Vlodak Siemionow

Subjects

Index (economics), business.industry, Surgery, Subject (documents), Neurology (clinical), Nuclear medicine, business, Psychology, Cognitive psychology

Published

1994