Patents Assigned to George S. Allen
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Automatic technique for localizing externally attached fiducial markers in volume images of the head
Patent number: 6052477Abstract: An automatic computer implemented technique which may be used for identifying markers and determining the centroids of fiducial markers (e.g., cylindrical fiducial markers) attached to the head in magnetic resonance (MR) and X-ray computed tomography (CT) volume images is disclosed. This technique may be referred to as image space localization. A first portion of the technique identifies many candidate voxel points included in a bright area of the image which may correspond to candidate markers. A second portion of the technique selects from the identified candidate voxels a predetermined number of candidate points of the image volume that are most likely to lie within an actual fiducial marker. The centroid for each of these markers is then determined. The method finds markers whose images are of a higher intensity than their surroundings and which have a given shape and size.Type: GrantFiled: July 6, 1998Date of Patent: April 18, 2000Assignee: George S. AllenInventors: Matthew Y. Wang, Calvin R. Maurer, Jr., J. Michael Fitzpatrick -
Patent number: 5984930Abstract: A surgeon can select an entry point and a target point in a preoperative image volume of the patient. The target point and entry point form a trajectory line along which the surgeon wishes to perform a surgical procedure such as a biopsy and line up a surgical instrument. Once a surgical platform is moved along a guide arm arc close to a point on the trajectory line, the surgical platform is locked to the guiding arm. A pivot point position at the center of a ball joint in the middle of a metal plate is then arranged to be exactly at a point on the trajectory line. The metal plate is locked down and the ball joint is rotated to ensure that the surgical sleeve extends exactly along the trajectory line. This allows a decoupling between the position and orientation movements required to line the surgical sleeve up with the trajectory line to perform a surgical procedure. An interoperative localization device (ILD) is used to track the position of the surgical guide relative to the image space.Type: GrantFiled: September 30, 1996Date of Patent: November 16, 1999Assignee: George S. AllenInventors: Robert Maciunas, J. Michael Fitzpatrick, Calvin R. Maurer, Jr., Jennifer J. McCrory, Rory Randall
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Patent number: 5916164Abstract: A detachable cap for use in determining the location of the center of the imageable portion of a fiducial marker is disclosed. The lower portion of the cap has three arms and a boss for providing a detachable connection with an implanted base portion to which an imaging marker can be attached. The upper portion of the cap includes a divot-like depression that is configured to mate with a ball whose center can be determined. The ball, marker, and divot are configured so that the center of the ball, when mated to the divot, is coincident with the center of the marker when it is attached to the base in place of the cap. Knowledge of the location of the center of the ball when it is brought into engagement with the divot of the cap can be used to determine the location of the center of the marker when it is attached to the base.Type: GrantFiled: August 12, 1997Date of Patent: June 29, 1999Assignee: George S. AllenInventors: J. Michael Fitzpatrick, Jennifer J. McCrory
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Automatic technique for localizing externally attached fiducial markers in volume images of the head
Patent number: 5799099Abstract: An automatic computer implemented technique which may be used for identifying markers and determining the centroids of fiducial markers (e.g., cylindrical fiducial markers) attached to the head in magnetic resonance (MR) and X-ray computed tomography (CT) volume images is disclosed. This technique may be referred to as image space localization. A first portion of the technique identifies many candidate voxel points included in a bright area of the image which may correspond to candidate markers. A second portion of the technique selects from the identified candidate voxels a predetermined number of candidate points of the image volume that are most likely to lie within an actual fiducial marker. The centroid for each of these markers is then determined. The method finds markers whose images are of a higher intensity than their surroundings and which have a given shape and size.Type: GrantFiled: June 6, 1995Date of Patent: August 25, 1998Assignee: George S. AllenInventors: Matthew Y. Wang, Calvin R. Maurer, Jr., J. Michael Fitzpatrick -
Automatic technique for localizing externally attached fiducial markers in volume images of the head
Patent number: 5769789Abstract: An automatic computer implemented technique which may be used for identifying markers and determining the centroids of fiducial markers (e.g., cylindrical fiducial markers) attached to the head in magnetic resonance (MR) and X-ray computed tomography (CT) volume images is disclosed. This technique may be referred to as image space localization. A first portion of the technique identifies many candidate voxel points included in a bright area of the image which may correspond to candidate markers. A second portion of the technique selects from the identified candidate voxels a predetermined number of candidate points of the image volume that are most likely to lie within an actual fiducial marker. The centroid for each of these markers is then determined. The method finds markers whose images are of a higher intensity than their surroundings and which have a given shape and size.Type: GrantFiled: April 22, 1997Date of Patent: June 23, 1998Assignee: George S. AllenInventors: Matthew Y. Wang, Calvin R. Maurer, Jr., J. Michael Fitzpatrick