Patent application number | Description | Published |
20080312530 | IMPLANTABLE MARKER FOR A SURGICAL NAVIGATION SYSTEM, THE MARKER HAVING A SPIKE FOR REMOVABLY SECURING THE MARKER TO THE TISSUE TO BE TRACKED - A marker for use with a surgical navigation system for tracking the tissue with which the marker is associated. The overall dimensions of the mark is such that it is shaped to be disposed below the skin of the patient in which the marker is implanted. The marker has a stem or a spike that allows the marker to be implanted in hard tissue such as bone. A head, containing navigation system components is located above the stem or spike. Once the procedure is completed the marker is removed from the patient by breaking the head free from the stem Alternatively the head may be rotated to cause the whole of the marker to break free from the bone in which the marker is implanted. | 12-18-2008 |
20090182338 | METHOD FOR MANUFACTURING A SURGICAL SAW BLADE WITH A BLADE HEAD AND RAISED BOSS AROUND WHICH THE BLADE HEAD PIVOTS - In a method of assembling a surgical saw blade assembly with an blade bar that contains an oscillating head, the blade bar is formed from opposed plates. One of the plates is punch stamped to define a boss around which blade head pivots. The plates are secured to one another in a series of steps in which spaced apart sections of the plates are welded together. | 07-16-2009 |
20090293270 | METHOD OF ASSEMBLING AN ELECTRODE ARRAY THAT INCLUDES A PLASTICALLY DEFORAMBLE CARRIER - A method of assembling an implantable electrode array from a coupon ( | 12-03-2009 |
20100064525 | SURGICAL SAGITTAL SAW BLADE WITH A STATIC BAR AND A PIVOTING BLADE HEAD, THE BAR SHAPED TO FACILITATE HOLDIGN THE BLADE TO A COMPLEMENTARY SAW - A surgical sagittal saw blade with a static blade bar and to which a blade head is mounted. Distal from the proximal end of the blade bar, the sides of the bar taper outwardly. These outer taper sides facilitate the coupling of the blade bar to the complementary saw used to actuate the blade. | 03-18-2010 |
20100228256 | SAGITTAL SAW BLADE WITH A STATIC BAR AND A MOVING DRIVE ROD AND BLADE CROWN, THE BAR HAVING SECONDARY OPENINGS - A surgical sagittal saw blade with a static blade bar shaped to be coupled to a sagittal saw. At least one drive rod extends through the bar. The drive rod is moveable within the blade bar. A blade crown, located outside the distal end opening of the blade bar is connected to the drive rod. The actuation of the drive rod by the saw results in the oscillation of the blade crown. Proximal to the distal end of the blade bar, the bar is formed with secondary openings. When the drive rod and blade crown are actuated, tissue entrained in the blade bar is discharged from the secondary openings. | 09-09-2010 |
20130060252 | SURGICAL SAGITTAL SAW BLADE ASSEMBLY FORMED BY PUNCHING A PIVOT BOSS FROM ONE OF THE STATIC PLATES OF THE ASSEMBLY - A surgical sagittal saw blade assembly formed that includes a static bar, an oscillating blade head and at least one drive rod that reciprocates to oscillate the blade head. The bar is formed from two plates. A boss is pouch formed to extend up from one of the plates. The boss serves as the static pivot point around which the blade head oscillates. When the plates are secured together to form the bar, the top of the boss is welded to the inner surface of the second plate. | 03-07-2013 |
20130137972 | IMPLANTABLE MARKER FOR A SURGICAL NAVIGATION SYSTEM, THE MARKER HAVING A SPIKE FOR REMOVABLY SECURING THE MARKER TO THE TISSUE TO BE TRACKED - A marker for use with a surgical navigation system for tracking the tissue with which the marker is associated. The overall dimensions of the mark is such that it is shaped to be disposed below the skin of the patient in which the marker is implanted. The marker has a stem or a spike that allows the marker to be implanted in hard tissue such as bone. A head, containing navigation system components is located above the stem or spike. Once the procedure is completed the marker is removed from the patient by breaking the head free from the stem Alternatively the head may be rotated to cause the whole of the marker to break free from the bone in which the marker is implanted. | 05-30-2013 |
20140091054 | METHOD OF FABRICATING AN IMPLANTABLE MEDICAL DEVICE THAT INCLUDES ONE OR MORE THIN FILM POLYMER SUPPORT LAYERS - An implantable medical device formed from one or more layers of thin film polymer is assembled by providing by adhesively securely one or more polymer coupons on individual rigid backings. After each coupon is shaped or components mounted to the coupon, the coupons are bonded together. The adhesive is dissolved to remove the device from the backing or backings to which it is attached. | 04-03-2014 |
20140343643 | IMPLANTABLE ELECTRODE ARRAY ASSEMBLY INCLUDING A CARRIER WITH EMBEDDED CONTROL MODULES CONTAINED IN PACKAGES, THE PACKAGES EXTENDING OUTWARDLY SO AS TO EXTEND OVER THE CARRIER - An implantable electrode array that includes a carrier on which multiple spaced apart electrodes are disposed. Embedded in the module are control modules. The control modules are contained in packages. Portions of the packages extend outwardly from the carrier so as to be disposed against adjacent surfaces of the carrier. The packages contain conductive tracts that provide conductive links from the conductors internal to the carrier to the packaged control modules. | 11-20-2014 |
20150025367 | IMPLANTABLE MARKER FOR A SURGICAL NAVIGATION SYSTEM, THE MARKER HAVING A STEM WITH A SEPARATION ZONE TO FACILITATE THE REMOVAL OF THE MARKER - A marker for use with a surgical navigation system for tracking the tissue with which the marker is associated. The overall dimensions of the mark is such that it is shaped to be disposed below the skin of the patient in which the marker is implanted. The marker has a stem that allows the marker to be implanted in hard tissue such as bone. A head, containing navigation system components is located above the stem or spike. The stem is formed with a section of reduced tensile strength. Once the procedure is completed, a force is applied to the marker. The force breaks the stem at the separation zone. This allows the portion of the marker above the separation zone to be removed. | 01-22-2015 |