| Patent application number | Description | Published |
|---|
| 20100023059 | INTERVERTEBRAL PROSTHETIC DEVICE FOR SPINAL STABILIZATION AND METHOD OF IMPLANTING SAME - A method of implanting a spinal prosthesis comprises inserting a first member between superior and inferior spinous processes associated with respective superior and inferior vertebrae. The superior and inferior vertebrae are separated by an intermediate vertebra. The method further includes inserting a second member through a channel in the first member. After the second member is inserted, the method requires removing the second member from the channel and inserting a third member through the channel. The third member has a different stiffness than the second member. Finally, the method requires anchoring the third member to the intermediate vertebra, while the third member is inserted through the channel. The third member is anchored at first and second locations disposed on respective first and second lateral sides of the intermediate vertebra. | 01-28-2010 |
| 20100030285 | INTERVERTEBRAL PROSTHETIC DEVICE FOR SPINAL STABILIZATION AND METHOD OF IMPLANTING SAME - A method of implanting a spinal prosthesis comprises inserting a first member between superior and inferior spinous processes associated with respective superior and inferior vertebrae. The superior and inferior vertebrae are separated by an intermediate vertebra. The method further includes inserting a second member through a channel in the first member. After the second member is inserted, the method requires removing the second member from the channel and inserting a third member through the channel. The third member has a different stiffness than the second member. Finally, the method requires anchoring the third member to the intermediate vertebra, while the third member is inserted through the channel. The third member is anchored at first and second locations disposed on respective first and second lateral sides of the intermediate vertebra. | 02-04-2010 |
| 20100145387 | SPINAL IMPLANTS INCLUDING A SENSOR AND METHODS OF USE - A method spacing spinal elements includes installing a first spinal implant having a sensor associated therewith; selecting a second spinal implant based on measurement data provided by the sensor; and replacing the first spinal implant with the second spinal implant. The first and second implants may be installed in separate surgical procedures, or during the same surgical procedure, and the implants may be positioned between a superior spinous process and an inferior spinous process and advantageously directly engage the same. The selection of the second implant may be based on the data provided by the sensor and a material property of the second spinal implant, such as its stiffness. The measurement data may correspond to strain or force data. The sensor may be, but is not required to be, embedded in the first spinal implant. A corresponding apparatus is described. | 06-10-2010 |
| 20100191071 | Methods and Systems for Diagnosing, Treating, or Tracking Spinal Disorders - A method of patient assessment, treatment, and outcome modeling is disclosed. The method includes obtaining patient characteristic information from a current patient, defining a plurality of therapeutic factors based on the characteristic information of the current patient, and weighting the therapeutic factors. The method also includes accessing at least one database having medical records of prior patients, the medical records including prior patient characteristic information, prior patient treatment plan, and prior patient outcome, comparing the weighted factors of the current patient to the medical records of the prior patients to identify one or more relevant prior patient records, and retrieving at least a portion of the relevant prior patient records, the portion including at least the prior patient treatment plan and the prior patient outcome. The method also includes performing a simulation of at least one of the prior patient treatment plans based on the current patient's characteristic information and selecting a treatment plan for the current patient. | 07-29-2010 |
| 20100191088 | METHODS AND SYSTEMS FOR DIAGNOSING, TREATING, OR TRACKING SPINAL DISORDERS - Methods and systems for performing a surgical procedure using implantable sensors are disclosed. The method includes providing one or more implantable sensors, each sensor configured for implantation adjacent to an anatomical feature of a patient; imaging the patient to determine the relative positions of the one or more implantable sensors relative to the anatomical features of the patient; inserting an implant adjacent to at least one of the anatomical features; and tracking the position of the implant relative to the at least one anatomical feature during the inserting of the implant using the implantable sensors. | 07-29-2010 |
| 20100191100 | METHODS AND SYSTEMS FOR DIAGNOSING, TREATING, OR TRACKING SPINAL DISORDERS - Methods and systems for visualizing and analyzing anatomical motion are disclosed. The method includes providing a plurality of implantable sensors, each sensor configured for implantation adjacent to an anatomical feature of a patient and tracking the positions of the implantable sensors as the patient is put through a diagnostic motion protocol. The method also includes correlating the positions of the implantable sensors to the positions of the anatomical features of the patient adjacent to the sensors, visualizing a motion sequence of the anatomical features according to the positions of the anatomical features from the diagnostic motion protocol; and analyzing the motion sequence of the anatomical features to identify a medical problem. | 07-29-2010 |
| 20100249841 | MULTI-CHAMBER EXPANDABLE INTERSPINOUS PROCESS SPACER - An expandable interspinous process spacer is disclosed that includes at least two chambers, one disposed within the other. Each of the at least two chambers can receive an injectable biocompatible material, which advantageously may have different material properties such as hardness. Further, the expandable interspinous process spacer can be changed from a deflated configuration to an inflated configuration. In the inflated configuration, the expandable interspinous process spacer can engage and support a superior spinous process and an inferior spinous process. | 09-30-2010 |
| 20100268277 | ARTIFICIAL SPINOUS PROCESS FOR THE SACRUM AND METHODS OF USE - Devices and methods for attaching a support to the sacrum. One device may include first and second anchors that mount to the sacrum, and first and second lateral extensions coupled to the anchors to secure the device to the sacrum. A bearing face having a width is positioned between the lateral extensions. The face may have a height in an anterior-posterior direction greater than the spinous process of the sacrum. Further, the bearing face may be oriented in a superior direction when the device is mounted to the sacrum. An implant may be supported by the device to space the sacrum and L5 vertebra. The implant may be an interspinous device and positioned between the L5 spinous process and the bearing face. The implant is supported at least in part by the bearing face. | 10-21-2010 |
| 20100280553 | Expandable Spinal Rods and Methods of Use - A spinal rod having first and second end members. The end members may be flexible or rigid. An expandable intermediate section is positioned between the first and second end members. The intermediate section may be axially expandable upon the introduction of a substance into a port that may be located in either of the first and second end members or the intermediate section. The intermediate section may be expandable between a first size, where the first and second end members are spaced a first distance apart, and a second enlarged size, where the first and second end members are spaced a second greater distance apart. | 11-04-2010 |
| 20110022091 | LOCAL DELIVERY OF AN ACTIVE AGENT FROM AN ORTHOPEDIC IMPLANT - A posterior spinal fixation device or dynamic spinal stabilization device or other orthopedic device includes an active agent-delivery component. The active agent-delivery component has an active agent impregnated therein or adsorbed thereon or otherwise contained therein and is configured to release the active agent locally after the device is implanted in a patient. One preferred type of implant in accordance with the invention is an implant for stabilizing a spinal motion segment that includes a spacer member positionable between adjacent spinous processes or transverse processes or other posterior spinal element, including an implanted anchor element. | 01-27-2011 |
| 20110160775 | Locking Device And Method Employing A Posted Member To Control Positioning Of A Stabilization Member Of A Bone Stabilization System - A locking device and method are provided for a bone stabilization system which includes a bone anchor, a coupling mechanism and a stabilization member, wherein the coupling mechanism couples the stabilization member to the bone anchor. The locking device includes a seating member and a posted member. The seating member is operatively associated with the coupling mechanism for securing the stabilization member within the coupling mechanism, and is configured with an opening therein. The posted member, which includes an interface member and a post extending therefrom, is configured for disposition between the seating member and the stabilization member with the post extending therefrom being received into the opening in the seating member when the seating member is employed to secure the stabilization member within the coupling mechanism. The post is sized to engage and facilitate control of the stabilization member as the seating member operatively engages the coupling mechanism. | 06-30-2011 |
