Patent application number | Description | Published |
20090112210 | Femoral Neck Support Structure, System, and Method of Use - A device, system, and method for reinforcing a femoral neck bone comprises a support structure deployable from a first substantially collapsed position to a second substantially expanded position within a cancellous bone area of the femoral neck. The support structure compresses at least a portion of the cancellous bone upon expansion. A cavity created by the expansion is adapted to receive a filler material such as, but not limited to, bone cement. Upon final positioning and curing, the support structure and any filler material is adapted to interact with the healthy cortical bone and/or compressed cancellous bone and receive at least a portion of a load placed on the femoral neck bone. | 04-30-2009 |
20090112214 | Device and Method for Hip Distention and Access - A device for accessing and distending a joint comprises a distraction structure having a generally tapered distal portion adapted to penetrate a tissue region and create an access space within a joint. The distraction structure also includes a lumen extending from a proximal surface to a distal portion. The device further includes a distention structure deployable through the lumen and adapted to exert a force between a first joint surface and a second joint surface and create a working space. The distention structure may, in some embodiments, include an elongate member having a proximal end, a distal end, and a lumen extending along at least a portion of the length of the elongate member, a first expandable region deployable from a first substantially collapsed position to a second substantially expanded position, the first expandable region adapted to exert a force between the first joint surface from the second joint surface. | 04-30-2009 |
20110009705 | INTERNAL TISSUE RETRACTION DEVICE, METHOD OF USE, AND SYSTEM - A device for retracting internal tissue comprises a base section and an elongated section adapted to fit within a surgical portal coupled to and extending away from the base section. The elongated section comprises an elongated section tip, a top section, an outer bottom shell, an inner cavity, and an extendable gripping mechanism. The extendable gripping mechanism is adapted to hold and release internal tissue and comprises a telescoping section and a biasing device. The biasing device in one embodiment is substantially located in the cavity and comprises a proximal end operatively coupled to at least one of the base section, top section, and the outer shell. The biasing device also comprises a distal end operatively coupled to the telescoping section. | 01-13-2011 |
20120237490 | SYSTEMS AND METHODS FOR AUTOLOGOUS BIOLOGICAL THERAPEUTICS - This disclosure describes systems, methods, and apparatus for forming concentrates of platelet-rich plasma or bone marrow cells having user-defined concentrations, concentration ranges, and/or volumes. Whole blood or bone marrow samples can be passed through one or two separation operations in which platelets or bone marrow cells are separated from red blood cells and concentrated in a plasma. During this separation and concentrating, a total number of platelets or bone marrow cells or a concentration of either is determined and then used to ascertain what volumes and concentrations need be mixed in order to produce a platelet-rich plasma concentrate or a bone marrow-rich plasma concentrate having a target concentration and/or volume. | 09-20-2012 |
20130204168 | CONTINUOUS PASSIVE MOTION DEVICE - The present invention is directed toward a device for circumduction of a limb having a base, a vertical support operably coupled to and extending away from the base, a rotary member operably connected to the vertical support, a limb support member operably connected to the rotary member, and a motor drivingly engaged with the rotary member. The vertical support may be a rigid plate member, bracket, or frame. The bracket and/or frame may include at least one vertical member and at least one horizontal member. The rotary member is operably connected to the vertical support such that rotary member is free to rotate. Limb support member receives and supports the limb to be treated and is operably coupled to rotary member at a radial distance from a center of rotation thereby resulting in a circular motion of a limb when the motor is operated. | 08-08-2013 |
20130289737 | Femoral Neck Support Structure, System, and Method of Use - A method of reinforcing a femoral neck comprises creating a bore proximate to at least one of a Ward's triangle and a greater trochanter, creating at least one cavity in a cancellous bone region of the femoral neck, inserting a substantially collapsed support structure through the bore and into the at least one cavity, expanding the support structure, and allowing at least a portion of the load from the femoral neck bone to be transferred to the support structure. The support structure compresses at least a portion of the cancellous bone upon expansion. A cavity created by the expansion is adapted to receive a filler material such as, but not limited to, bone cement. | 10-31-2013 |
20150157372 | Femoral Neck Support Structure, System, and Method of Use - A method of reinforcing a femoral neck comprises creating a bore proximate to at least one of a Ward's triangle and a greater trochanter, creating at least one cavity in a cancellous bone region of the femoral neck, inserting a substantially collapsed support structure through the bore and into the at least one cavity, expanding the support structure, and allowing at least a portion of the load from the femoral neck bone to be transferred to the support structure. The support structure compresses at least a portion of the cancellous bone upon expansion. A cavity created by the expansion is adapted to receive a filler material such as, but not limited to, bone cement. | 06-11-2015 |
20150376564 | SYSTEMS AND METHODS FOR AUTOLOGOUS BIOLOGICAL THERAPEUTICS - An autologous cell concentrating system and method are disclosed. The system has a blood separation component, a first vessel, a second vessel, a first valve, a second valve, and a concentration and flow logic and control component. The concentration and flow logic and control component is configured to: determine a first volume of a target cell-poor fraction in the first vessel to mix with a target cell-rich fraction in the second vessel in order to form a target cell-rich concentrate having a concentration of target cells that is within a target concentration range; and control the second valve to transfer the first volume of the target cell-rich fraction from the first vessel to the second vessel to form the target cell-rich concentrate. The target concentration range is between 1.0 and 1.5×106 target cells/μL. | 12-31-2015 |