Abstract: A coordinate locating device comprising a support structure removably connectable to a wearable sensor device being worn by an individual. The support structure comprising a planar surface. The device includes a plurality of different fiducial marker components connected to the planar surface. The plurality of different fiducial marker components includes a set of fiducial markers connected to the planar surface in a non-collinear configuration relative to each other to define a three-dimensional (3D) space of pixels in an image. The plurality of different fiducial marker components includes a distance calibration fiducial marker connected to the planar surface and being configured to define a distance calibration length of pixels in the image, the distance calibration fiducial marker being perpendicular to the planar surface and defining a calibration length to locate a point of origin of motion sensing by the wearable sensor device. A system and method are also provided.

Abstract: A surgical sterilization system includes a surgical table and a sterilization member disposable with the surgical table and including a dispenser configured for alignment with a selected surface of a body disposed with the surgical table. The surface and the dispenser are relatively movable. In some embodiments, surgical instruments and methods are disclosed.

Abstract: A surgical drape includes a seal connectable with a selected surface of a body disposed with a surgical table. A draping is connected with the seal and a track of the surgical table. The draping is movable relative to the seal to define a sterile region about the body. Surgical instruments, systems and methods are disclosed.

Abstract: A system for assessing a status of a spinal implant includes a reader device, a wearable body sensor, and a spinal implant. The wearable body sensor includes a first short-range receiver, a first short-range transmitter, and an inertial measurement unit. The wearable body sensor is configured to be positioned over a portion of a spine of a wearer, and measure movement information corresponding to spinal motion of the wearer while the wearer performs one or more movements while wearing the wearable body sensor. The spinal implant includes one or more sensors configured to measure implant information comprising one or more characteristics of a fusion status of the spinal implant, a second short-range receiver, and a second short-range transmitter. The wearable body sensor is configured to communicate movement information to the reader device. The spinal implant is configured to communicate implant information to the reader device via the second transmitter.

Abstract: A load sensing assembly for a spinal implant includes a set screw having a central opening that extends from a first end of the set screw toward a second end of the set screw. The second end of the set screw is configured to engage with an anchoring member. The load sensing assembly includes an antenna, an integrated circuit in communication with the antenna, where the integrated circuit is positioned within the central opening of the set screw, and a strain gauge in connection with the integrated circuit. The strain gauge is located within the central opening of the set screw in proximity to the second end of the set screw.

Abstract: A system for assessing a spinal disorder includes a wearable electronic device having one or more sensors and an assessment system. The wearable electronic device is configured to be positioned on a portion of a lower back of a wearer, and the one or more sensors are configured to obtain patient data associated with the wearer. The system receives patient data from the one or more sensors, where the patient data includes movement data associated with movement of the lower back of the wearer, classifies the movement data into an initial grouping, further classifies the at least a portion of the movement data into one of the plurality of activity categories, generate a score corresponding to the at least a portion of the movement data based on the activity category to which the movement data is classified, and cause the score to be displayed via a client electronic device.

Abstract: A system for assessing a status of a spinal implant includes a reader device, a wearable body sensor, and a spinal implant. The wearable body sensor includes a first short-range receiver, a first short-range transmitter, and an inertial measurement unit. The wearable body sensor is configured to be positioned over a portion of a spine of a wearer, and measure movement information corresponding to spinal motion of the wearer while the wearer performs one or more movements while wearing the wearable body sensor. The spinal implant includes one or more sensors configured to measure implant information comprising one or more characteristics of a fusion status of the spinal implant, a second short-range receiver, and a second short-range transmitter. The wearable body sensor is configured to communicate movement information to the reader device. The spinal implant is configured to communicate implant information to the reader device via the second transmitter.

Abstract: A coordinate locating device comprising a support structure removably connectable to a wearable sensor device being worn by an individual. The support structure comprising a planar surface. The device includes a plurality of different fiducial marker components connected to the planar surface. The plurality of different fiducial marker components includes a set of fiducial markers connected to the planar surface in a non-collinear configuration relative to each other to define a three-dimensional (3D) space of pixels in an image. The plurality of different fiducial marker components includes a distance calibration fiducial marker connected to the planar surface and being configured to define a distance calibration length of pixels in the image, the distance calibration fiducial marker being perpendicular to the planar surface and defining a calibration length to locate a point of origin of motion sensing by the wearable sensor device. A system and method are also provided.

Abstract: A spinal implant system includes bone growth promoting material, and an electrical bone growth stimulator. The electrical bone growth stimulator includes a mesh that surrounds at least a portion of the bone growth material, and the electrical bone growth stimulator is configured to conduct an electric current to stimulate tissue growth adjacent to the electrical bone growth stimulator.

Abstract: A system for assessing a spinal disorder includes a wearable electronic device having one or more sensors and an assessment system. The wearable electronic device is configured to be positioned on a portion of a lower back of a wearer, and the one or more sensors are configured to obtain patient data associated with the wearer. The system receives patient data from the one or more sensors, where the patient data includes movement data associated with movement of the lower back of the wearer, classifies the movement data into an initial grouping, further classifies the at least a portion of the movement data into one of the plurality of activity categories, generate a score corresponding to the at least a portion of the movement data based on the activity category to which the movement data is classified, and cause the score to be displayed via a client electronic device.

Abstract: A load sensing assembly for a spinal implant includes a set screw having a central opening that extends from a first end of the set screw toward a second end of the set screw. The second end of the set screw is configured to engage with an anchoring member. The load sensing assembly includes an antenna, an integrated circuit in communication with the antenna, where the integrated circuit is positioned within the central opening of the set screw, and a strain gauge in connection with the integrated circuit. The strain gauge is located within the central opening of the set screw in proximity to the second end of the set screw.

Abstract: A load sensing assembly for a spinal implant includes a set screw having a central opening that extends from a first end of the set screw toward a second end of the set screw. The second end of the set screw is configured to engage with an anchoring member. The load sensing assembly includes an antenna, an integrated circuit in communication with the antenna, where the integrated circuit is positioned within the central opening of the set screw, and a strain gauge in connection with the integrated circuit. The strain gauge is located within the central opening of the set screw in proximity to the second end of the set screw.

Abstract: A spinal implant system includes bone growth promoting material, and an electrical bone growth stimulator. The electrical bone growth stimulator includes a mesh that surrounds at least a portion of the bone growth material, and the electrical bone growth stimulator is configured to conduct an electric current to stimulate tissue growth adjacent to the electrical bone growth stimulator.

Abstract: A surgical drape includes at least one deployment member connected with draping movable between a non-deployed orientation and a deployed orientation to define a sterile region about a body disposed with a surgical table. The draping includes a first draping and a second draping. A sleeve includes a seal connectable with a selected surface of the body. The sleeve is connectable between the first draping and the second draping to define a sterile passageway including the selected surface. Surgical instruments, systems and methods are disclosed.

Abstract: A surgical sterilization system includes a surgical table and a sterilization member disposable with the surgical table and including a dispenser configured for alignment with a selected surface of a body disposed with the surgical table. The surface and the dispenser are relatively movable. In some embodiments, surgical instruments and methods are disclosed.

Abstract: A surgical drape includes a seal connectable with a selected surface of a body disposed with a surgical table. A draping is connected with the seal and a track of the surgical table. The draping is movable relative to the seal to define a sterile region about the body. Surgical instruments, systems and methods are disclosed.

Abstract: The invention provides a protein comprising hepatitis B core antigen (HBcAg) with a sugar attached to an e1 loop. The protein may comprise a first and a second copy of HBcAg in tandem, wherein one or both copies of HBcAg has a sugar attached to the e1 loop. The first copy may have a sugar attached to the e1 loop and the second copy may comprise a peptide epitope in the e1 loop. The protein may be used to induce an immune response against the sugar and hence act as a vaccine.

Abstract: The invention provides a protein comprising hepatitis B core antigen (HBcAg) with a sequence of the formula XpZqXr in an e1 loop, wherein X is a negatively charged amino acid residue, Z is a positively charged amino acid residue, and p, q N and r are each independently an integer from 1 to 12, and wherein a sugar is attached to a Z residue. The protein may comprise a first and a second copy of HBcAg in tandem, wherein one or both copies of HBcAg has a sugar attached to the e1 loop. The first copy may have a sugar attached to the e1 loop and the second copy may comprise a peptide epitope in the e1 loop. The protein may be used to induce an immune response against the sugar and hence act as a vaccine.

Abstract: The invention provides a protein comprising hepatitis B core antigen (HBcAg) with a sugar attached to an e1 loop. The protein may comprise a first and a second copy of HBcAg in tandem, wherein one or both copies of HBcAg has a sugar attached to the e1 loop. The first copy may have a sugar attached to the e1 loop and the second copy may comprise a peptide epitope in the e1 loop. The protein may be used to induce an immune response against the sugar and hence act as a vaccine.

Abstract: An adjustable paper handler for mounting or installing on a printer accompanying a desktop personal computer, telecopier, telex or the like is disclosed. A u-shaped rigid member having removable substantially flat sides angularly and integrally seated on at least a pair of back supports, which may also be removable from the u-shape member, is used to form the upper portion of the adjustable paper handler. The removable upwardly protruding flat sides of the u-shaped member removably and adjustably accommodates a flat tray having a lip to support a folded and stacked sheet of paper after emerging from the printer. The removable flat bottom side member of the u-shaped member has at least a pair of enclosures configured underneath to form the back supports to accommodate at least two extending removable prongs of a stand bearing upon the adjustable paper handler.