Abstract: A stent apparatus for use in surgical applications having a hollow tubular section with a proximal end and a distal end. Additionally, the stent apparatus can have at least one anchor point connected to the hollow tubular section. The hollow tubular section may also have a modifiable member, and a magnetic connection node. The stent may also be wrapped in a material that has magnetic properties. The delivery of the stent can include a stent delivery tool for inserting a stent into a vessel.

Abstract: A stent apparatus for use in surgical applications having a hollow tubular section with a proximal end and a distal end. Additionally, the stent apparatus can have at least one anchor point connected to the hollow tubular section. The hollow tubular section may also have a modifiable member, and a magnetic connection node. The stent may also be wrapped in a material that has magnetic properties. The delivery of the stent can include a stent delivery tool for inserting a stent into a vessel.

Abstract: A method, system, or apparatus for stent delivery. Delivering one or more stents with a delivery tool that can include a kinetic transfer of energy to deliver one or more stents. The stents can include a modifiable stent that can change its overall shape and/or dimensions based on pre-configured design parameters. A coil stent that can engage with a vessel that surrounds the modifiable stent forming a dual stent configuration. The coil stent can also include anchor points that allow it to engage with a second vessel securing the first vessel and the second vessel together to aid in the healing process.

Abstract: A stent delivery apparatus and/or system including a hollow tubular body with a proximal opening at a proximal end of the hollow tubular body and a distal opening at a distal end of the hollow tubular body. The hollow tubular body can define the proximal opening and the distal opening. A support rod can be passed through the proximal opening and/or the distal opening. The support rod may have a tip, and tip can be olive shaped. A stent may be supported by and/or surround the support rod. The tip of the support rod may also engage with the stent during delivery.

Abstract: A stent apparatus for use in surgical applications having a hollow tubular section with a proximal end and a distal end. Additionally, the stent apparatus can have at least one anchor point connected to the hollow tubular section. The hollow tubular section may also have a modifiable member, and a magnetic connection node. The stent may also be wrapped in a material that has magnetic properties. The delivery of the stent can include a stent delivery tool for inserting a stent into a vessel.

Abstract: A stent apparatus for use in surgical applications having a hollow tubular section with a proximal end and a distal end. The stent apparatus may also have a plurality of radially extending anchoring points centrally located between the proximal and distal ends. The stent being compressible can also include a sheath that is of a material that can be pulled away to remove it from the stent and deploy the stent and the plurality of radially extending anchoring points.

Abstract: Apparatuses are provided to hold surgical tools during surgery. Such apparatuses may be fixed to a patient's body and include a base member, tool engagement member and one or more intermediary members. Each member may be attached to another by a knob and mating engagement section. Fixation between members may be provided individually for each attachment or may be provided so as to fix more than one attachment at a time.

Abstract: Electrode arrays and systems for inserting same are disclosed. In some embodiments, electrode arrays are provided, the electrode arrays comprising: a passive-bending portion; an active-bending portion coupled to the passive bending portion; a plurality of electrodes located in at least one of the passive-bending portion and the active bending portion; and an actuator that causes the active-bending portion to deflect from the passive-bending portion. In some embodiments, systems for inserting an electrode array in the body are provided, the systems comprising: an insertion module for controllably inserting the electrode array in the body and sensing forces applied to the electrode array; a monitor for providing information to a user; and a controller coupled to the insertion module and the monitor, wherein the controller causes the insertion module to control an amount of force that is applied to the electrode array.

Abstract: Electrode arrays and systems for inserting same are disclosed. In some embodiments, electrode arrays are provided, the electrode arrays comprising: a passive-bending portion; an active-bending portion coupled to the passive bending portion; a plurality of electrodes located in at least one of the passive-bending portion and the active bending portion; and an actuator that causes the active-bending portion to deflect from the passive-bending portion. In some embodiments, systems for inserting an electrode array in the body are provided, the systems comprising: an insertion module for controllably inserting the electrode array in the body and sensing forces applied to the electrode array; a monitor for providing information to a user; and a controller coupled to the insertion module and the monitor, wherein the controller causes the insertion module to control an amount of force that is applied to the electrode array.

Abstract: Systems and Methods are provided for inserting a steerable array into an anatomical structure of the body. The system includes an insertion module for holding a proximal end of the steerable array and a force sensor configured to detect force on the steerable array and to produce force information. The system includes a position sensor configured to detect a position of the insertion module and to produce position information, the position information including a lateral position along an insertion axis and a first approach angle relative to a first reference axis. The system further includes a processor configured to receive the force information from the force sensor and the position information from the position sensor. The processor outputs performance information to a user. The performance information includes an indication of a first differential approach angle relative to an insertion path plan.

Abstract: Electrode arrays and systems for inserting same are disclosed. In some embodiments, electrode arrays are provided, the electrode arrays comprising: a passive-bending portion; an active-bending portion coupled to the passive bending portion; a plurality of electrodes located in at least one of the passive-bending portion and the active bending portion; and an actuator that causes the active-bending portion to deflect from the passive-bending portion. In some embodiments, systems for inserting an electrode array in the body are provided, the systems comprising: an insertion module for controllably inserting the electrode array in the body and sensing forces applied to the electrode array; a monitor for providing information to a user; and a controller coupled to the insertion module and the monitor, wherein the controller causes the insertion module to control an amount of force that is applied to the electrode array.

Abstract: The invention relates to a modular mandibular prosthesis for use after the resection of a patient's mandible. The modular mandibular prosthesis includes a pair of anchor plates and at least one connector member. Each anchor plate has first and second ends. The second end of each anchor plate is adapted to be attached to a portion of the patient's mandible. At least one connector member is disposed between the pair of anchor plates. Each connector member includes first and second ends. The first end of a connector member is connected to the first end of an anchor plate thereby defining a connection. The second end of a connector member is connected to the first end of the other anchor plate.