Abstract: An implantable electrode array is provided that includes a carrier that is flexible. At least one control module is coupled to the carrier. A shell encases the control module. At least one electrode is coupled to the carrier and is electrically connected to the control module.

Abstract: A sensor assembly comprises a base plate and a sensor member displaceable relative to the base plate. A spring arrangement operates in first and second stages in response to displacement of the sensor member relative to the base plate. Different resolutions of force and torque measurements are associated with the first and second stages. A light sensitive transducer senses displacement of the sensor member relative to the base plate and generates corresponding output signals. A collimator directs a plurality of light beams onto the light sensitive transducer so that the light beams strike different pixels of the light sensitive transducer to sense displacement of the sensor member relative to the base plate.

Abstract: An electrode array and deployment assembly includes an access cannula comprising an outer structural member formed from material insertable in living tissue and defining a lumen opening at a distal end. An electrode assembly has a frame and at least one electrode disposed on the frame. A deployment cannula has a lumen and a distal end opening. The deployment cannula is disposed in the lumen of the outer structural member and configured to be discharged from the lumen opening and rotated during discharge. The electrode assembly is disposed in the lumen of the deployment cannula for discharge from the distal end opening of the deployment cannula lumen. The electrode assembly is seated in the deployment cannula lumen in a select orientation and is configured to rotate with the deployment cannula so that the rotation of the deployment cannula results in a rotation of the electrode assembly.

Abstract: A method of forming an implantable electrode array that includes one or more packaged control modules. A control module is packaged by mounting the module to a substrate and forming a containment ring around the module. A conformal coating is disposed over the surface of the module to cover the carrier. Within the containment ring, the conformal coating hardens to form a non-porous shell around the control module. The one or more packaged control modules are placed in a flexible array. Electrodes that are mounted to or embedded in the flexible carrier are connected to the one or more control modules.

Abstract: An electrode array assembly with a frame that is foldable or bendable on which electrodes are disposed. The frame includes laterally spaced apart bridges. Tabs extend laterally outwardly from the bridges Electrodes are disposed on the tabs. Beams, also part of the frame, extend between the laterally adjacent bridges. The frame can be folded around the beams so as to cause the laterally spaced bridges to at least partially overlap. When the beams are so bent, the electrode array can be disposed in an access cannula that has a diameter less than the width of the unfolded array.

Abstract: A surgical saw blade is described comprising an elongated blade bar having opposed plates. The blade bar has opposed proximal and distal sections, with the proximal section having a feature for releasably holding the blade bar to a powered surgical sagittal saw. The blade bar plates are spaced apart from each other to form a void space and a primary opening into the void space. A blade head of the surgical saw blade has a base disposed in the blade bar distal section opening that is pivotally mounted in the blade bar distal section void space, and a crown integral with the base that extends through and outside of the blade bar distal section primary opening, the crown being formed with teeth, wherein a thickness of the crown is greater than a thickness of the base to allow the insertion of the blade bar into a kerf cut.

Abstract: A method of forming an implantable electrode array that includes one or more packaged control modules. A control module is packaged by mounting the module to a substrate and forming a containment ring around the module. A conformal coating is disposed over the surface of the module to cover the carrier. Within the containment ring, the conformal coating hardens to form a non-porous shell around the control module. The one or more packaged control modules are placed in a flexible array. Electrodes that are mounted to or embedded in the flexible carrier are connected to the one or more control modules.

Abstract: Plural medical device formed from one or more layers of thin film polymer are assembled from a single polymer coupon. Initially the coupon is bonded to a rigid substrate. Force, heat and a suction are selectively applied to the coupon to ensure that it has a consistent height across its exposed surface. Once the polymer coupon is bonded the components forming the medical device are attached to the coupon and the coupon is shaped to form the individual medical devices. Shaped sections of the coupon are then lifted off the rigid backing. The lifted off sections on which the components were attached are the medical devices.

Abstract: A surgical sagittal saw blade with a static blade bar, an oscillating blade head and at least one drive rod disposed in the blade bar that pivots the blade head. The blade bar is formed with an opening located proximal to the distal end of the blade. A finger connected to a distal end of the drive rod is located above the drive rod so as to be seated in the opening in the blade bar. The finger extends forward of the drive rod over a base section of the blade head. A pin that extends from the finger pivotally connects the blade head to the finger and, by extension, to the drive rod.

Abstract: 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.

Abstract: Plural medical device formed from one or more layers of thin film polymer are assembled from a single polymer coupon. Initially the coupon is bonded to a rigid substrate. Force, heat and a suction are selectively applied to the coupon to ensure that it has a consistent height across its exposed surface. Once the polymer coupon is bonded the components forming the medical device are attached to the coupon and the coupon is shaped to form the individual medical devices. Shaped sections of the coupon are then lifted off the rigid backing. The lifted off sections on which the components were attached are the medical devices.

Abstract: A surgical sagittal saw blade with a static blade bar, an oscillating blade head and at least one drive rod disposed in the blade bar that pivots the blade head. The blade bar is formed with an opening located proximal to the distal end of the blade. A finger connected to a distal end of the drive rod is located above the drive rod so as to be seated in the opening in the blade bar. The finger extends forward of the drive rod over a base section of the blade head.

Abstract: An electrode array assembly with a frame that is foldable or bendable on which electrodes are disposed. The frame includes laterally spaced apart bridges. Tabs extend laterally outwardly from the bridges Electrodes are disposed on the tabs. Beams, also part of the frame, extend between the laterally adjacent bridges. The frame can be folded around the beams so as to cause the laterally spaced bridges to at least partially overlap. When the beams are so bent, the electrode array can be disposed in an access cannula that has a diameter less than the width of the unfolded array.

Abstract: Delivery systems include a delivery instrument and a delivery device removably attached to the delivery instrument. A plurality of actuators are operable to position an opening of the delivery device with respect to the target site. A material supply system supplies the material to the delivery device. A navigation system tracks the target site and the opening as the target site moves during the procedure and as the opening moves during the procedure. A controller controls movement of the opening and/or flow rate of the material to achieve desired delivery of the material at the target site using various methods.

Abstract: A sensor assembly comprises a base plate and a sensor member displaceable relative to the base plate. A spring arrangement operates in first and second stages in response to displacement of the sensor member relative to the base plate. Different resolutions of force and torque measurements are associated with the first and second stages. A light sensitive transducer senses displacement of the sensor member relative to the base plate and generates corresponding output signals. A collimator directs a plurality of light beams onto the light sensitive transducer so that the light beams strike different pixels of the light sensitive transducer to sense displacement of the sensor member relative to the base plate.

Abstract: A sensor assembly comprises a base plate and a sensor member displaceable relative to the base plate. A spring arrangement operates in first and second stages in response to displacement of the sensor member relative to the base plate. Different resolutions of force and torque measurements are associated with the first and second stages. A light sensitive transducer senses displacement of the sensor member relative to the base plate and generates corresponding output signals. A collimator directs a plurality of light beams onto the light sensitive transducer so that the light beams strike different pixels of the light sensitive transducer to sense displacement of the sensor member relative to the base plate.

Abstract: A method of assembling an implantable electrode array from a coupon (108) formed from plastically deformable material. Layers of material are disposed on the coupon to form the electrodes (48) and conductors (62) of one or more electrode arrays. Sections of the coupon on which the electrodes and conductors are removed, along with the electrodes and conductors to form the electrode arrays. The removed sections of the coupon thus function as plastically deformable carriers (74) for the arrays (40).

Abstract: Plural medical device formed from one or more layers of thin film polymer are assembled from a single polymer coupon. Initially the coupon is bonded to a rigid substrate. Force, heat and a suction are selectively applied to the coupon to ensure that it has a consistent height across its exposed surface. Once the polymer coupon is bonded the components forming the medical device are attached to the coupon and the coupon is shaped to form the individual medical devices. Shaped sections of the coupon are then lifted off the rigid backing. The lifted off sections on which the components were attached are the medical devices.

Abstract: An electrode array assembly with a frame that is foldable or bendable on which electrodes are disposed. The frame includes laterally spaced apart bridges. Tabs extend laterally outwardly from the bridges Electrodes are disposed on the tabs. Beams, also part of the frame, extend between the laterally adjacent bridges. The frame can be folded around the beams so as to cause the laterally spaced bridges to at least partially overlap. When the beams are so bent, the electrode array can be disposed in an access cannula that has a diameter less than the width of the unfolded array.

Abstract: 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.