1
Paul M Meadows, Carla Mann Woods, David K Peterson, Joey Chen, David H Payne: Rechargeable spinal cord stimulator system. Advanced Bionics Corporation, Bryant R Gold, Philip H Lee, May 17, 2005: US06895280 (580 worldwide citation)

A spinal cord stimulation (SCS) system includes multiple electrodes, multiple, independently programmable, stimulation channels within an implantable pulse generator (IPG) which channels can provide concurrent, but unique stimulation fields, permitting virtual electrodes to be realized. The SCS syst ...


2
Paul M Meadows, Carla M Woods, David K Peterson, Joey Chen, David H Payne: Rechargeable spinal cord stimulator system. Boston Scientific Neuromodulation Corporation, Vista IP Law Group, February 24, 2009: US07496404 (93 worldwide citation)

A spinal cord stimulation (SCS) system includes multiple electrodes, multiple, independently programmable, stimulation channels within an implantable pulse generator (IPG) which channels can provide concurrent, but unique stimulation fields, permitting virtual electrodes to be realized. The SCS syst ...


3
David H Payne, Matthew I Haller: Orientation-independent implantable pulse generator. Boston Scientific Neuromodulation Corporation, Wong Cabello Lutsch Rutherford & Brucculeri, July 12, 2011: US07979126 (75 worldwide citation)

An improved structure for an implantable medical device, such as an implantable pulse generator, is disclosed. The improved device includes a charging coil for wirelessly receiving energy via induction from an external charger. The charging coil in the device is located substantially equidistantly f ...


4
Paul M Meadows, Carla Mann Woods, David K Peterson, Joey Chen, David H Payne: Rechargeable spinal cord stimulation system. Boston Scientific Neuromodulation Corporation, Vista IP Law Group, August 3, 2010: US07769462 (41 worldwide citation)

A spinal cord stimulation (SCS) system includes multiple electrodes, multiple, independently programmable, stimulation channels within an implantable pulse generator (IPG) which channels can provide concurrent, but unique stimulation fields, permitting virtual electrodes to be realized. The SCS syst ...


5
Paul M Meadows, James A McAllister, David H Payne, Douglas M Edson: Non-polarized tantalum capacitor and capacitor array. AVX Corporation, Advanced Bionics Corporation, Dority & Manning P A, August 26, 2003: US06611421 (12 worldwide citation)

Non-polar tantalum capacitors and non-polar tantalum capacitor arrays with compact designs are provided. The reduced volume and footprint of the capacitors and arrays in turn reduces the amount of space required in any device in which they are used. In addition, the cost of materials is reduced, and ...


6
Paul M Meadows, Carla Mann Woods, David K Peterson, Joey Chen, David H Payne: Rechargeable spinal cord stimulator system. Advanced Bionics Corporation, June 26, 2003: US20030120323-A1

A spinal cord stimulation (SCS) system includes multiple electrodes, multiple, independently programmable, stimulation channels within an implantable pulse generator (IPG) which channels can provide concurrent, but unique stimulation fields, permitting virtual electrodes to be realized. The SCS syst ...


7
Paul M Meadows, James A McAllister, David H Payne, Douglas M Edson: Non-polarized tantalum capacitor and capacitor array. AVX Corporation, Dority & Manning, Attorneys At Law Pa, April 25, 2002: US20020048139-A1

Non-polar tantalum capacitors and non-polar tantalum capacitor arrays with compact designs are provided. The reduced volume and footprint of the capacitors and arrays in turn reduces the amount of space required in any device in which they are used. In addition, the cost of materials is reduced, and ...


8
Paul M Meadows, Carla Mann Woods, David K Peterson, Joey Chen, David H Payne: Rechargeable spinal cord stimulator system. Advanced Bionics Corporation, May 19, 2005: US20050107841-A1

A spinal cord stimulation (SCS) system includes multiple electrodes, multiple, independently programmable, stimulation channels within an implantable pulse generator (IPG) which channels can provide concurrent, but unique stimulation fields, permitting virtual electrodes to be realized. The SCS syst ...


9
Paul M Meadows, David H Payne, Kerry Bradley: Axial to planar lead conversion device and method. Advanced Bionics Corporation, April 7, 2005: US20050075707-A1

An adapter is used to convert a stand-alone, percutaneous (axial) lead to a planar lead. The adapter has at least one channel for accepting at least one percutaneous lead within the at least one channel and capturing the lead, thereby transforming the stand-alone, percutaneous lead into a functional ...


10
David H Payne, Matthew I Haller: Orientation-Independent Implantable Pulse Generator. Advanced Bionics Corporation, Wong Cabello Lutsch Rutherfor & Brucculer, April 24, 2008: US20080097554-A1

An improved structure for an implantable medical device, such as an implantable pulse generator, is disclosed. The improved device includes a charging coil for wirelessly receiving energy via induction from an external charger. The charging coil in the device is located substantially equidistantly f ...