Abstract: A molten droplet printing system and method can provide molten droplets without surface contact at the time of generation.

Abstract: The present disclosure provides a spinal cord stimulation (SCS) system. The system includes at least one SCS lead including a lead body, at least one distal electrode located at a distal end of the lead body, the at least one distal electrode configured to apply electrical stimulation to a stimulation target of a patient, and a pain reduction assembly coupled to the lead body and configured to reduce post-operation pain at an incision site associated with implantation of the at least one SCS lead. The system further includes a pulse generator coupled to the at least one SCS lead and configured to control electrical stimulation delivered to the patient via the at least one SCS lead.

Abstract: Computer implemented methods and systems are provided for automatically determining capture thresholds for an implantable medical device equipped for cardiac stimulus pacing using a multi-pole left ventricular (LV) lead. The methods and systems measures a base capture threshold for a base pacing vector utilizing stimulation pulses varied over at least a portion of an outer test range. The base pacing vector is defined by a first LV electrode provided on the LV lead and a second electrode located remote from an LV chamber. The methods and systems designate a secondary pacing vector that includes the first LV electrode and a neighbor LV electrode provided on the LV lead. The methods and systems further define an inner test range having secondary limits based on the base capture threshold, wherein at least one of the limits for the inner test range differs from a corresponding limit for the outer test range.

Abstract: The present disclosure provides a spinal cord stimulation (SCS) system. The system includes at least one SCS lead including a lead body, at least one distal electrode located at a distal end of the lead body, the at least one distal electrode configured to apply electrical stimulation to a stimulation target of a patient, and a pain reduction assembly coupled to the lead body and configured to reduce post-operation pain at an incision site associated with implantation of the at least one SCS lead. The system further includes a pulse generator coupled to the at least one SCS lead and configured to control electrical stimulation delivered to the patient via the at least one SCS lead.

Abstract: Methods, devices and systems are provided for selecting one or more left ventricular multi-electrode pacing site(s). The methods, devices and systems measure arrival times of LV activation events for corresponding LV sensing sites, where the arrival times each correspond to a conduction time from an intrinsic ventricular event or delivery of a pacing pulse until sensing of the corresponding LV activation event. Site-to-site (STS) relative delays are calculated as differences between the arrival times associated with adjacent LV sensing sites. The STS relative delays represent STS arrival delays for corresponding combinations of the adjacent LV sensing sites. An LV electrode combination is identified that is associated with at least one of the STS relative delays that satisfy selection criteria, where the LV electrode combination corresponds to a target tissue region exhibiting a select degree of non-uniformity.

Abstract: Methods, devices and systems are provided for selecting one or more left ventricular multi-electrode pacing site(s). The methods, devices and systems measure arrival times of LV activation events for corresponding LV sensing sites, where the arrival times each correspond to a conduction time from an intrinsic ventricular event or delivery of a pacing pulse until sensing of the corresponding LV activation event. Site-to-site (STS) relative delays are calculated as differences between the arrival times associated with adjacent LV sensing sites. The STS relative delays represent STS arrival delays for corresponding combinations of the adjacent LV sensing sites. An LV electrode combination is identified that is associated with at least one of the STS relative delays that satisfy selection criteria, where the LV electrode combination corresponds to a target tissue region exhibiting a select degree of non-uniformity.