Abstract: An alert system for patient treatment that incorporates patient data to display information in readily identifiable icons for vital organs, and in a useable, real-time, updated fashion that extracts data from the medical history, the current medical management, and the current physiologic monitors to produce warnings and alerts to enable practitioners to be made aware of physiologic systems at risk, (physiologic systems in normal range, borderline normal range, and abnormal range of function). These data are not only presented, but also use real-time queries and calculations to enable practitioners to have the types of data that would traditionally assist them in patient care but only be available by reviewing the medical literature and/or doing retrospective individual calculations while providing patient care.

Abstract: The invention is a component assembly and method of hermetically bonding a ceramic part to a metal part by welding and brazing a component assembly comprised of metal parts, a ceramic part, and an intermediate metal ferrule. The ceramic part is preferably a hollow tube of partially-stabilized zirconia that is brazed to an alignment ferrule that is preferably titanium or a titanium alloy, such as Ti-6Al-4V. On one end the component assembly is brazed to an end cap for closure. On the other end the alignment ferrule is preferably brazed to a ring that is preferably comprised of a noble metal, such as platinum, iridium, or alloys of platinum and iridium. The ring is then laser welded to an eyelet that is preferably comprised of a noble metal.

Abstract: A field decoupling element for use with an implantable line with an elongated line body and a function conductor which extends in the longitudinal direction of the line body and acts to implement a medical function of the line, such that the field decoupling element is in electric contact with the function conductor in the use state connected to the line and reduces coupling of the function conductor to an external field.

Abstract: A cardiac lead adapted for fixation at least partially within a cardiac vessel. The lead includes, in one embodiment, an elongate lead body defining a proximal region and a distal region including a distal end region having at least one electrode and a distal tip. The distal end region is configured such that the electrode and the distal tip can be implanted in the cardiac vessel. Stiffening structures in the distal region of the lead are adapted to stiffen selected portions of the lead for fixation of the electrode within the cardiac vessel. In some embodiments, the stiffening structures include an implantable member adapted to be implanted in a lumen of the lead. In other embodiments, the stiffening structures include a sheath adapted to be deployed over the lead body. In still other embodiments, the stiffening structures are integral to the lead and/or the lead body.

Abstract: A catheter for delivering a medical implant in a patient's vasculature includes an elongate catheter having a distensible and frangible cap mounted across the open distal end thereof. The cap is distendable by pressure within the catheter to provide a bumper tip for guiding the catheter through a patient's vasculature. At the desired site for deploying the medical implant, the cap is ruptured to permit the implant to be advanced through the distal opening. Methods of using the catheter are also disclosed.

Abstract: Central pain syndrome (CPS) is a debilitating condition that affects a large number of patients with a primary lesion or dysfunction in the central nervous system. Despite its discovery over a century ago, the pathophysiology underlying the development and maintenance of CPS is poorly understood. The present invention is drawn to novel methods of treating CPS. In certain aspects, the invention is drawn to the novel discovery of the role of the zona incerta (ZI) in CPS and methods of exploiting this novel discovery for the treatment of CPS.

Abstract: A medical device having a plurality of electrodes sensing cardiac signals, and a microprocessor operably coupled to the plurality of electrodes and configured to determine a cumulative atrioventricular interval (AVI) burden in response to the sensed cardiac signals, and to switch operation of the device between a minimal biventricular pacing (MBVP) mode and a conditional triple chamber pacing (CTCP) mode in response to the determined AVI burden.

Abstract: A system and process employs a gastric band device having an adjustable restriction amount that is adjustable based on at least one first control signal. The system and process also employs at least one of a wireless receiver and location detection electronics configured for providing at least one second signal. In addition, a controller is configured to provide at least one first control signal to the gastric band device based at least in part on at least one second control signal from at least one of the wireless receiver and the location detection electronics. The controller may be configured to provide at least one first control signal for one of increasing restriction or reducing restriction of the gastric band in response to receiving a signal from the location detection electronics representing a predefined geographic location.

Abstract: In a medical system and a method for operating such a system, the system includes an implantable medical device of a patient, a programmer device, and an extracorporeal stress equipment adapted to exert a physiological stress on the patient, for automatically determining settings of a sensor for sensing a physiological parameter of the patient or for automatically determining a pacing setting of the device over a broad range of workloads of the equipment. The ingoing units and/or devices of the medical system, i.e. the implantable medical device of the patient, the programmer device, and the extracorporeal stress equipment, communicate bi-directionally with each other and form a closed loop.

Abstract: Adhesiveless direct bonding between polymeric tubular members assembled with an interference fit using an oxidative cold gas plasma treatment, and implantable medical leads manufactured in part using a cold gas plasma bonding process are disclosed. An illustrative method includes subjecting a number of polymeric tubular members to an oxidative cold gas plasma, creating an oxygen rich layer on each of the tubular members. The treated surfaces of the tubular members are assembled together, forming a direct bond along an overlapping region between the tubular members when in conformal contact with each other.