Abstract: A system 10 and method for identifying a caller using associated voice or sound announcements is disclosed. An associated voice announcement or announcements may be in calling party's own voice. The system 10 is capable of playing a different announcement in place of each ring. The different announcements may be played sequentially, randomly, or pseudo-randomly. Alternatively, a single announcement may be played in lieu of a single selected ring or in lieu of all rings after a specified ring.

Abstract: An electrophysiology apparatus is used to measure electrical activity occurring in a heart of a patient and to visualize the electrical activity and/or information related to the electrical activity. A three-dimensional map of the electrical activity and/or the information related to the electrical activity is created.

Abstract: Straight and curved catheters for treatment or diagnoses of tissue, including cardiac tissue, using hydrogel virtual electrodes and hydrogel sensing electrodes are disclosed. Each catheter comprises at least one conductive hydrogel electrode, whether a virtual electrode or a sensing electrode. Hydrogel virtual electrodes may be used to deliver ablative energy or chemotherapeutic agents to tissue. Hydrogel sensing electrodes may be used to map various electrical activity of tissue. The ablation catheters include a variety of hydrogel delivery features to deliver the conductive hydrogel electrodes against or adjacent to tissue to be treated. Each hydrogel delivery feature comprises at least one opening in the distal portion of the catheter and may also include a permeable or semi-permeable membrane. The mapping catheters include conductive hydrogel disks (i.e., conductive hydrogel sensing electrodes) and nonconductive hydrogel disks.

Abstract: A system for connecting a hemostasis valve to a splittable sheath includes an interface formed between a ledge on the proximal end of a cannula portion of the hemostasis valve and an engagement structure aligned with the handles of the splittable sheath. Pulling the handles to split the sheath likewise disengages the ledge from the engagement structure. A snap ring on the cannula portion engages a snap ring in the lumen of a sheath hub formed on the proximal end of the splittable sheath. An O-ring between the cannula portion and the sheath hub provides a fluid-tight seal.

Abstract: Waste-processing and transportation systems and methods are described. An exemplary waste processing and transportation system (10) comprises a receiving area (20) where loose waste (28) is delivered, a baler (22) for processing the loose waste (28) into waste bales (34), and a loading area (26) where the waste bales (34) are loaded onto a transport vehicle (e.g., a barge 36). A loader (32a) may operate in the receiving area (20) to load the loose waste (28) into the baler (22). At least one material handler (42a) may be configured to move the waste bales (34) onto the transport vehicle (36) for transport to a waste transfer facility (14). The waste bales (34) are configured such that the waste bales are unloaded from the transport vehicle (36) at the waste transfer facility (14) and loaded onto other transport vehicles (e.g., railcars 38) without further processing of the waste bales (34).

Abstract: A method for scaling the impedance measured during the course of an electrophysiology study accounts for impedance drifts. By scaling the impedance there is greater assurance that previously recorded positional information can be used to accurately relocate an electrode at a prior visited position. The scale factor may be based upon a mean value across several sensing electrodes. Alternatively, the scale factor may be calculated specifically with respect to an orientation of a dipole pair of driven electrodes.

Abstract: A splittable cannula includes a radiopaque marker placed at or near the distal end of the cannula. The radiopaque marker may be a unitary piece, or may consist of several portions. The cannula may include a sheath or catheter body with a grooved score line running along a portion of the sheath body and a radiopaque marker located at a distal end of the body and abutting the body. The radiopaque marker may be located within the lumen of the sheath, may be embedded in the sheath wall, or may be affixed to the external sheath wall. The radiopaque marker may be scored, notched, grooved, or contain apertures longitudinally. The notches, grooves, apertures, and/or score lines in both the sheath or catheter body and the radiopaque marker serve to provide a weakened tear path. An electrode lead may be coupled with the radiopaque marker.

Abstract: Virtual-electrode catheters and methods for using such virtual-electrode catheters are disclosed. For example, bipolar and multipolar, virtual-electrode catheters having at least one internal electrode and at least one surface electrode, and methods of using these catheters for treatment of cardiac arrhythmias via, for example, radiofrequency (RF) ablation are disclosed. The catheters may comprise a catheter body with an internal lumen extending within it and adapted to flowingly receive a conductive fluid. An exit feature defining a flow path from the internal lumen to the catheter's outer surface may exist through a sidewall of the catheter body. A conductor is mounted within the internal lumen adjacent to the exit feature and is adapted to deliver treatment energy to the tissue via the conductive fluid in the internal lumen. At least one surface electrode is mounted on the outer surface of the catheter body adjacent to the exit feature.

Abstract: An ablation catheter including a shaft supporting one or more partially or completely exposed braided electrodes that may be positioned against a target tissue to ablate the tissue. The shaft may be precurved in a loop-like shape or any other shape to assist in positioning the electrode against a target tissue. The shaft may include a fluid lumen to direct a fluid material, which may be conductive, through one or more apertures or ports. The ports are adapted to direct the fluid past portions of the braided electrode to cool the electrode, flush blood away from the electrode, and to transfer ablation energy to the target tissue. Ablation energy may be delivered directly by the electrode and by way of a conductive fluid contacting the electrode. The shaft may further include a second lumen to provide a housing for a control wire that may be used to control the shape of the shaft.

Abstract: A sanitary cove base including an outer wall and an inner wall that are separated from each other by a plurality of longitudinally-extending web members creating a plurality of hollow channels between the inner wall and outer wall is disclosed. Each of the hollow channels is separated from the next adjacent hollow channel by one of the web members.

Abstract: An ablation catheter has a virtual electrode tip including a fluid manifold structure for operably varying the active area of the virtual electrode. An array of apertures in the distal end of the catheter form the virtual electrode structure. A movable plug slides within the fluid manifold and seals against the interior walls of the fluid manifold. Conductive fluid cannot flow past the plug to fill the fluid manifold on the side of the plug opposite a fluid inlet channel into the fluid manifold. An electrode is positioned within the fluid manifold between the plug and the end wall of the fluid manifold adjacent the channel. By moving the plug within fluid manifold, only those portholes between the plug and the inlet channel will emit energized fluid. The effective length of an active ablation section of the virtual electrode is changed by repositioning the plug within the fluid manifold.

Abstract: High-compression balers and methods for forming bales are disclosed. An exemplary baler 10 comprises a baling chamber 26 configured to receive the material. The baling chamber is formed by a pair of end plates 30a, 30b defining the longitudinal ends of the baling chamber, and a driven endless belt 28 guided by a plurality of rollers 36, 37, 40, 44, 50. The endless belt defines a periphery of the baling chamber. An exemplary method comprises providing an endless belt around at least a driven roller 40 and a tilt roller pair 36, 37, receiving the material in a baling chamber 26 through a throat 24 formed between the driven roller 40 and the tilt roller pair 36, 37, increasing the pressure applied by the endless belt 28 to the material, and securing the material in the baling chamber with netting 60 to form the bales 20.

Abstract: The instant invention is directed toward transseptal puncture needles and transseptal puncture needle assemblies. More specifically, it relates to curved transseptal puncture needles and needle assemblies that facilitate insertion through curved transseptal introducers. Each curved transseptal puncture needle includes a needle tip with a tangential back bevel configuration, a reverse tangential back bevel configuration, or a conical reverse bevel configuration. The axial orientation of the needle tip relative to the needle curvature, whether on the concave side or convex side of the curved transseptal puncture needle, provides additional benefits. The leading edge of the needle tip is located at a distal end of an inner needle tube, and the leading edge of the needle tip may be positioned away from an outer surface of the inner needle tube and adjacent to an inner surface of the inner needle tube.

Abstract: A system for temporally or permanently securing a removable window well cover or grid over a window well at, for example, a construction site is disclosed using adjustable mounts. The window well cover or grid may be pivoted open and closed without having to fully remove the window well cover from the opening of the window well. The adjustable mounts may include a grid sleeve unit slideably attached to the window well cover, and a lock keeper slideably mounted on the grid sleeve unit. In one aspect, the adjustable mounts include theft-deterring features that inhibit unauthorized removal of the window well cover from the window well.

Abstract: A system (10) and method for identifying a caller using associated voice or sound announcements is disclosed. An associated voice announcement or announcements may be in calling party's own voice. The system (10) is capable of playing a different announcement in place of each ring. The different announcements may be played sequentially, randomly, or pseudo-randomly. Alternatively, a single announcement may be played in lieu of a single selected ring or in lieu of all rings after a specified ring.

Abstract: Straight and curved catheters for treatment or diagnoses of tissue, including cardiac tissue, using hydrogel virtual electrodes and hydrogel sensing electrodes are disclosed. Each catheter comprises at least one conductive hydrogel electrode, whether a virtual electrode or a sensing electrode. Hydrogel virtual electrodes may be used to deliver ablative energy or chemotherapeutic agents to tissue. Hydrogel sensing electrodes may be used to map various electrical activity of tissue. The ablation catheters include a variety of hydrogel delivery features to deliver the conductive hydrogel electrodes against or adjacent to tissue to be treated. Each hydrogel delivery feature comprises at least one opening in the distal portion of the catheter and may also include a permeable or semi-permeable membrane. The mapping catheters include conductive hydrogel disks (i.e., conductive hydrogel sensing electrodes) and nonconductive hydrogel disks.

Abstract: A lid holding device is composed of an elongate sliding member held within a mounting base. The sliding member travels linearly with respect to the mounting base. The sliding member has a retainer clip. The mounting base has a pair of retainer clips connected to wing sections angling outward from the mounting base. The retainer clips engage the rim of a lid to hold it in place. The sliding member can travel to increase the distance between the retainer clips, thus accommodating a wide range of lid diameters.

Abstract: Multipolar, multi-lumen, virtual-electrode catheters having at least one surface electrode, and methods for treatment (e.g., treatment of cardiac arrhythmias) with such catheters are disclosed. The catheters have at least two internal lumens, and at least one internal, flexible electrode rides in each internal lumen. The flexible electrodes carry treatment energy (e.g., radiofrequency energy). The energy exits the catheters via at least one exit feature (e.g., slots, portholes, or micro-pores). The methods for treatment include operating the catheters in different modes depending upon location and type of treatment to be performed. The treatment energy delivered by one of the internal, flexible electrodes may be directed to the other internal, flexible electrode; or the energy delivered by one or both of the internal, flexible electrodes may be directed to one or more surface electrodes. The delivered energy establishes at least one electric field, and possibly one or more lesions, in the tissue.

Abstract: A catheter used for diagnosing and treating, for example, atrial fibrillation. The catheter includes a catheter shaft that has a proximal portion and a distal portion. The distal portion is adapted to be inserted into a body cavity having tissue to be diagnosed or treated and is disposed remotely from the proximal portion. The distal portion, which may be curved or straight, comprises an outer peripheral wall having an active region, and the distal portion has a cross-sectional configuration along the active region. The cross-sectional configuration is adapted to bias the active region against the tissue to be diagnosed or treated.

Abstract: Atrial arrhythmias, a major contributor to cardiovascular morbidity, are believed to be influenced by autonomic nervous system tone. The main purpose of this invention was to highlight new findings that have emerged in the study of effects of autonomic nervous system tone on atrial arrhythmias, and its interaction with class III antiarrhythmic drug effects. This invention evaluates the significance of sympathetic and parasympathetic activation by determining the effects of autonomic nervous system using a vagal and stellar ganglions stimulation, and by using autonomic nervous system neurotransmitters infusion (norepinephrine, acetylcholine).