Abstract: A thermography system that can be used in the vasculature of a patient, or elsewhere, with a catheter and an instrument configured to graphically display thermography data from the catheter. Sensors on the catheter may measure blood temperature, wall temperature of a body vessel or both as well as differences between blood temperature and wall temperature. Temperature differences from different locations of a patient's body vessel can be measured contemporaneously, compared and displayed on the graphical display which may be a graphic user interface in some embodiments.

Abstract: An end-side anastomosis system including a fitting comprising: a base for attachment to a graft, said base be configured to form a seal with an opening in a host vessel wall; a leading petal having a cross-section with a radius of curvature approximating a radius of curvature of the host vessel, said leading petal being configured to dilate the host vessel wall opening while advancing said fitting through the opening; and a rear petal, said rear petal being deflectable to be advanced through the host vessel opening.

Abstract: An end-side anastomosis system including a fitting including a base for attachment to a graft, the base be configured to form a seal with an opening in a host vessel wall a leading petal having a cross-section with a radius of curvature approximating a radius of curvature of the host vessel, the leading petal being configured to dilate the host vessel wall opening while advancing the fitting through the opening and a rear petal, the rear petal being deflectable to be advanced through the host vessel opening.

Abstract: An end-side anastomosis system including a fitting comprising: a base for attachment to a graft, said base be configured to form a seal with an opening in a host vessel wall; a leading petal having a cross-section with a radius of curvature approximating a radius of curvature of the host vessel, said leading petal being configured to dilate the host vessel wall opening while advancing said fitting through the opening; and a rear petal, said rear petal being deflectable to be advanced through the host vessel opening.

Abstract: An improved catheter capable of detecting metabolic activity within vascular anomalies is disclosed. The apparatus of the present invention includes a catheter having a distal end and a proximal end, an expandable body located at the distal end of the catheter, the expandable body comprising one or more expandable body arms, and at least one sensor integrally formed on each of the expandable body arms. The at least one sensor may include a variety of sensors, including ultrasonic sensors, flow sensors, thermal sensors, thermocouples, blood temperature sensors, electrical contact sensors, conductivity sensors, and infrared sensors.

Abstract: Sutureless anastomosis system deployment concepts are disclosed herein. Specifically, anastomosis strain relief devices are disclosed which are disposed, at least partially, over an anastomosis bypass graft just proximal to an attachment site between a host vessel wall and the fitting. The strain relief devices provide additional support to the graft while preventing kinking of the graft, especially when it emanates at acute angles from the anastomosis site. Furthermore, the strain relief provides additional support to the graft during manipulations involved in inserting and attaching ends of the graft. The devices can have a variety of configurations, e.g., helical, zig-zag, etc., depending upon the desired functionality. The strain relief may also be either incorporated into the graft or placed exterior to the graft and bonded. Moreover, integrated fittings or collars may be incorporated into the strain relief to expand its functions.

Abstract: The present invention relates, generally, to thermography catheters and, more particularly, to thermography catheters which use flex circuit technology to create the connections and thermocouples used to detect hot spots (areas with high metabolic activity) of the atherosclerotic plaque, vascular lesions, and aneurysms in human vessels.

Abstract: An end-side anastomosis system including a fitting comprising: a base for attachment to a graft, said base be configured to form a seal with an opening in a host vessel wall; a leading petal having a cross-section with a radius of curvature approximating a radius of curvature of the host vessel, said leading petal being configured to dilate the host vessel wall opening while advancing said fitting through the opening; and a rear petal, said rear petal being deflectable to be advanced through the host vessel opening.

Abstract: Interventional tools are described that are suitable for measuring the temperature of or temperature variations in a vessel wall in the body of a patient and thereafter treating vulnerable plaque that is identified during the thermal mapping. The described interventional tools all include one or more thermal sensors that are suitable for detecting an indication of the temperature of or temperature variations in walls of a vessel the tool is inserted into. These sensors may be used to facilitate the detection of vulnerable plaque within the vessel. In one aspect, the interventional tool includes a stent delivery device that is suitable for delivering a stent to a selected segment of a vessel the interventional tool is inserted into. In an alternative aspect the interventional tool includes a deployment lumen. The deployment lumen is sized suitably for receiving a stent delivery catheter therethrough.

Abstract: A variety of improved thermal mapping catheters are disclosed which are capable of sensing and mapping thermal variations within body vessels. In embodiments directed at vascular applications, the catheters are capable of detecting temperature variations in atherosclerotic plaque, on the atherosclerotic plaque surface, and on the arterial wall of aneurysms and other vascular lesions of the human vasculature. In one aspect of the invention, a combined thermal mapping and drug delivery catheter is provided. In this embodiment a plurality of thermal sensors are combined with at least one infusion port suitable for delivering therapeutic agents into a vessel. In some embodiments, at least some of the infusion ports are located between adjacent thermal sensors. The described catheters may be used in a variety of new applications and medical diagnostic and treatment techniques.

Abstract: An end-side anastomosis system including a fitting comprising: a base for attachment to a graft, said base be configured to form a seal with an opening in a host vessel wall; a leading petal having a cross-section with a radius of curvature approximating a radius of curvature of the host vessel, said leading petal being configured to dilate the host vessel wall opening while advancing said fitting through the opening; and a rear petal, said rear petal being deflectable to be advanced through the host vessel opening.

Abstract: A stent crimping apparatus for crimping a deformable radioactive stent onto a deployment device which includes a first jaw member defining a shielded first compression surface, and an opposed, second jaw member defining a shielded second compression surface oriented opposite the first compression surface. The first and second compression surfaces are adapted to collectively form an elongated guide bore formed for axial receipt of the deformable stent and the deployment device therein. To protect against exposure to the radioactive stent, a shield assembly is provided defining an opening into a bore therein which is formed and dimensioned for longitudinal receipt of the deformable stent in an uncrimped condition. A shield assembly defines an opening into the bore, and cooperates with the first and second jaw members to substantially prevent radioactive particles emitted by the radioactive stent from passing out of the crimping apparatus.

Abstract: A variety of improved thermal mapping catheters are disclosed which are capable of sensing and mapping thermal variations within body vessels. In embodiments directed at vascular applications, the catheters are capable of detecting temperature variations in atherosclerotic plaque, on the atherosclerotic plaque surface, and on the arterial wall of aneurysms and other vascular lesions of the human vasculature. In one aspect of the invention, a combined thermal mapping and drug delivery catheter is provided. In this embodiment a plurality of thermal sensors are combined with at least one infusion port suitable for delivering therapeutic agents into a vessel. In some embodiments, at least some of the infusion ports are located between adjacent thermal sensors. The described catheters may be used in a variety of new applications and medical diagnostic and treatment techniques.

Abstract: A scanning system for a film recorder utilizes multiple digital-to-analog converters (DACs) to produce a linear output for a vertical deflection circuit which drives a vertical yoke circuit for controlling a CRT beam in a film recorder. The system contains a coarse DAC, a fine DAC, and a delta DAC which provides a signal representing the analog change from line to line. A summing circuit, a difference amplifier, a A/D converter, and a calibration sequence controlled by a DSP create a table to effectively increase the resolution and linearity of the deflection output signal.

Abstract: A radiation shield assembly (30) for a radioactive stent (11) mounted onto a deployment portion (20) of a delivery apparatus (12) including a relatively thin, elongated tube member (69) having a wall (70) defining a receiving passage (72) formed and dimensioned for axial receipt of the stent mounted onto the deployment portion therein to substantially prevent direct contact with the stent (11). A removal structure (71) cooperating with the wall (70) of the tube member (69) for longitudinal severing thereof to enable selective removal of the tube member from the delivery apparatus (12) for deployment use thereof.

Abstract: A radiation shield assembly (30) for a radioactive stent (11) which includes a first shield member (31) having a first mating surface (32) and a second shield member (33) having an opposed second mating surface (35). When the two shield members are removably coupled to one another, the first mating surface (32) cooperates with the opposing second mating surface (35) to substantially radially enclose the stent (11) therebetween, and substantially prevent the direct passage of radioisotopes emitted from the stent radially out of the shield assembly (30).

Abstract: A stent loading apparatus for loading a self-expanding radioactive stent into a bore of a deployment device in a compressed condition including a storage device defining an elongated first passage formed and dimensioned for sliding receipt of the stent therein. The first passage extends through the storage device and terminates at a stent transfer opening of a proximal coupling end thereof. A radiation shield defines an elongated second passage which terminates at a distal opening of a distal coupling end thereof. The distal coupling end of the radiation shield and the proximal coupling end of the storage device cooperate to align the distal opening of the shield in receiving communication with the stent transfer opening of the storage device. The second passage of the shield is formed and dimensioned for receipt of the deployment device therein in a manner positioning a mouth of the deployment device bore substantially adjacent the stent transfer opening of the storage device.

Abstract: A stent loading apparatus for loading a deformable stent onto a deployment device. The stent loading apparatus includes an elastic member defining a passage therein formed for longitudinal receipt of the deformable stent in an uncrimped condition. A first member includes a first compression region; and a second member includes a second compression region positioned substantially adjacent the first compression region at a first position. At this first position, the elastic member and the deformable stent in the uncrimped condition may be received between the opposed first and second compression regions. The first compression region and the second compression region are further configured to provide rolling support and compression of the elastic member during relative movement between the first position and a second position for rolling radial compression of the deformable stent onto the deployment device.

Abstract: A film cassette may be used for housing film units of the self-developing type, each having a photosensitive area, a pod of processing fluid, and a leading edge. The film cassette may be used in a film assemblage, camera back, or imaging device having either a straight or a curvilinear film path configuration. One such film cassette includes: a chamber defined by forward and rear walls, a pair of side walls, and leading and trailing end walls; means for resiliently supporting the film units within the chamber; first spread control means for use when the imaging device has a straight film path configuration, the first spread control means including at least one projection formed on an interior surface of the forward wall; and second spread control means for use when the imaging device has a curvilinear film path configuration, the second spread control means including at least one projection formed on a bottom surface of the rear wall.

Abstract: A variety of improved antenna arrangements for ablation catheters and methods for constructing catheter with these antenna arrangements are described. In various apparatus aspects of the invention, the catheter includes an elongated flexible tubular member adapted to be inserted into a vessel in the body of a patient. A transmission line suitable for transmitting electromagnetic energy is received within the tubular member. An antenna is coupled to the transmission line for generating an electric field sufficiently strong to cause tissue ablation. In one embodiment, the antenna takes the form of an antenna coil that is oriented such that its longitudinal axis extends substantially perpendicular to the longitudinal axis of the flexible tubular member. In another embodiment, a plurality of such laterally oriented antenna coils are provided at longitudinally spaced locations relative to the catheter axis. In other embodiments, the antenna coil is spirally wound.