Abstract: An improved medical imaging system preferably includes an imaging device having a housing, an imaging transducer, and a position marker coupled near the imaging transducer. The system further includes a motor capable of driving the imaging transducer in a generally longitudinal direction relative to the housing. Data obtained from tracking the position marker may be cross-correlated with data obtained from the imaging transducer. In one aspect, the position marker may be a sensor capable of communicating with a medical positioning system.

Abstract: A locking device that can be used to adjust a cord of a small system or a medical device. The locking device includes an outer housing having a first lumen. A cord is disposed within the first lumen where the cord is freely moveable through the first lumen. A locking mechanism is disposed within the first lumen and over the cord. The locking mechanism is configured to lock or unlock the cord relative to the outer housing. An actuator is configured to move the locking mechanism to lock or unlock the cord relative to the outer housing.

Abstract: A guiding catheter system employs a flexible shaft having a preformed bend at a distal end. An ultrasound transducer is mounted proximal to the pre-formed bend. The ultrasound transducer has a field of view directed to a distal tip of the guiding catheter. The guiding catheter includes an open lumen adapted for the introduction of payloads through the catheter system. The guiding catheter system can be used to direct a smaller guiding catheter or guide wire into a destination vessel from a heart chamber. In one application, the guiding catheter system is used to introduce a guiding catheter into the coronary sinus ostium from the right atrium.

Abstract: The system and method for retaining a stent on an expandable stent delivery member involves applying a plastic material that will adhere or fuse to the expandable stent delivery member, and that is insoluble in blood, to one or both of the expandable stent delivery member and the stent, and mounting the stent over the expandable stent delivery member. The plastic material may be dissolved in a solvent to form a dispersion, and applied to the expandable stent delivery member and/or the stent, and is allowed to evaporate to deposit the plastic material. The plastic material also may be applied after the stent is mounted on the expandable stent delivery member, as a coating, or may be applied as knobs or fillets onto the expandable stent delivery member through the openings of the stent.

Abstract: A perfusion catheter with a shaft having a lumen and a plurality of ports through the shaft. A rotatable core with a core groove is disposed within the lumen. The plurality of ports can be exposed by retraction of the core. The core can be rotated within the shaft.

Abstract: A longitudinal position translator includes a probe drive module and a linear translation module. The probe drive module is coupled operatively to an ultrasonic imaging probe assembly having a distally located ultrasound transducer subassembly in such a manner that longitudinal shifting of the transducer subassembly may be effected. The probe drive module is preferably mounted to the linear translation unit so as to be moveable between a condition whereby longitudinal shifting of the transducer subassembly can be conducted either manually or automatically. When in the automatically-operable condition, the probe drive module will be engaged with a motor-driven screw associated with the linear translation module so as to cause the probe drive module to be longitudinally displaced at a constant motor-driven rate.

Abstract: Systems, methods and apparatus for acquiring an image from within a body lumen are provided. Systems embodying features of the invention include an intracorporeal imaging component for acquiring imaging information, an image information recording component, and an image information playback component. Methods for acquiring image information from within a body lumen include steps of acquiring imaging information, storing image information, and playing back imaging information. Imaging information may be played back as acquired, or non-sequentially, or composite images may be formed by combining, filtering, enhancing, or subtracting images and the composite images displayed. Devices embodying features of the invention include optical imaging components such as an optical IGW, an optical imaging recording component, and an optical image playback component. The systems, methods and devices are suitable for use with angiopoplasty, stent delivery, and other intracorporeal clinical procedures.

Abstract: The invention is directed to apparatus, methods and systems including a sheath for use with intracorporeal optical imaging instruments such as imaging guidewires, catheters, or endoscopes. The invention provides a sheath suitable for guiding an enclosed instrument, that is effective to guide the placement within a patient's body and replacement to a distal position after retraction of the imaging instrument, as during an imaging scan. The sheaths may include at least a portion that is translucent to a desired wavelength of radiation. The translucent portion may have an index of refraction similar to the index of refraction of a bodily fluid such as blood plasma, or an artificial fluid suitable for introduction into a body lumen.

Abstract: A longitudinal position translator includes a probe drive module and a linear translation module. The probe drive module is coupled operatively to an ultrasonic imaging probe assembly having a distally located ultrasound transducer subassembly in such a manner that longitudinal shifting of the transducer subassembly may be effected. The probe drive module is preferably mounted to the linear translation unit so as to be moveable between a condition whereby longitudinal shifting of the transducer subassembly can be conducted either manually or automatically. When in the automatically-operable condition, the probe drive module will be engaged with a motor-driven screw associated with the linear translation module so as to cause the probe drive module to be longitudinally displaced at a constant motor-driven rate.

Abstract: An apparatus and method for determining angular position of a sensor within a catheter. The invention is particularly useful for imaging devices delivered to a body lumen by a catheter, as may be the case for IVUS imaging catheters. The apparatus consists of a catheter having an inner core with an imaging sensor disposed within an inner diameter of a sheath of the catheter. The sheath is also provided with an outer diameter which has a center which it does not share with a center of the inner diameter. As a result, the catheter has a wall of non-uniform thickness. The imaging sensor is able to determine its position within its imaging rotation due to the non-uniform thickness. This positioning characteristic helps eliminate any Non-Uniform Rotational Distortion (NURD), which would otherwise result in undesired and unpredictable compressed and expanded images of vasculature sought to be imaged.

Abstract: A longitudinal position translator includes a probe drive module and a linear translation module. The probe drive module is coupled operatively to an ultrasonic imaging probe assembly having a distally located ultrasound transducer subassembly in such a manner that longitudinal shifting of the transducer subassembly may be effected. The probe drive module is preferably mounted to the linear translation unit so as to be moveable between a condition whereby longitudinal shifting of the transducer subassembly can be conducted either manually or automatically. When in the automatically-operable condition, the probe drive module will be engaged with a motor-driven screw associated with the linear translation module so as to cause the probe drive module to be longitudinally displaced at a constant motor-driven rate.

Abstract: A longitudinal position translator includes a probe drive module and a linear translation module. The probe drive module is coupled operatively to an ultrasonic imaging probe assembly having a distally located ultrasound transducer subassembly in such a manner that longitudinal shifting of the transducer subassembly may be effected. The probe drive module is preferably mounted to the linear translation unit so as to be moveable between a condition whereby longitudinal shifting of the transducer subassembly can be conducted either manually or automatically. When in the automatically-operable condition, the probe drive module will be engaged with a motor-driven screw associated with the linear translation module so as to cause the probe drive module to be longitudinally displaced at a constant motor-driven rate.

Abstract: A longitudinal position translator includes a probe drive module and a linear translation module. The probe drive module is coupled operatively to an ultrasonic imaging probe assembly having a distally located ultrasound transducer subassembly in such a manner that longitudinal shifting of the transducer subassembly may be effected. The probe drive module is preferably mounted to the linear translation unit so as to be moveable between a condition whereby longitudinal shifting of the transducer subassembly can be conducted either manually or automatically. When in the automatically-operable condition, the probe drive module will be engaged with a motor-driven screw associated with the linear translation module so as to cause the probe drive module to be longitudinally displaced at a constant motor-driven rate. In this manner, the distally located ultrasound transducer is longitudinally shifted during an ultrasound scan of surrounding intravascular (or other) tissue to thereby allow axially-spaced 360.degree.

Abstract: A longitudinal position translator includes a probe drive module and a linear translation module. The probe drive module is coupled operatively to an ultrasonic imaging probe assembly having a distally located ultrasound transducer subassembly in such a manner that longitudinal shifting of the transducer subassembly may be effected. The probe drive module is preferably mounted to the linear translation unit so as to be moveable between a condition whereby longitudinal shifting of the transducer subassembly can be conducted either manually or automatically. When in the automatically-operable condition, the probe drive module will be engaged with a motor-driven screw associated with the linear translation module so as to cause the probe drive module to be longitudinally displaced at a constant motor-driven rate. In this manner, the distally located ultrasound transducer is longitudinally shifted during an ultrasound scan of surrounding intravascular (or other) tissue to thereby allow axially-spaced 360.degree.

Abstract: A longitudinal position translator includes a probe drive module and a linear translation module. The probe drive module is coupled operatively to an ultrasonic imaging probe assembly having a distally located ultrasound transducer subassembly in such a manner that longitudinal shifting of the transducer subassembly may be effected. The probe drive module is preferably mounted to the linear translation unit so as to be moveable between a condition whereby longitudinal shifting of the transducer subassembly can be conducted either manually or automatically. When in the automatically-operable condition, the probe drive module will be engaged with a motor-driven screw associated with the linear translation module so as to cause the probe drive module to be longitudinally displaced at a constant motor-driven rate. In this manner, the distally located ultrasound transducer is longitudinally shifted during an ultrasound scan of surrounding intravascular (or other) tissue to thereby allow axially-spaced 360.degree.

Abstract: A longitudinal position translator includes a probe drive module and a linear translation module. The probe drive module is coupled operatively to an ultrasonic imaging probe assembly having a distally located ultrasound transducer subassembly in such a manner that longitudinal shifting of the transducer subassembly may be effected. The probe drive module is preferably mounted to the linear translation unit so as to be moveable between a condition whereby longitudinal shifting of the transducer subassembly can be conducted either manually or automatically. When in the automatically-operable condition, the probe drive module will be engaged with a motor-driven screw associated with the linear translation module so as to cause the probe drive module to be longitudinally displaced at a constant motor-driven rate. In this manner, the distally located ultrasound transducer is longitudinally shifted during an ultrasound scan of surrounding intravascular (or other) tissue to thereby allow axially-spaced 360.degree.

Abstract: A longitudinal position translator includes a probe drive module and a linear translation module. The probe drive module is coupled operatively to an ultrasonic imaging probe assembly having a distally located ultrasound transducer subassembly in such a manner that longitudinal shifting of the transducer subassembly may be effected. The probe drive module is preferably mounted to the linear translation unit so as to be moveable between a condition whereby longitudinal shifting of the transducer subassembly can be conducted either manually or automatically. When in the automatically-operable condition, the probe drive module will be engaged with a motor-driven screw associated with the linear translation module so as to cause the probe drive module to be longitudinally displaced at a constant motor-driven rate. In this manner, the distally located ultrasound transducer is longitudinally shifted during an ultrasound scan of surrounding intravascular (or other) tissue to thereby allow axially-spaced 360.degree.

Abstract: A monorail tip catheter includes a low friction guide wire lumen to facilitate removal of the catheter over the guide wire without buckling or kinking the guide wire. The catheter guide wire lumen is provided with a low friction lining with anchoring means, together with additional guide means to facilitate threading the guide wire into the monorail guide wire lumen.

Abstract: The method and system use a catheter that is configured such that a fluid may circulate within it. With the catheter in position, the fluid may circulate down one lumen as far as the RA or RV, over to another lumen and back up and out of the catheter. Nothing is injected into the bloodstream. On this or another catheter, a temperature sensor is positioned in the PA to monitor mixed venous blood temperature. Temperature sensor devices monitor the fluid temperature at the inlet to and outlet from the catheter. The flowrate of fluid circulation is controlled at a known value or monitored. The circulating fluid is preferably cooled to near ice temperature prior to input into the catheter. This fluid temperature and flow rate are preferably held relatively constant.Soon after fluid circulation is initiated a relatively steady state heat transfer system is attained. The circulating fluid cools the blood through the lumen walls.

Abstract: An apparatus for measuring the temperature of a fluid flowing within a body comprising an elongated tube sized to be received within a vein or an artery and having a peripheral wall, at least one lumen extending longitudinally within the tube and an opening in the peripheral wall which extends from the lumen to the exterior of the tube. A thermistor is mounted in the lumen adjacent the opening by a thermistor mounting body. The thermistor mounting body cooperates with the tube to at least partially define a cavity at the opening which opens radially outwardly. The thermistor is partially in the mounting body and projects radially outwardly of the mounting body into the cavity so that the portion of the thermistor which projects into the cavity is in good heat transfer relationship to the fluid flowing within the body. The thermistor has a major axis and a minor axis, and the major axis is generally transverse to the direction of the flowing fluid.