Abstract: A torque device for gripping and manipulating a guidewire for advancing the guidewire into a patient's vascular system. The torque device is configured for single-handed use and can be opened for repositioning the torque device relative to the guidewire and closed for gripping the guidewire to prevent axial and rotational movement relative to the guidewire. The torque device grips the guidewire at multiple spaced apart locations on the guidewire.

Abstract: A torque device for gripping and manipulating a guidewire for advancing the guidewire into a patient's vascular system. The torque device is configured for single-handed use and can be opened for repositioning the torque device relative to the guidewire and closed for gripping the guidewire to prevent axial and rotational movement relative to the guidewire. The torque device grips the guidewire at multiple spaced apart locations on the guidewire.

Abstract: A torque device for gripping and manipulating a guidewire for advancing the guidewire into a patient's vascular system. The torque device is configured for single-handed use and can be opened for repositioning the torque device relative to the guidewire and closed for gripping the guidewire to prevent axial and rotational movement relative to the guidewire. The torque device grips the guidewire at multiple spaced apart locations on the guidewire.

Abstract: A tendon deflection system including a shaft, a plurality of tendons movably disposed within the shaft, and a force-balancing element coupled to the tendons. In a first section, the plurality of tendons are arranged around the shaft at equal angles to each other and at an equal distance from the center of the shaft. The tendons operating in concert with the force-balancing element minimize the moment expressed in the first section. The second section is deflectable and includes at least one tendon, extending from the plurality of tendons in the first section, which is arranged along one side of the shaft such that the bending moment expressed in the second section is greater than the first section.

Abstract: A deflectable catheter assembly having a compression compensation mechanism is disclosed. The deflectable catheter assembly comprises a catheter shaft having a catheter proximal section and a catheter distal section. A therapeutic tool is disposed within the catheter shaft. A compression compensation mechanism is coupled to the therapeutic tool to compensate for a length change in the catheter shaft such as when the catheter shaft is deflected. The compression compensation mechanism includes a spring moveably disposed between a distal stop and a proximal stop that are attached to the therapeutic tool. A deployment slide is moveably disposed proximate to the spring and between the distal stop and the proximal stop. A catheter handle configured to house the compression compensation mechanism is coupled to the catheter shaft.

Abstract: A locking component delivers and locks an attached medical device along a pre-deployed guide wire. The locking component can lock onto a flexible body member disposed on the guide wire, such as the distal helical tip coil of a conventional guide or a specially-designed guide wire. The locking component includes a tapered opening which temporarily compresses a portion of the helical coil and a locking recess in communication with the tapered opening for receiving the compressed coil. Compressed coils which enter the locking recess will spring back to their original shape (diameter) within the locking recess, locking the component to the coil.

Abstract: A tendon deflection system including a shaft, a plurality of tendons movably disposed within the shaft, and a force-balancing element coupled to the tendons. In a first section, the plurality of tendons are arranged around the shaft at equal angles to each other and at an equal distance from the center of the shaft. The tendons operating in concert with the force-balancing element minimize the moment expressed in the first section. The second section is deflectable and includes at least one tendon, extending from the plurality of tendons in the first section, which is arranged along one side of the shaft such that the bending moment expressed in the second section is greater than the first section.

Abstract: A diversion catheter for use during ablation procedures includes a distal occlusion device such as a diversion balloon. The diversion balloon blocks blood flowing through a cardiac vein. The diversion catheter employs ports proximal and distal to the diversion balloon. The proximal and distal ports are in fluid communication so that blood flow through the cardiac vein is diverted through the distal and proximal ports and away from a cardiac surface intended for ablation.

Abstract: A diversion catheter for use during ablation procedures includes a distal occlusion device such as a diversion balloon. The diversion balloon blocks blood flowing through a cardiac vein. The diversion catheter employs ports proximal and distal to the diversion balloon. The proximal and distal ports are in fluid communication so that blood flow through the cardiac vein is diverted through the distal and proximal ports and away from a cardiac surface intended for ablation.

Abstract: A tendon deflection system including a shaft, a plurality of tendons movably disposed within the shaft, and a force-balancing element coupled to the tendons. In a first section, the plurality of tendons are arranged around the shaft at equal angles to each other and at an equal distance from the center of the shaft. The tendons operating in concert with the force-balancing element minimize the moment expressed in the first section. The second section is deflectable and includes at least one tendon, extending from the plurality of tendons in the first section, which is arranged along one side of the shaft such that the bending moment expressed in the second section is greater than the first section.