| Patent application number | Description | Published |
|---|
| 20080269737 | Fluid sensor for ablation therapy - The disclosure describes a method and a system that may be used to provide feedback regarding the flow of fluid during ablation therapy. The system includes a generator that generates energy to ablate at least a portion of a target tissue, a needle that delivers the energy to the target tissue, a return electrode that receives energy dispersed from the needle, a catheter that houses at least a portion of the needle, a pump that delivers a fluid to the target tissue via the catheter, a sensor that detects a fluid parameter indicative of at least one of flow or pressure of the fluid, and a processor that analyzes the fluid parameter detected by the sensor. The sensor may be located between the pump and the target tissue. The fluid parameter detected by the system may be pressure or flow. In particular, the system may be used to treat benign prostatic hypertrophy. | 10-30-2008 |
| 20080269862 | Extension and retraction mechanism for a hand-held device - The disclosure describes a hand-held device that utilizes a mechanical lever system to operate the device with a single hand. The mechanical lever system is coupled to a sliding element within the housing of the hand-held device that slides linearly. The sliding element may be attached to another element that is extended, retracted, or rotated in or out of the device. For example, the hand-held device may be used for prostate ablation therapy. The hand-held device may include an ablation needle electrode that is extended out of a catheter and into a tissue of a patient by depressing an extension lever of the mechanical lever system to deliver ablation therapy. Depressing a retraction lever of the mechanical lever system may retract the needle electrode back into the catheter of the hand-held device. Other variations of the mechanical system and applications of the hand-held device are also described. | 10-30-2008 |
| 20080287874 | CONTROLLING DEAD VOLUME OF A PISTON PUMP USING AN ADJUSTMENT SCREW - The present invention relates generally to infusion devices. More particularly, the present invention is directed toward an inexpensive design to adjust the dead space of a piston pump by adjusting the end position of the piston's forward stroke. The piston pump may include an actuator member with a piston that articulates between a retracted and a forward position in a piston channel. Movement between the retracted and forward position, a pumping stroke, may expel a known quantity of fluid. Because of manufacturing tolerances, the forward position may not exactly line up with the end of the piston channel, resulting in dead space, or ullage, that may result in less than desired accuracy for fluid volume pumped. Utilization of an adjustable stop or stop that contacts the actuator member at the desired forward position may allow for selective elimination of the ullage and precise adjustment of the fluid pumped. | 11-20-2008 |
| 20080312497 | Distal viewing window of a medical catheter - The disclosure describes an elongated housing, e.g., a catheter, configured to be inserted into a lumen of a patient to diagnose or treat a patient. The elongated housing includes a scope channel that accepts a cystoscope and a viewing window at the distal end of the elongated housing. The user may use the cystoscope to view tissue adjacent to the viewing window. The viewing window may take up at least 10 percent of the length of the elongated housing to allow the user to identify a large area of tissue in the lumen without moving the elongated housing with respect to the tissue. Once the user identifies the target tissue, the user may position the elongated housing graduations on the viewing window and the proximal end of the elongated housing. An ablation needle electrode may be extended into the target tissue to deliver ablation therapy to the target tissue. | 12-18-2008 |
| 20080312595 | ARTICULATED ACTUATOR FOR IMPLANTABLE PUMP - The present invention is an actuator for a piston pump that includes a separately formed piston and armature. The piston and the armature are later assembled together or are inserted into the piston pump in such a manner as to cooperate during pumping. Assembling the piston and the armature as separate components may provide for improved form of the piston component when manufactured separately from the armature, due to, for example, increased simplification of the manufacturing process. In addition, effects of manufacturing the piston and the armature together, such as stress on the piston, may be reduced. | 12-18-2008 |
| 20090270795 | METHOD FOR WELDING A BARRIER IN AN IMPLANTABLE DRUG DELIVERY DEVICE - A method including laser welding a barrier to a sleeve and at least one of a housing or coil cup to enclose a solenoid in a solenoid-driven piston pump. The solenoid driven piston pump may comprise a portion of an implantable drug delivery device. | 10-29-2009 |
