Abstract: An infusion pump including a drive mechanism; an assembly operable with the drive mechanism, the assembly configured to deliver a flowable material to a patient; a mountable housing holding the drive mechanism and configured at its front side to receive the assembly and at its backside to mount in either a first orientation or a second orientation to an external support, wherein the housing supports the drive mechanism and the assembly in each of the orientations; a controller operably connected to the housing; and a display operably connected to the controller and supported by the front side of the housing, the display configured to be rotatably responsive so that information displayed by the display is oriented right-side-up regardless of whether the assembly is in the first orientation or the second orientation.

Abstract: Method and system for treating a patient using a compressible, pressure-attenuating device. According to one embodiment, the system is used to treat urinary tract disorders and can include one or more of an access device, a delivery device, a pressure-attenuating device, and a removal device. The access device may be used to create a passageway to an anatomical structure, such as the patient's bladder. The delivery device may be inserted through the passageway created by the access device and may be used to deliver the pressure-attenuating device to the anatomical structure. The removal device may be inserted through the passageway created by the access device and may be used to view the bladder and/or to capture, to deflate and to remove the pressure-attenuating device.

Abstract: Method and system for treating a patient using an inflatable device. A removal device may be used to remove the inflatable device from the body. The removal device can have at least one manually-actuatable member and at least two opposing jaws at a distal end. At least one of the at least two jaws can be movable by actuation of the at least one manually-actuatable member. At least one of the at least two jaws can have a puncturing member.

Abstract: An inflated implant within an anatomical structure, such as the bladder, may require removal. A method of removing an inflated implant from an anatomical structure can include any of a number of different steps. A removal device can be placed within the anatomical structure. The implant is located within the anatomical structure. After it is located, the implant can be engaged by arms of the removal device. A portion of a surface of the implant can be compromised such that an inflation substance within the implant can escape. The inflation substance can be removed out of the implant through a deflation tube in at least one of the arms used to engage the implant. The implant can then be removed from the anatomical structure.

Abstract: An implant delivery system can be configured to deliver an inflatable implant into a bladder via a urethra. The delivery system can comprise an elongate tubular body, an inflation tube and an implant decoupler. The tubular body can comprise a central lumen configured to hold an inflatable implant in an initial un-inflated state for delivery of the implant into the bladder. A method of use can include passing a distal tip of the elongate tubular body into the bladder. The implant can be inflated and released into the bladder.

Abstract: An infusion pump includes a housing; a user interface carried by the housing; a pump actuator positioned by the housing so as to be able to actuate a medical fluid pump member; and wherein the user interface and the pump actuator are powered interchangeably by a first, rechargeable battery unit and a second battery unit, both the first and second battery units configured to power the user interface and the pump actuator at a place for which outside power is unavailable, and such that the user interface and the pump actuator can be powered by the second battery unit while the first battery unit is being recharged.

Abstract: An implant delivery system can be configured to deliver an inflatable implant into a bladder via a urethra. The delivery system can comprise an elongate tubular body, an inflation tube and an implant decoupler. The tubular body can comprise a central lumen configured to hold an inflatable implant in an initial un-inflated state for delivery of the implant into the bladder. A method of use can include passing a distal tip of the elongate tubular body into the bladder. The implant can be inflated and released into the bladder.

Abstract: Method and system for treating a patient using a compressible, pressure-attenuating device. According to one embodiment, the system is used to treat urinary tract disorders and can include one or more of an access device, a delivery device, a pressure-attenuating device, and a removal device. The access device may be used to create a passageway to an anatomical structure, such as the patient's bladder. The delivery device may be inserted through the passageway created by the access device and may be used to deliver the pressure-attenuating device to the anatomical structure. The removal device may be inserted through the passageway created by the access device and may be used to view the bladder and/or to capture, to deflate and to remove the pressure-attenuating device.

Abstract: An implant for use in a human or animal body can include a flexible housing with an outer wall and having a chamber therein. The implant can have at least one high vapor pressure medium within the chamber. The at one high vapor pressure medium can have a combined vapor pressure equal to or greater than about the average value of the hydrostatic pressure of the implantation site plus the skin tension of the housing minus the gas tension of the dissolved gasses present at the implantation site.

Abstract: An implant delivery system can be configured to deliver an inflatable implant into a bladder via a urethra. The delivery system can comprise an elongate tubular body, an inflation tube and an implant decoupler. The tubular body can comprise a central lumen configured to hold an inflatable implant in an initial un-inflated state for delivery of the implant into the bladder. A method of use can include passing a distal tip of the elongate tubular body into the bladder. The implant can be inflated and released into the bladder.

Abstract: An infusion pump including a pump actuator; a fluid assembly operable with the pump actuator, the fluid assembly including an outlet line; a housing configured at its front side to receive the fluid assembly and at its backside to mount in either a first orientation or a second orientation to an external support, wherein the housing supports the pump actuator and the fluid assembly in each of the orientations, and wherein the outlet line extends from a surface of the housing; a controller operably connected to the housing; and a display operably connected to the controller and supported by the front side of the housing, the display configured to be rotatable responsive so that information displayed by the display is oriented right-side-up regardless of whether the surface from which the output extends is in the first orientation or the second orientation.

Abstract: An infusion pump includes a housing; a user interface carried by the housing; a pump actuator positioned by the housing so as to be able to actuate a medical fluid pump member; and wherein the user interface and the pump actuator are powered interchangeably by a first, rechargeable battery unit and a second battery unit, both the first and second battery units configured to power the user interface and the pump actuator at a place for which outside power is unavailable, and such that the user interface and the pump actuator can be powered by the second battery unit while the first battery unit is being recharged.

Abstract: An implant for use in a human or animal body can include a flexible housing with an outer wall and having a chamber therein. The implant can have at least one high vapor pressure medium within the chamber. The at one high vapor pressure medium can have a combined vapor pressure equal to or greater than about the average value of the hydrostatic pressure of the implantation site plus the skin tension of the housing minus the gas tension of the dissolved gasses present at the implantation site.

Abstract: An infusion pump which includes a fingerprint reader to verify that a patient or a user is authorized to activate a patient-controlled analgesic button. The fingerprint reader can be integrated into the patient-controlled analgesic button. The infusion pump delivers a dose of medication to the patient if the fingerprint of the patient or user matches a pre-loaded fingerprint.

Abstract: A drive mechanism for an infusion pump linearly moves a syringe plunger within a syringe barrel supported by the pump and includes: (i) a motor; (ii) a lead screw rotatably connected to the motor; (iii) a slide assembly having a threaded member supported thereon, the threaded member being associated with the lead screw; (iv) an arm having one end connected to the slide assembly and one end adapted to be engaged with the syringe plunger, and (v) the threaded member being rotatably biased in engagement with the lead screw, wherein upon rotation of the lead screw by the motor, the slide assembly linearly moves the arm wherein the arm is adapted to move the syringe plunger within the syringe barrel.

Abstract: An infusion pump (10) is configured to be powered by either a disposable battery source or a rechargeable battery source. The infusion pump (10) has a housing (12) having a recess (33). A motor is positioned within the housing (12) and is operably connected to an electrical contact (94) disposed in the recess (33). The motor powers the pump (10). The recess (33) receives one of a rechargeable battery unit (90) having an electrical contact (98) that contacts the recess electrical contact (94), and a disposable battery unit (92) having an electrical contact (144) that contacts the recess electrical contact (94).

Abstract: A medical device (10) is disclosed. The device (10) is adaptable for configuration in various positions. In the preferred embodiment, the device (10) comprises an infusion pump (12) for dispensing a medical fluid to a patient. A controller (14) is operably connected to a display (16) and the pump (12). The display (16) is operably responsive to the position of the pump (10) wherein information on the display (16) can be easily viewed.