Abstract: An endoscopic clip apparatus includes a clip sleeve defining an interior passage along a longitudinal axis and having a distal end with a plurality of openings defined in the distal end. A clip including a plurality of arms is disposed in the clip sleeve, and each arm includes a distal tip extending from the clip sleeve through one of the plurality of openings. Each arm includes a convex curved section oriented away from the longitudinal axis. The clip sleeve and clip are axially moveable relative to each other such that when the clip sleeve travels over the convex curved section of each arm toward the distal tip of each arm, each arm is constrained by the clip sleeve and each distal tip advances toward the longitudinal axis to grasp tissue.

Abstract: An endoscopic clip apparatus includes a clip sleeve defining an interior passage along a longitudinal axis and having a distal end with a plurality of openings defined in the distal end. A clip including a plurality of arms is disposed in the clip sleeve, and each arm includes a distal tip extending from the clip sleeve through one of the plurality of openings. Each arm includes a convex curved section oriented away from the longitudinal axis. The clip sleeve and clip are axially moveable relative to each other such that when the clip sleeve travels over the convex curved section of each arm toward the distal tip of each arm, each arm is constrained by the clip sleeve and each distal tip advances toward the longitudinal axis to grasp tissue.

Abstract: Method and circuits for balancing a first waveform used to drive an LED are disclosed herein. The first waveform has a first cycle with a first amplitude and a second cycle with a second amplitude. An embodiment of the method includes adjusting the first amplitude of the first cycle to match the second amplitude of the second cycle, the result being a second waveform. The LED is driven with the second waveform.

Abstract: Method and circuits for balancing a first waveform used to drive an LED are disclosed herein. The first waveform has a first cycle with a first amplitude and a second cycle with a second amplitude. An embodiment of the method includes adjusting the first amplitude of the first cycle to match the second amplitude of the second cycle, the result being a second waveform. The LED is driven with the second waveform.

Abstract: Method and circuits for balancing a first waveform used to drive an LED are disclosed herein. The first waveform has a first cycle with a first amplitude and a second cycle with a second amplitude. An embodiment of the method includes adjusting the first amplitude of the first cycle to match the second amplitude of the second cycle, the result being a second waveform. The LED is driven with the second waveform.

Abstract: Endoscopic devices and methods used for fastening multiple tissue layers, such as, for example, an endoscopic fundoplication procedure, are disclosed. The device may include, for example, an elongated tubular member having a proximal end for extending outside of the body and a distal end for positioning proximate the multiple tissue layers, a grasper configured for positioning proximate the distal end of the tubular member and for grasping at least one of the multiple tissue layers, a device coupled to the distal end of the tubular member for folding the multiple tissue layers together, a tissue fastener configured to be inserted into the tissue layers to hold the tissue layers together, and a fastener head for inserting the tissue fastener into the tissue layers.

Abstract: Method and circuits for balancing a first waveform used to drive an LED are disclosed herein. The first waveform has a first cycle with a first amplitude and a second cycle with a second amplitude. An embodiment of the method includes adjusting the first amplitude of the first cycle to match the second amplitude of the second cycle, the result being a second waveform. The LED is driven with the second waveform.

Abstract: Method and circuits for balancing a first waveform used to drive an LED are disclosed herein. The first waveform has a first cycle with a first amplitude and a second cycle with a second amplitude. An embodiment of the method includes adjusting the first amplitude of the first cycle to match the second amplitude of the second cycle, the result being a second waveform. The LED is driven with the second waveform.

Abstract: Endoscopic instrument assemblies and methods for making and using the same. An example endoscopic instrument assembly includes an endoscope having a working channel and an endoscopic instrument slidably disposed in the working channel. The inside surface of the working channel and the outside surface of the endoscopic instrument each have a non-circular cross-sectional shape along at least a portion of their respective lengths.

Abstract: Endoscopic devices and methods used for fastening multiple tissue layers, such as, for example, an endoscopic fundoplication procedure, are disclosed. The device may include, for example, an elongated tubular member having a proximal end for extending outside of the body and a distal end for positioning proximate the multiple tissue layers, a grasper configured for positioning proximate the distal end of the tubular member and for grasping at least one of the multiple tissue layers, a device coupled to the distal end of the tubular member for folding the multiple tissue layers together, a tissue fastener configured to be inserted into the tissue layers to hold the tissue layers together, and a fastener head for inserting the tissue fastener into the tissue layers.

Abstract: Aspects and embodiments directed to cervical seals are disclosed. In one embodiment, a cervical seal having adjustable length comprises a first portion and a second portion, each configured to receive an elongated central member, a length of the cervical seal corresponding to a distance between the first portion and the second portion. The cervical seal further comprises a membrane coupled to the first portion and the second portion and extending along the length of the cervical seal, wherein the first portion is movable from a first position along the elongated central member to a second position along the elongated central member, so as to change the length of the cervical seal and the membrane is configured so that a radial profile of the membrane increases in response to increasing the length of the cervical seal, so as to provide a conformable cervical seal.

Abstract: Circuits and methods for generating a reference voltage for a power converter control are disclosed herein. The power converter control providing a signal on an output for aligning the voltage and current on a power line so that they are in phase. An embodiment of a circuit includes a voltage detector that detects the voltage on the power line. A signal generator generates a wave that is in phase with voltage on the power line, the wave being generated independent of the voltage on the power line. The output of the signal generator is the reference voltage.

Abstract: Method and circuits for balancing a first waveform used to drive an LED are disclosed herein. The first waveform has a first cycle with a first amplitude and a second cycle with a second amplitude. An embodiment of the method includes adjusting the first amplitude of the first cycle to match the second amplitude of the second cycle, the result being a second waveform. The LED is driven with the second waveform.

Abstract: Surgical tissue fasteners and related deployment systems and methods are disclosed. A tissue fastener used to join multiple tissue layers includes a first member, a second member, and a connecting member connecting the first and second members. In some embodiments, the first and second members are configured to expand from a delivered state to a deployed state in which the fastener secures the tissue layers together. Other tissue fastener embodiments include means for applying a substantially constant force on the tissue layers and/or means for adjusting a length of the connecting member between the first and second members.

Abstract: Surgical tissue fasteners and related deployment systems and methods are disclosed. A tissue fastener used to join multiple tissue layers includes a first member, a second member, and a connecting member connecting the first and second members. In some embodiments, the first and second members are configured to expand from a delivered state to a deployed state in which the fastener secures the tissue layers together. In other tissue fastener embodiments the connecting member has an elastic compressive spring force for applying a substantially constant force on the tissue layers for adjusting a length of the connecting member between the first and second members.

Abstract: A control handle for use with a steerable endoscopic device. The endoscopic device having a pair of control wires to effect steering. The control handle includes a steering mechanism that includes an actuator, such as a control knob, drivingly connected to a drive member, such as a sprocket or drive gear. To transmit force from the drive member to the control wires, a length of transmission structure, such as bead chain, is connected to the proximal ends of the control wires and is engaged with the drive member. In one embodiment, a single-use endoscope may be provided, which includes a control handle, a steerable endoscopic device, and a umbilical cord or communications conduit for functionally connecting the control handle to a control cabinet of an endoscopic imaging system.

Abstract: A control handle for use with a steerable endoscopic device. The endoscopic device having a pair of control wires to effect steering. The control handle includes a steering mechanism that includes an actuator, such as a control knob, drivingly connected to a drive member, such as a sprocket or drive gear. To transmit force from the drive member to the control wires, a length of transmission structure, such as bead chain, is connected to the proximal ends of the control wires and is engaged with the drive member. In one embodiment, a single-use endoscope may be provided, which includes a control handle, a steerable endoscopic device, and a umbilical cord or communications conduit for functionally connecting the control handle to a control cabinet of an endoscopic imaging system.

Abstract: A control handle for use with a steerable endoscopic device. The endoscopic device having a pair of control wires to effect steering. The control handle includes a steering mechanism that includes an actuator, such as a control knob, drivingly connected to a drive member, such as a sprocket or drive gear. To transmit force from the drive member to the control wires, a length of transmission structure, such as bead chain, is connected to the proximal ends of the control wires and is engaged with the drive member. In one embodiment, a single-use endoscope may be provided, which includes a control handle, a steerable endoscopic device, and a umbilical cord or communications conduit for functionally connecting the control handle to a control cabinet of an endoscopic imaging system.

Abstract: Surgical tissue fasteners and related deployment systems and methods are disclosed. A tissue fastener used to join multiple tissue layers includes a first member, a second member, and a connecting member connecting the first and second members. In some embodiments, the first and second members are configured to expand from a delivered state to a deployed state in which the fastener secures the tissue layers together. Other tissue fastener embodiments include means for applying a substantially constant force on the tissue layers and/or means for adjusting a length of the connecting member between the first and second members.

Abstract: A medical device includes a handle and a shaft having a working channel. A biopsy port at the exterior of the handle provides a path for instruments leading to the working channel. A conduit that runs through the handle for supplying fluids is also provided a path to the working channel. As compared between the path from the biopsy port to the working channel and the path from the conduit to the working channel, the path from the biopsy port to the working channel is the more direct path of the two.