A method for removing tissues may comprise disposing a tissue resection device at a target tissue site, causing the tissue resection device to resect a core of tissue from the target tissue site, removing the core of tissue from the body, wherein the removing the core of tissue from the body creates a core cavity at the target tissue site.

The present invention provides a treatment apparatus for an endoscope, an endoscope, and an expandable frame. The treatment apparatus for an endoscope includes: a first electrode, including an electrical treatment part and an operating wire; a second electrode, provided inside the endoscope, and including a first electrically conductive part and a sliding contact part electrically connected to the first electrically conductive part, the first electrically conductive part being configured to contact a human body; and a sheath, provided on a surface thereof with a second electrically conductive part, where the operating wire is configured to be passed through the sheath, the sheath is configured to be passed through the endoscope, and when the sheath is located in a preset position, the sliding contact part contacts and is electrically connected to the second electrically conductive part and the sheath is in sliding fit with the sliding contact part.

The present invention provides a knife head assembly of a novel medical electrotome and a novel medical electrotome. The knife head assembly comprises a snare ring and a cutting knife, the cutting knife comprises a knife handle fixedly connected to a distal end of the snare ring and a knife head fixedly connected to a distal end of the knife handle; the surface of the knife handle is provided with two grooves that are arranged symmetrically and extend in a length direction of the knife handle, the knife handle is further provided with a through-hole penetrating through the knife handle, the two ends of the through-hole are in communication with the two grooves respectively, the distal end of the snare ring is inserted through the through-hole, and the parts of the snare ring on the two sides of the through-hole are limited in the grooves, thus the distal end of the snare ring is embedded and fixed in the knife handle. In the present invention, the snare ring and the cutting knife are mechanically fixed in an embedded manner, and the distal end of the snare ring is inserted and embedded in the knife handle of the cutting knife; the fixed connection structure is stable and reliable, effectively prevents the cutting knife from falling off from the distal end of the snare ring accidentally, and thereby improves the safety of surgical operations.

A tissue segmentation device, controller, and methods therefore are disclosed. The device has an active electrode, a return electrode, a mechanical force application mechanism, voltage and current sensors, and a controller. The controller has a processing component, configured to assign a circuit status to a circuit comprising the at least one electrode. IF (PF≈0) and ((Vrms/Irms)≥T), THEN the circuit status is “open”. IF (PF≈0) and ((Vrms/Irms)<T), THEN the circuit status is “short”. PF is a power factor of power applied to the electrosurgical device. T is a threshold value.

A method for applying bipolar ablation pulses, the method includes positioning multiple electrodes of a catheter in contact with tissue of an organ. The tissue is ablated using the multiple electrodes in accordance with a predefined pattern including a periodic set of time slots. Each of the time slots defines (i) an electrode-pair (EP), (ii) a waveform of one or more bipolar ablation pulses (BAPs) applied to the tissue by the EP, and (iii) a duration of the time slot. The time slots are applied sequentially, and the pattern further includes at least one time slot that is empty.

Improved systems for diagnosing and/or treating arrhythmia of a heart makes use of an array of articulation balloons to control movement of a distal portion of a catheter inside the heart, and may be used to align a diagnostic or treatment tool with a target tissue surface region along or adjacent an inner surface of one of the chambers of the heart. The articulation balloons can generate articulation forces at the site of articulation, and the movement may provide greater dexterity than movements induced by transmitting articulation forces proximally along a catheter body that winds through a tortuous vascular pathway. One or more fluid channels may transmit pressure signals that can be used to determine engagement forces between an electrode or other surface near the distal and of an elongate flexible structure and a tissue or other surface, and those same channels may also be used to control inflation of a balloon articulation array, with the pressure signals optionally providing both force and engagement orientation information.

A medical device includes a snare wire advanceable and retractable inserted through a channel in an insertion portion that is inserted through an endoscope; a substantially tubular cap member including a first portion and a second portion connected to a distal end of the insertion portion, the cap member having an annular distal end surface, the first portion being attachable to the distal end of the insertion portion in phase with the channel, and the cap member having an internal space formed by the first portion and the second portion; and a guide member being linearly extended along an internal surface of the distal end side of the cap member at a side of the second portion, the guide member being configured to guide the snare wire to form a loop and to restrict a retraction of the snare wire toward the side of the insertion portion.

Disclosed are various embodiments of a surgical instrument for colorectal polyp removal. In various embodiment, the surgical instrument has an elongate flexible tubular sheath having a proximal end and a distal end, a snare having a loop and controlled by a pair of wires, and a biopsy forceps having a pair of jaws sized to fit within the loop of the snare. Both the biopsy forceps and the snare are routed through the elongate flexible tubular sheath so that the loop of the snare and the pair of jaws exit the distal end of the elongate flexible tubular sheath.

A medical device may include a handle, a sheath fixed relative to the handle, a longitudinal actuator movable relative to the handle, an end effector, a member extending proximally from the end effector through the sheath, with a portion of the member being fixed relative to the longitudinal actuator, and a rotation actuator. Movement of the rotation actuator may cause rotation of the member relative to the sheath, and movement of the longitudinal actuator may cause longitudinal movement of the member relative to the rotation actuator.

A fluid stream is directed toward tissue to generate a plurality of shedding clouds. The fluid stream can be scanned such that the plurality of shedding clouds arrive a different overlapping locations. Each of the plurality of shedding clouds can remove a portion of the tissue. In many embodiments, an apparatus to ablate tissue comprises a source of pressurized fluid, and a nozzle coupled to the source of pressurized fluid to release a fluid stream, in which the fluid stream generates a plurality of shedding clouds.