A surgical instrument for removal of subretinal fluid is provided herein. The surgical instrument may include a handle coupleable to an aspiration source and a first elongate tubular member having a proximal end and a distal end, the proximal end being coupled to the rotational structure such that the first elongate tubular member is rotatable around the axis. The handle may be configured to rotate around an axis of a handle body. The surgical instrument may further include a second elongate tubular member having a proximal end and a distal end, the proximal end of the second elongate tubular member being coupled to the distal end of the first elongate tubular member, and a port formed through a wall of the second member for aspirating material from a body cavity through the first and second members. The second elongate tubular member may be curved when exposed to body temperature.

A device for cleaning nasal membranes comprising a head that is inserted into a nostril. Fluid is pumped from a reservoir stored in a body of the device onto the membrane. The head rotates to remove debris from the membrane. A vacuum pump suctions the sprayed fluid and the debris into inlets and stores the used fluid in a chamber in the body.

An actuated telescoping system for navigation within a vascular lumen and thrombectomy of a thrombus. The system includes a tubular catheter member having an open distal end defining a catheter lumen, a vacuum source, a rotational drive system, a flexible shaft having a channel coupled to the rotational drive system for rotational movement in response thereto, and an optional guidewire selectively inserted at least partially within the flexible shaft. The flexible shaft is at least partially disposed within the tubular catheter member configured for uncoupled rotational and translational motion therein and to optionally define a corkscrew motion in response to rotational driving force by the drive system that results in formation of hydrodynamic vortices within the catheter lumen. The telescoping system can be capable of reversibly transitioning between navigation and thrombectomy modes by differentially disposing and actuating the components and enable faster, more efficient and simpler removal of thromboembolic material.

A blood circuit assembly for a dialysis unit may include an organizing tray, a pair of pneumatic pumps mounted to the organizing tray for circulating blood received from a patient through a circuit including a dialyzer unit and returned to the patient, an air trap mounted to the organizing tray arranged to remove air from blood circulating in the circuit, a pair of dialyzer connections arranged to connect to the inlet and outlet of a dialyzer unit, and a pair of blood line connectors, one inlet blood line connector for receiving blood from the patient and providing blood to the pneumatic pumps and the other outlet blood line connector for returning blood to the patient.

In a remote control system and method for use in intraluminally or intravascularly located operations, an invasive element to which a remote control unit (RCU) is attached is introducible into a lumen. An elongated tube, to which an activation device is affixed near a distal end, is feedable into the lumen via the invasive element. The RCU is positionable within transmission range of an actuator for the activation device. An operator manipulating the tube with one hand to receive a tactile sensation and engaging the RCU with another hand simultaneously views the tube distal end on a monitor, and depresses an RCU button to actuate the activation device after determining that a body portion is in need of a corrective action. In one embodiment, the RCU comprises a shell for securing the invasive element, facilitating application of a reactive force to the shell by a finger during an operation.

A uterine fibroid tissue removal device includes an inner tube disposed within an outer tube and configured to be translated and rotated relative to the outer tube, and a separately formed unitary distal tip member attached to a distal end of the inner tube, such that the distal tip member translates and rotates relative to the outer tube along with the inner tube, wherein a distal facing open cutting end of the distal tip member in fluid communication with an axial lumen of the distal tip member translates across a tissue resection window in a sidewall of the outer tube so as to sever tissue extending therethrough, the distal tip member axial lumen being in fluid communication with an axial lumen of the inner tube, wherein an outer diameter of the distal tip member is greater than an outer diameter of the inner tube.

In some embodiments, a system or apparatus includes an elongated tubular member having a first end and a second end. The elongated tubular member defines a first lumen extending from the first end to the second end, and a second lumen extending from a first port, which is defined in a sidewall of the elongated tubular member, to a second port in the second end of the elongated tubular member. An inflatable member is coupled to the elongated tubular member. The inflatable member is configured to define an echogenic volume in an inflated condition. A magnetic member is disposed within the elongated tubular member. A position of the inflatable member and the first end of the elongated tubular member within a cavity of a patient can be controllable via magnetic attraction between the magnet and an external magnetic source disposed external to the patient.

A uterine fibroid tissue removal device includes an inner tube disposed within an outer tube and configured to be translated and rotated relative to the outer tube, and a separately formed unitary distal tip member attached to a distal end of the inner tube, such that the distal tip member translates and rotates relative to the outer tube along with the inner tube, wherein a distal facing open cutting end of the distal tip member in fluid communication with an axial lumen of the distal tip member translates across a tissue resection window in a sidewall of the outer tube so as to sever tissue extending therethrough, the distal tip member axial lumen being in fluid communication with an axial lumen of the inner tube, wherein an outer diameter of the distal tip member is greater than an outer diameter of the inner tube.

An actuated telescoping system for navigation within a vascular lumen and thrombectomy of a thrombus. The system includes a tubular catheter member having an open distal end defining a catheter lumen, a vacuum source, a rotational drive system, a flexible shaft having a channel coupled to the rotational drive system for rotational movement in response thereto, and an optional guidewire selectively inserted at least partially within the flexible shaft. The flexible shaft is at least partially disposed within the tubular catheter member configured for uncoupled rotational and translational motion therein and to optionally define a corkscrew motion in response to rotational driving force by the drive system that results in formation of hydrodynamic vortices within the catheter lumen. The telescoping system can be capable of reversibly transitioning between navigation and thrombectomy modes by differentially disposing and actuating the components and enable faster, more efficient and simpler removal of thromboembolic material.

An actuated telescoping system for navigation within a vascular lumen and thrombectomy of a thrombus. The system includes a tubular catheter member having an open distal end defining a catheter lumen, a vacuum source, a rotational drive system, a flexible shaft having a channel coupled to the rotational drive system for rotational movement in response thereto, and an optional guidewire selectively inserted at least partially within the flexible shaft. The flexible shaft is at least partially disposed within the tubular catheter member configured for uncoupled rotational and translational motion therein and to optionally define a corkscrew motion in response to rotational driving force by the drive system that results in formation of hydrodynamic vortices within the catheter lumen. The telescoping system can be capable of reversibly transitioning between navigation and thrombectomy modes by differentially disposing and actuating the components and enable faster, more efficient and simpler removal of thromboembolic material.