A suction device for use with a medical device may include a suction device body and an extension. The suction device body may include a first lumen positioned therein and including a plurality of holes. The extension may include a second lumen positioned therein and may be coupled to the suction device body and configured to facilitate connection of the suction device body to a suction line. The second lumen may be in communication with/open to the first lumen and the suction line may be adapted for connection to a pump configured to apply a negative pressure to the first and second lumens. The suction device may evacuate fluids and/or solids from a patient in an area proximate to the suction device.

The present invention is an ablation device having a flexible and resilient shaft that can provide fluid to the site of ablation from a plurality of different fluid sources.

An electrocautery unit for connecting to a handle of an electrocautery device, the unit comprises a body, a light unit and an electrode. The body has a body proximal end and a body distal end, and a body axis extending lengthwise along the center of the body. The body’s proximal end comprises a connecting element for connecting said body to a handle having a handle axis extending lengthwise along the center of the handle, so that said body axis is coaxial with said handle axis when said body is connected to said handle. The light unit may be constructed and arranged to emit a light having a central axis coaxial with said body axis. The electrode comprises a proximate end connected to the body distal end, and an electrode tip at a distal said. When the electrode is connected to the body, the electrode lays outside of the body axis and extends into said body axis such that the electrode tip is within said body axis, wherein said light and said electrode tip are coaxial to said body axis and said handle axis.

Systems, apparatus, and methods are described for treatment of varicocele and associated conditions. In some embodiments, systems, apparatus, and methods described herein can include forming one or more fluid connections or fistulas between blood vessels such as a gonadal vein (e.g., spermatic vein, ovarian vein) and surrounding veins. In some embodiments, systems, apparatus, and methods described herein can include occluding one or more blood vessels such as a gonadal vein (e.g., spermatic vein, ovarian vein). In some embodiments, systems, apparatus and methods described herein relate to flow diverters, replacement valves, etc., e.g., for treatment of varicocele and associated conditions.

The present disclosure is directed to devices, systems, and methods for sensing and discerning whether a distal portion of a fat grafting cannula or probe is disposed in fat tissue or muscle tissue during fat grafting procedures. In one aspect of the present disclosure, a fat grafting cannula or probe is provided including first and second electrodes. Each electrode is coupled to a circuit, e.g., disposed in an electrosurgical generator. During a fat grafting procedure, the electrodes contact patient tissue. Based on signals received from each electrode, the circuit is configured to determine whether a distal portion of the fat grafting cannula is disposed in a fat tissue or muscle tissue. If the circuit determines that the fat grafting cannula is disposed in muscle tissue, the surgeon operating the fat grafting cannula is alerted to ensure that processed fat is not injected into the muscle tissue of the patient.

An atherectomy system includes a drive mechanism that is adapted to rotatably actuate an atherectomy burr and a controller that is adapted to regulate operation of the drive mechanism. In some cases, the drive mechanism includes a drive cable that is coupled with the atherectomy burr and a drive motor that is adapted to rotate the drive cable. The controller is adapted to receive an indication of an increase in torque experienced at the atherectomy burr and is further adapted to, in response, regulate operation of the drive mechanism such that the increase in torque results in a noticeable reduction in speed of the drive mechanism such that a user of the atherectomy system notices the reduction in speed and is alerted to the increase in torque.

A catheter includes a first tubular portion provided with a first opening communicating with an interior of the first tubular portion; a second tubular portion passing through the first tubular portion, the second tubular portion having an extension extending from a leading end of the first tubular portion and provided with a second opening communicating with an interior of the second tubular portion; and a temperature sensor configured to measure temperature of a measuring unit placed in the extension of the second tubular portion, wherein the catheter is configured to collect fluid discharged from one of the first opening and the second opening from another one of the first opening and the second opening.

Exhaust removal apparatus and methods for cryogenic treatment are described herein. The apparatus may generally include a housing having an inlet for fluidly coupling to a source of water and an outlet for fluidly coupling to a drain, and a suction chamber in fluid communication with the housing, wherein the suction chamber is further configured to be detachably coupled to an exhaust collection reservoir having a volume of exhaust gas. Introduction of water through the inlet generates a pressure reduction within the suction chamber such that the volume of exhaust gas is drawn from the exhaust collection reservoir and into the housing for dissolving into the water and out through the drain.

A robotic system is configured to automatically trigger a robotic action based on an identified phase of a medical procedure. The robotic system includes a video capture device; a robotic manipulator; one or more sensors; an input device; and control circuitry. The control circuitry is configured to: determine a first status of the robotic manipulator based on sensor data from the one or more sensors; identify a first input from the input device for initiating a first action of the robotic manipulator; perform a first analysis of a video of a patient site captured by the video capture device; identify a first phase of the medical procedure based at least in part on the first status of the robotic manipulator, the first input, and the first analysis of the video; and trigger a first automatic robotic action of the robotic manipulator based on the identified first phase.

Devices and methods for treating rhinitis are provided. An integrated therapy and imaging device is provided for single handheld use. The device may have a hollow elongated cannula, a therapeutic element coupled to a distal portion of the cannula, an imaging assembly coupled to the cannula to provide visualization of the therapeutic element, and an articulating region operably coupled to the imaging assembly to articulate the imaging assembly. The imaging assembly may be articulated so as to translate vertically, laterally, axially, and/or rotationally.