Surgical staple cartridge with hydraulic staple deployment

A surgical instrument includes a body assembly, a shaft assembly, and an end effector. The end effector has first and second jaws that are configured to receive a tissue therebetween. The end effector also includes a staple cartridge including a plurality of staples and a hydraulic expandable member that is configured to receive a fluid and thereby expand from a contracted state to an expanded state. The hydraulic expandable member is further configured to direct at least one of the plurality of staples toward an anvil of the first jaw for forcing the at least one of the staples against the anvil and forming the at least one of the staples within the tissue.

METHOD OF MANAGING THE INVENTORY OF EQUIPMENT USED DURING A SURGICAL PROCEDURE BY INDUCTIVELY READING DATA FROM THE EQUIPMENT USED IN THE PROCEDURE

A method for managing inventory of components used during a surgical procedure involving a surgical device and a control unit coupled to the surgical device Each component includes a circuit for storing identification data by the surgical device or control unit when the component is coupled to the surgical device. During a surgical procedure, the identification data are inductively read from the components Then, the inventor is managed based on the received identification data.

Deposition of metal borides and silicides

A method for depositing a metal film onto a substrate is disclosed. In particular, the method comprises pulsing a metal halide precursor onto the substrate and pulsing a reducing precursor onto the substrate. A reaction between the metal halide precursor and the reducing precursor forms a metal film. Specifically, the method discloses forming a metal boride or a metal silicide film.

Deposition of metal borides

A method for depositing a metal boride film onto a substrate is disclosed. In particular, the method comprises pulsing a metal halide precursor onto the substrate and pulsing a boron compound precursor onto the substrate. A reaction between the metal halide precursor and the boron compound precursor forms a metal boride film. Specifically, the method discloses forming a tantalum boride (TaB2) or a niobium boride (NbB2) film.

Deposition of metal borides

A method for depositing a metal film onto a substrate is disclosed. In particular, the method comprises pulsing a metal halide precursor onto the substrate and pulsing a decaborane precursor onto the substrate. A reaction between the metal halide precursor and the decaborane precursor forms a metal film, specifically a metal boride.

SYSTEM AND METHOD FOR COMMUNICATION USING INTERACTIVE AVATAR

A video communication system that replaces actual live images of the participating users with animated avatars. A method may include selecting an avatar, initiating communication, capturing an image, detecting a face in the image, determining facial characteristics from the face, including eye movement and eyelid movement of a user indicative of direction of user gaze and blinking, respectively, converting the facial features to avatar parameters, and transmitting at least one of the avatar selection or avatar parameters.

Method for determining driving characteristics of a vehicle and vehicle analyzing system

A method for determining driving characteristics of a vehicle. To provide an enhanced method to determine from a driving characteristics of the vehicle a long term mechanical stress of a vehicle, it is proposed that during operation of the vehicle an acceleration of the vehicle is detected by an acceleration sensor in the vehicle and evaluated by a vehicle analyzing system in the vehicle, wherein a driving parameter occurring during an acceleration event in which the vehicle acceleration is above a predetermined threshold is used to determine a driving characteristics value of the vehicle.

Anti-jamming and macerating thrombectomy apparatuses and methods

Mechanical thrombectomy apparatuses that may be configured to prevent or reduce jamming (e.g., “anti-jamming” thrombectomy devices), grab clot, and/or macerate the thrombus, e.g., clot, being removed. These mechanical thrombectomy apparatuses may include a tractor comprising a flexible tube of material that inverts as it rolls over itself while being drawn into a catheter in a conveyor-like motion. In particular, described herein are mechanical thrombectomy apparatuses having tractors selectably extendable projections that may aid in grabbing and/or macerating a clot. Also described herein are seesawing tractors for mechanical thrombectomy apparatuses.

SUBSTRATE SUPPORT PEDESTAL HAVING PLASMA CONFINEMENT FEATURES

A method and apparatus for a heated substrate support pedestal is provided. In one embodiment, the heated substrate support pedestal includes a body comprising a ceramic material, a plurality of heating elements encapsulated within the body A stem is coupled to a bottom surface of the body. A plurality of heater elements, a top electrode and a shield electrode are disposed within the body. The top electrode is disposed adjacent a top surface of the body, while the shield electrode is disposed adjacent the bottom surface of the body. A conductive rod is disposed through the stem and is coupled to the top electrode.

Pre-loaded inverting tractor thrombectomy apparatuses

Mechanical thrombectomy apparatuses including an inverting, rolling conveyor region (“tractor”) at the distal end that are configured to grab and remove thrombus material. In particular, described herein are mechanical thrombectomy apparatuses that are adapted to prevent premature deployment of the tractor, e.g., by including a tractor hold (e.g., a housing, a lock, a clamp, etc.) or the like to secure the outer end of the tractor against and/or relative to the elongate inversion support.