Abstract: An implantable radiating structure includes a directly excited element (“DEE”) that includes a top portion, a gap portion, and a bottom portion. The gap portion is between the top portion and the bottom portion. The top portion is coupled to the bottom portion via a connector, and the top portion, the gap portion, and the bottom portion of the DEE are planar. The implantable radiating structure also includes an indirectly excited element (“IEE”) radiatively coupled to the DEE. The IEE is positioned at an angle with respect to the DEE, and the DEE is orthogonal to the IEE. Further, the implantable radiating structure is configured to be implanted inside a human body and includes a bandwidth of at least 150 megahertz and a voltage standing wave ratio of approximately 2.

Abstract: Methods and devices for controlling motorized surgical devices are provided. In general, the methods and devices can allow a surgical device to grasp and cut tissue. In some embodiments, the device's motor can begin providing power for grasping and/or cutting tissue in response to an output from the device's sensor, the device can adjust power provided by the motor based on whether the device is clamping tissue or is being fired, the device can adjust an amount of power provided by the motor based on an amount of user-applied force to the device's actuator and/or can control drive direction of the motor based on the amount of the force, the device can maintain a force applied to the device, the device can self-shift the motor, and/or the device can adjust an amount of power provided to the device's end effector based on a degree of the end effector's closure.

Abstract: Surgical devices are provided having end effectors including a jaw closure. The devices herein generally include a handle portion, an elongate shaft, and an effector having first and second jaws configured to engage tissue. In some embodiments, the devices can be configured to allow for the removal of the upper jaw and the cutting blade when the device is not in use. In certain aspects, the jaw and/or cutting blade can be cleaned, sterilized, and reused or completely replaced. In some aspects, the device can then be reassembled including the cleaned or new elements, and reused.

Abstract: Methods and devices for controlling motorized surgical devices are provided. In general, the methods and devices can allow a surgical device to grasp and cut tissue. In some embodiments, the device's motor can begin providing power for grasping and/or cutting tissue in response to an output from the device's sensor, the device can adjust power provided by the motor based on whether the device is clamping tissue or is being fired, the device can adjust an amount of power provided by the motor based on an amount of user-applied force to the device's actuator and/or can control drive direction of the motor based on the amount of the force, the device can maintain a force applied to the device, the device can self-shift the motor, and/or the device can adjust an amount of power provided to the device's end effector based on a degree of the end effector's closure.

Abstract: Methods and devices for controlling motorized surgical devices are provided. In general, the methods and devices can allow a surgical device to grasp and cut tissue. In some embodiments, the device's motor can begin providing power for grasping and/or cutting tissue in response to an output from the device's sensor, the device can adjust power provided by the motor based on whether the device is clamping tissue or is being fired, the device can adjust an amount of power provided by the motor based on an amount of user-applied force to the device's actuator and/or can control drive direction of the motor based on the amount of the force, the device can maintain a force applied to the device, the device can self-shift the motor, and/or the device can adjust an amount of power provided to the device's end effector based on a degree of the end effector's closure.

Abstract: Surgical devices are provided having end effectors including a jaw closure. The devices herein generally include a handle portion, an elongate shaft, and an effector having first and second jaws configured to engage tissue. In some embodiments, the devices can be configured to allow for the removal of the upper jaw and the cutting blade when the device is not in use. In certain aspects, the jaw and/or cutting blade can be cleaned, sterilized, and reused or completely replaced. In some aspects, the device can then be reassembled including the cleaned or new elements, and reused.

Abstract: Methods and devices for controlling motorized surgical devices are provided. In general, the methods and devices can allow a surgical device to grasp and cut tissue. In some embodiments, the device's motor can begin providing power for grasping and/or cutting tissue in response to an output from the device's sensor, the device can adjust power provided by the motor based on whether the device is clamping tissue or is being fired, the device can adjust an amount of power provided by the motor based on an amount of user-applied force to the device's actuator and/or can control drive direction of the motor based on the amount of the force, the device can maintain a force applied to the device, the device can self-shift the motor, and/or the device can adjust an amount of power provided to the device's end effector based on a degree of the end effector's closure.