Abstract: A sleep apnea and obesity comorbidity treatment system includes a transceiver and a control module. The control module is configured to: receive sensor data, where the sensor data is indicative of a glucose level of a patient and a ketones level of the patient, transmit the sensor data to a remote feedback device, receive feedback information from the remote feedback device based on the sensor data, and where the feedback information provides indications to the patient to maintain or alter a behavior of the patient based on the glucose level and the ketones level, and based on the feedback information, performing an operation to maintain or alter at least one of a diet or physical activity of the patient.

Abstract: A computer-implemented method of discovering data sources includes receiving a request at a computing device through a user interface identifying applications and any additional data source types associated with the applications, and parameters used to access the applications, automatically authenticating the computing device to applications that require authentication, using the parameters, making calls through a programming interface for each application requesting identification of data sources, receiving a list identified data sources through the programming interface, providing unique identifiers for each of the identified data sources, providing an access identifier that identifies users that have access to the data sources, and storing the identified data sources, unique identifiers, and access identifiers as a data source catalog.

Abstract: A tissue monitoring system includes a sensor, a sensor reader, and at least one computing device. The sensor is releasably coupled to a staple by a tether and is configured to measure a physiological parameter of tissue and convert the measurement into a signal. The sensor reader is configured to receive the signal from the sensor and the at least one computing device is configured to receive the signal from the sensor reader and process the signal into physiological data. The sensor is implanted in tissue by the staple.

Abstract: A computer-implemented method of discovering data sources includes receiving a request at a computing device through a user interface identifying applications and any additional data source types associated with the applications, and parameters used to access the applications, automatically authenticating the computing device to applications that require authentication, using the parameters, making calls through a programming interface for each application requesting identification of data sources, receiving a list identified data sources through the programming interface, providing unique identifiers for each of the identified data sources, providing an access identifier that identifies users that have access to the data sources, and storing the identified data sources, unique identifiers, and access identifiers as a data source catalog.

Abstract: A feedback patch for use with a surgical instrument or a robotic surgical system includes a substrate and a stimulator disposed on the substrate. The stimulator is configured to receive a feedback signal from a sensor of the surgical instrument or the robotic surgical system and is configured to stimulate a hand of a clinician interfacing with the surgical instrument or the robotic surgical system.

Abstract: A feedback patch for use with a surgical instrument or a robotic surgical system includes a substrate and a stimulator disposed on the substrate. The stimulator is configured to receive a feedback signal from a sensor of the surgical instrument or the robotic surgical system and is configured to stimulate a hand of a clinician interfacing with the surgical instrument or the robotic surgical system.

Abstract: A sleep apnea and obesity comorbidity treatment system includes a transceiver and a control module. The control module is configured to: receive sensor data, where the sensor data is indicative of a glucose level of a patient and a ketones level of the patient, transmit the sensor data to a remote feedback device, receive feedback information from the remote feedback device based on the sensor data, and where the feedback information provides indications to the patient to maintain or alter a behavior of the patient based on the glucose level and the ketones level, and based on the feedback information, performing an operation to maintain or alter at least one of a diet or physical activity of the patient.

Abstract: A biopsy device includes an ultrasonic probe, a display, an actuator, and a needle assembly. The display is associated with the ultrasonic probe, and the ultrasonic probe is configured to send a signal to the display to generate an image on the display. The needle assembly is coupled to the actuator and is at least partially disposed within a channel defined in the ultrasonic probe. The actuator is configured to move the needle assembly in a distal direction relative to the ultrasonic probe and through the channel of the ultrasonic probe from a retracted position to a deployed position.

Abstract: An end effector assembly includes a base portion including a pivot assembly. A first portion of the pivot assembly is pivotally coupled to the distal end portion of the elongated shaft. A second portion of the pivot assembly is pivotally coupled to a distal portion of the push rod. The push rod moves the second portion of the pivot assembly between a proximal position and a distal position. An electrode substantially covers a distal surface of the base portion. The electrode receives electrosurgical energy from the electrosurgical generator and transmits the electrosurgical energy to treat tissue.

Abstract: The present disclosure is directed to a robotic surgical system that includes a robotic surgical device having a robotic arm and an end effector with a pair of jaw members. A handpiece includes a pinch interface to control the arm or end effector, optical marker(s), an accelerometer, and a transmitter to transmit data from the pinch interface or accelerometer to the robotic surgical device. The system further includes a tracking system, to track the marker and provide a position or orientation of the handpiece. A processor receives: (i) the position or orientation of the handpiece from the tracking system; and (ii) the measured acceleration of the handpiece from the accelerometer. The processor integrates the measured acceleration to establish a second position beyond that of the tracking system. The processor controls movement of the robotic arm and end effector based on the received data from the camera or the accelerometer.

Abstract: The present disclosure is directed to a robotic surgical system that includes a robotic surgical device having a robotic arm and an end effector with a pair of jaw members. A handpiece includes a pinch interface to control the arm or end effector, optical marker(s), an accelerometer, and a transmitter to transmit data from the pinch interface or accelerometer to the robotic surgical device. The system further includes a tracking system, to track the marker and provide a position or orientation of the handpiece. A processor receives: (i) the position or orientation of the handpiece from the tracking system; and (ii) the measured acceleration of the handpiece from the accelerometer. The processor integrates the measured acceleration to establish a second position beyond that of the tracking system. The processor controls movement of the robotic arm and end effector based on the received data from the camera or the accelerometer.

Abstract: An ultrasonic horn assembly is configured so that irrigating fluid can be supplied only to a vibrating tip portion of the ultrasonic horn and so that suction aspiration can occur through a portion of the ultrasonic horn not in contact with the irrigating fluid. Controllers supplying irrigation fluid during a surgical procedure and controlling suction aspiration via monitoring of fluid level in the patient cavity are operatively coupled one to another to coordinate control of the fluid level in the patient cavity. Circuitry controlling power, frequency and amplitude of the tip of the ultrasonic horn occurring as a result of operation of a source of ultrasonic signal generating power controls either or both the supply of irrigation fluid and the suction aspiration so as to minimize damping of vibration of the tip of the ultrasonic horn. An optical viewing element is provided to view the tip of the ultrasonic horn.

Abstract: An electrosurgical instrument having a movement sensing device for controlling the electrosurgical output thereof, is disclosed. In one aspect of the present disclosure, the electrosurgical instrument includes an elongated housing, an electrically conductive element supported within the housing and extending distally from the housing, the electrically conductive element connectable to a source of electrosurgical energy, and a sensor disposed within the housing and in electrical connection with the electrosurgical generator. The sensor detects movement of the electrically conductive element and communicates a signal to the electrosurgical generator relating to the movement of the electrically conductive element. The source of electrosurgical energy supplies electrosurgical energy in response to the signal from the sensor.

Abstract: A system and apparatus for irrigating a surgical site during an electrosurgical procedure are disclosed. The system includes a hand piece having an elongated housing connected to a multilumen tube extending proximally from the housing and having an irrigation tube for delivering irrigation fluid, a suction tube for withdrawing irrigation fluid, and electrical wiring, a first controls for adjusting flow of irrigation fluid within the irrigation tube and second controls for adjusting flow of irrigation fluid within the suction tube. A valve cassette is connected to the multilumen tube, which includes an irrigation valve configured to control the flow within the irrigation tube and a suction valve configured to control the flow within the suction tube. A hardware control module controls the irrigation valve and the suction valve based on control signals from the first and second controls.

Abstract: An electrosurgical pencil is provided which includes an elongated housing, an electrocautery blade supported within the housing and extending distally from the housing. The electrocautery blade is connected to a source of electrosurgical energy. The pencil also includes at least one activation switch supported on the housing which is configured and adapted to complete a control loop extending from the source of electrosurgical energy. At least one voltage divider network is also supported on the housing and is electrically connected to the source of electrosurgical energy.

Abstract: An endoscopic forceps is disclosed including an end effector assembly having two jaw members movable from a first position in spaced relation relative to one another to at least a second position closer to one another for grasping tissue therebetween. Each of the jaw members is connectable to an electrosurgical energy source for conducting energy through tissue held therebetween. The jaw members are biased to the first position. The end effector assembly of the endoscopic forceps further includes a wire snare having a proximal end connectable to an electrosurgical energy source and a distal end translatably extending out of one of the jaw members and operatively associated with the other of the jaw members. In use, withdrawal of the proximal end of the wire snare results in movement of the jaw members from the first position to a second position and clamping of the tissue between the jaws.

Abstract: A system and apparatus for controlling operating room equipment during an electrosurgical procedure is disclosed. The system includes an electrosurgical generator, a controller in electrical communication with and configured to control the electrosurgical generator and at least one operating room device, and a handpiece having a housing and a cable extending proximally from the housing providing electrical connection to the controller, the handpiece further includes first controls for controlling the generator and second controls for controlling at least one operating room device.

Abstract: A sheath system for selectively covering a distal end of an electrocautery blade is provided. The sheath system includes a hub having a body portion defining a lumen therethrough and a sheath having a body portion defining a lumen therethrough. The lumen of the sheath is configured and dimensioned to operatively receive an electrocautery blade therein. The sheath is translatably associated with the hub such that rotation of the hub in a first direction results in axial movement of the sheath in a first direction to expose a distal end of the electrocautery blade and rotation of the hub in a second direction, opposite to the first direction, results in axial movement of the sheath in a second direction to cover the distal end of the electrocautery blade. The hub and the sheath may be concentric with one another.

Abstract: A connector system for coupling electrosurgical instruments to electrosurgical generators is provided. The connector system includes a plug portion connectable to an electrosurgical instrument, the plug portion of the electrosurgical instrument having a shape specific to a particular manufacturer; and a plug receptacle portion supported on the electrosurgical generator; the plug receptacle portion being shaped to receive the plug portion of the electrosurgical instrument of the particular manufacturer and the plug portion of the electrosurgical instrument of any other manufacturer.

Abstract: An electrosurgical instrument includes a pair of first and second elongated shafts each having an end effector attached to a distal end thereof and a handle. The handle is movable from a first position wherein the end effectors are disposed in spaced relation relative to one another to a second position wherein the end effectors are closer relative to one another. Each of the elongated shafts includes a hinge plate which mounts atop a pivot assembly for effecting movement of the end effectors relative to one another. The instrument also includes a hinge assembly made from an overmold composition which encapsulates and secures the hinge plates and the pivot assembly. The overmold composition is made from an electrically insulating material which insulates the end effectors from one another.