A medical instrument has an elongated channel configured to support a staple cartridge, the staple cartridge comprising a plurality of staples. The medical instrument also has an anvil mechanically coupled to the elongated channel, wherein the anvil comprises an exterior surface extending between a proximal end and a distal end. In addition, the medical instrument has at least one electrical circuit at least partially positioned on the exterior surface of the anvil, an indicator system comprising at least one indicator, and a logic circuit electrically in electrical communication with the at least one electrical circuit and the indicator system, wherein the logic circuit is configured to activate the at least one indicator when an electrical continuity of the at least one electrical circuit is interrupted.

A surgical instrument system includes a surgical instrument, a power supply, and an accessory. The surgical instrument has a first induction device positioned therein. The accessory is selectively operably couplable to the surgical instrument. The accessory includes a second induction device that is inductively coupled with the first induction device when the accessory is operably coupled to the surgical instrument such that the power supply provides power to the accessory.

Various embodiments are direct to a surgical instrument comprising and end effector, an articulating shaft and an ultrasonic transducer assembly. The end effector may comprise an ultrasonic blade. The articulating shaft may extend proximally from the end effector along a longitudinal axis and may comprise a proximal shaft member and a distal shaft member pivotably coupled at an articulation joint. The ultrasonic transducer assembly may comprise an ultrasonic transducer acoustically coupled to the ultrasonic blade. The ultrasonic transducer assembly may be positioned distally from the articulation joint.

Systems and devices are described which include a tissue cutting device including a central rotatable shaft having a first end and a second end; a motor operably coupled to the first end of the central rotatable shaft, the motor including circuitry configured to rotate the central rotatable shaft; a moveable component configured to move along at least a portion of the length of the central rotatable shaft; and an elongated flexible cutting component having a first end and a second end, the first end of the elongated flexible cutting component secured to the moveable component and the second end of the elongated flexible cutting component secured to the central rotatable shaft in proximity to the second end of the central rotatable shaft; wherein movement of the moveable component along the at least a portion of the length of the central rotatable shaft changes a shape formed by the elongated flexible cutting component.

A tissue dissector includes a handle portion and a head portion. The handle portion includes an actuation assembly having an actuator. The head portion includes an annular body having a blade assembly rotatably supported in the annular body. The blade assembly includes a blade member defining an aperture configured to receive tissue therethrough. The blade member is operatively coupled with the actuator for rotation about a central axis defined by the aperture. The handle portion and the head portion define a longitudinal axis that is disposed at an angle relative to the central axis.

A detachable motor-powered surgical instrument. The instrument may include a housing that includes at least one engagement member for removably attaching the housing to an actuator arrangement. A motor is supported within the housing for supplying actuation motions to various portions of a surgical end effector coupled to the housing. The housing may include a contact arrangement that is configured to permit power to be supplied to the motor only when the housing is operably attached to the actuator arrangement.

A computing device may include an input, a processor, and an output. The device may be configured to receive two points of surgical sensor data from different sensors. The sensors may include wearable patient sensors and/or surgical theater environmental sensor system. The processor may determine a surgical device setting (e.g., a closure load for a powered surgical stapler, or for example, a power level of a surgical energy device). And the output may send a signal indicative of the determined setting. A surgical device may receive the signal and perform a surgical action based on the determined setting. Using a combination of patient-specific and/or surgical-environment-specific sensor inputs to determine a more optimal device setting may lead to better device perform and ultimately better patient outcomes.

A surgical stapling instrument comprising an end effector, an RFID tag, and a control circuit is disclosed. The end effector comprises an anvil, a staple cartridge, and a contact assembly configured to contact tissue. The staple cartridge comprises staples removably stored therein. The anvil and the staple cartridge are configurable between an open configuration and a closed configuration. The RFID tag is configured to store information about the staple cartridge. The control circuit is operably coupled to the contact assembly. The control circuit is configured to interrogate the RFID tag to determine the information about the staple cartridge, transmit an electrical signal to tissue contacting the contact assembly, determine a characteristic of the tissue contacting the contact assembly based on the electrical signal, and change an operational parameter of the surgical stapling instrument based on the characteristic of the tissue.

A portable and passive safety intraosseous device to allow for direct introduction of medications, etc., within the intermedullary space of a subject patient's bone or, if needed, the removal of certain substances from such a subject patient's bone. Such a device permits direct drilling and placement of a cannula within the subject bone with access external to the subject patient's skin, permitting, as well, connection of a tube for such introduction/removal purposes. The ability to provide a passive safety unit allows for facilitated utilization in, for instance, emergency situations with the entire device provided for utilization thereof. The device includes a drilling component with a permanently attached stylet and a removable cannula, a power supply for a single drilling operation, a mechanism to draw the stylet back into the drill component after use and disengagement from the cannula, and an automatic closure that activates with the separation of the cannula.

A medical, motor-operated or hand-operated or operable instrument includes a number of bearings for supporting a shaft for applying torque to a tool, of which bearings at least two selected or selectable bearings form a bearing pair. A distance sleeve axially spaces apart the bearings of the bearing pair. The instrument includes a component located at least partly radially inside the distance sleeve. The component is or can be rotationally coupled to at least one of the two bearings to rotate together with a rotating part of the at least one of the two bearings, or to form a rotating part of the at least one of the two bearings. At least one permanent magnet is fastened or formed on or in the component. A coil is arranged on or in the distance sleeve.