Abstract: An apparatus includes a plurality of links and a plurality of beads interconnected together using the plurality of links. Each link of the plurality of links defines a chord length. The plurality of beads is configured to be arranged in an annular arrangement. Each bead of the plurality of beads includes at least one magnet configured to emit a magnetic field. The annular arrangement is sized and configured to form a loop around an anatomical structure in a patient. The loop in the expanded configuration is configured to permit fluid flow through the anatomical structure. Adjacent magnetic fields of adjacent magnets of the adjacent beads are configured to interact until separated past a minimum threshold in response the annular arrangement moving from the contracted configuration to the expanded configuration. The minimum threshold is based on the chord length of the links.

Abstract: Stapling assemblies for use with a surgical stapler are provided. In one exemplary embodiment, the stapling assembly includes a cartridge having a plurality of staples disposed therein and a non-fibrous adjunct formed of at least one fused bioabsorbable polymer and configured to be releasably retained on the cartridge. Adjunct systems for use with a surgical stapler are also provided. Surgical end effectors using the stapling assemblies are also provided. Methods for manufacturing stapling assemblies and using the same are also provided.

Abstract: Methods for fabricating an anvil for a surgical stapling device. Various methods include forming an anvil body from a first material and a deformable anvil tip from a second material and attaching the deformable anvil tip to a distal end of the anvil body with a deformable second attachment member. Other methods include molding a deformable anvil tip to a distal end of an anvil body.

Abstract: A surgical instrument includes a shaft assembly, an end effector, a firing system, and a firing lockout assembly. The end effector is operatively coupled with the shaft assembly. The end effector includes first and second jaws. The first jaw includes an anvil. The second jaw is configured to removably receive an unspent staple cartridge. The firing system extends through at least a portion of the shaft assembly and the end effector. The firing lockout assembly is selectively coupled with the firing system. The firing lockout assembly is disposed proximal to the end effector. The firing lockout assembly is configured to allow actuation of the firing system in an unlocked configuration in response to the unspent staple cartridge being coupled with the second jaw; and inhibit actuation of the firing system in a locked configuration in response to the unspent staple cartridge being absent from the second jaw.

Abstract: An apparatus includes at least one link and a plurality of beads. The plurality of beads are joined using the at least one link and configured to be arranged in an annular arrangement. Each bead includes at least one magnet. The annular arrangement is sized and configured to form a loop around an anatomical structure in a patient. Adjacent beads are magnetically attracted together at a plurality of magnetic interfaces that include first and second magnetic interfaces. The first magnetic interface has a first magnetic field strength. The second magnetic interface has a second magnetic field strength that is less than the first magnetic field strength so that the beads forming the second interface are configured to separate prior to the beads forming the first interface when the loop moves from the contracted configuration to the expanded configuration, thereby providing uniform radial expansion of the loop.

Abstract: A tissue thickness compensator may generally comprise a compressible core comprising a plurality of movable particles, and a wrap surrounding the compressible core. The plurality of movable particles may comprise at least one medicament. A tissue thickness compensator may generally comprise a compressible core comprising a plurality of crushable particles, and a wrap surrounding the compressible core. The plurality of crushable particles may comprise at least one medicament. The compressible core may comprise a material selected from a group consisting of a biocompatible material. The wrap may comprise a material selected from a group consisting of a biocompatible material. Articles of manufacture comprising the tissue thickness compensator and methods of making and using the tissue thickness compensator are also described.

Abstract: Systems, devices, and methods for controlling cooperative surgical instruments are provided. Various aspects of the present disclosure provide for coordinated operation of surgical instruments accessing a common body cavity of a patient from different approaches to achieve a common surgical purpose. For example, various methods, devices, and systems disclosed herein can enable the coordinated treatment of surgical tissue by disparate minimally invasive surgical systems that approach the tissue from varying anatomical spaces and operate in concert with one another to effect a desired surgical treatment.

Abstract: An apparatus includes at least one link and a plurality of beads. The plurality of beads is joined using the at least one link and is configured to be arranged in an annular arrangement. The annular arrangement is sized and configured to form a loop around an anatomical structure in a patient. The annular arrangement is configured to move between a contracted configuration and an expanded configuration. The loop in the contracted configuration is configured to prevent fluid flow through the anatomical structure. Each bead includes a housing, a magnet contained within the housing, and a secondary element that is different from the magnet. The magnet is configured to emit a magnetic field. The magnets of the plurality of beads are configured to magnetically bias the loop toward the contracted configuration. The secondary element is contained within the housing and is configured to increase the magnetic field of the magnet.

Abstract: A surgical data management system may enable a patient to provide conditional consent(s). The patient granted consent may be associated with one or more condition(s), stipulation(s), and/or limitations of the scope, duration, and/or usage of their health data. The surgical data management system may be configured to check that patient data is only being used in accordance with the consent data (e.g., for the agreed upon purpose(s) and for the agreed upon time). In response to a data request for health data associated with a patient, the system may obtain a conditional consent associated with the patient. The system may determine whether to block access to at least a portion of the health data associated with the patient based on the data request and whether the condition(s) associated with the conditional consent have been met.

Abstract: A data propagation reporting system may obtain an annotation associated with health data associated with a patient and may determine, based on the annotation, utilization information associated with the patient's health data. The data propagation reporting system may generate a patient data utilization report that may include at least a portion of the utilization information associated with the patient. The utilization information may indicate at least one of: the system(s) in which the health data associated with the patient has been used, when the health data associated with the patient has been accessed, or the purpose(s) for which the health data associated with the patient has been used. The utilization information may indicate the control program(s) (e.g., system algorithms) to which the patient's data has been contributed. The utilization information may indicate the data collection(s) in which the patient's data has been included.

Abstract: A staple cartridge is disclosed, for use with a surgical instrument, having a cartridge body including a proximal end, a distal end, and staple cavities, staples removably stored in said staple cavities, a sled movable toward said distal end during a staple firing stroke to eject said staples from said staple cavities, a sensor configured to detect the position of said sled; a cartridge control circuit in communication with said sensor; and at least one memory device in communication with said cartridge control circuit, wherein said cartridge control circuit is configured to store data in said at least one memory device regarding operation of the staple cartridge.

Abstract: A surgical instrument equipped with a coupler arrangement for coupling end effectors to an elongated shaft assembly of the surgical instrument. The end effectors may include a pair of jaws in the form of a carrier supporting a surgical staple cartridge and an anvil. The anvil is movable relative to the carrier in opening and closing directions. The end effector may include an articulation joint that facilitates pivotal travel of the carrier and anvil as a unit relative to the elongated shaft assembly in the same directions in which the anvil is opened and closed relative to the carrier.

Abstract: A method for establishing signal and power communication between a surgical instrument and a staple cartridge is disclosed.

Abstract: An end-effector and a surgical instrument are disclosed. The end-effector includes a clamp arm and an ultrasonic blade configured to acoustically couple to an ultrasonic transducer and to electrically couple to a pole of an electrical generator. The clamp arm includes a clamp jaw defining zones, a spring disposed in each of the zones, and a cantilever electrode configured to couple to an opposite pole of the electrical generator disposed along the zones and in contact with each of the springs to apply a variable spring bias along the length of the cantilever electrode. The cantilever electrode is fixed to the clamp jaw at a proximal end and free to deflect at a distal end. The spring bias force a spring in a zone is different from the spring bias force bias of another spring in another zone.

Abstract: A surgical instrument system comprising a drive train and a control circuit is disclosed. The drive train comprises a motor and a shaft actuatable by the motor to actuate a function of an end effector. The control circuit is coupled to the motor, wherein the control circuit is configured to determine a relative excess capacity of the drive train, compare the relative excess capacity to a predetermined shifting threshold, and increase the speed of the motor based on the relative excess capacity exceeding the predetermined shifting threshold.

Abstract: A surgical instrument is disclosed including a motor-powered firing system comprising a firing motor, a motor-powered closure system comprising a closure motor, and a control system. The firing motor is configured to drive a firing member between an unfired position and a fired position. The closure motor is configured to transition an end effector between an open state and a clamped state. The control system is configured to set a first parameter of the motor-powered closure system, based on a received first input, drive the end effector toward the clamped state with the motor-powered closure system using the first parameter, monitor a second parameter associated with the end effector transitioning toward the clamped state, set a third parameter of the motor-powered firing system, based on a received second input and the monitored second parameter, and drive the firing member toward the fired position using the third parameter.

Abstract: A surgical system is disclosed including a surgical instrument and a control system. The surgical instrument comprises an end effector, a first drive system, and a second drive system. The control system is configured to detect the actuation of the first drive system of the surgical instrument, drive a first function of the end effector using the first drive system, monitor a first parameter associated with a first function, set a second parameter associated with a second function of the end effector based on the monitored first parameter, and drive the second function of the end effector using the second drive system.

Abstract: Methods, devices, and systems for controlling a tissue-treatment motion by a surgical instrument are disclosed.

Abstract: A surgical instrument is disclosed including an end effector configurable between an open state and a clamped state, a firing member movable from an unfired position toward a fired position during a firing stroke, a manually-driveable closure system, a motor-powered firing system, and a control system. The motor-powered firing system is configured to drive the firing member through the firing stroke. The control system is configured to detect, at a first time point, the end effector reaching the clamped state with the manually-driveable closure system, detect, at a second time point, the actuation of the motor-powered firing system, set a firing motion parameter of the motor-powered firing system based on an elapsed time from the first time point to the second time point, and drive the firing member through the firing stroke with the motor-powered firing system using the firing motion parameter.

Abstract: A method of operating a surgical instrument is disclosed. The surgical instrument includes an electronic system comprising an electric motor coupled to the end effector; a motor controller coupled to the motor; a parameter threshold detection module configured to monitor multiple parameter thresholds; a sensing module configured to sense tissue compression; a processor coupled to the parameter threshold detection module and the motor controller; and a memory coupled to the processor. The memory stores executable instructions that when executed by the processor cause the processor to monitor multiple levels of action thresholds and monitor speed of the motor and increment a drive unit of the motor, sense tissue compression, and provide rate and control feedback to the user of the surgical instrument.