A surgical instrument comprising a lockout is disclosed.

A surgical instrument comprising an end effector is disclosed. The end effector comprises a staple cartridge including a cartridge body comprising an annular array of staple cavities, staples removably stored in the staple cavities, a firing drive configured to eject the staples from the staple cavities, and a cutting member circumscribed by the staple cavities. The end effector further comprises an anvil including a tissue compression surface, forming surfaces configured to deform the staples and a tissue block. The anvil is movable toward the cartridge body to compress tissue between the cartridge body and the tissue block and the cutting member is configured to incise the tissue and the tissue block during a cutting stroke of the cutting member.

The present invention relates to mechanical transmission system (100, MTS) having a proximal (20) and distal end (40), for a longitudinal steerable tube (500), which MTS (100) comprises a set of longitudinal members, LM, (110) arranged in a longitudinal direction around a fictive tube (180) maintained at an essentially constant circumferential and radial position with respect to the fictive tube (180) and being slidable relative to the fictive tube (180), and has a transmission bendable proximal part (134, TBPP), transmission bendable distal part (130, TBDP), and transmission shaft region, TSR (132) between the TBDP (130) and TBPP (134) wherein movements of the TBPP (134) are transmitted to the TBDP (130) along the TSR (132) by the LMs (110), wherein the MTS (100) comprises a sub-region that is a transmission amplifier region, TAR, (135) in which the fictive tube (180) contains at least one plane-section (182) larger than that (184) of the TBDP (130).

A surgical instrument includes a first power source and a second power source. The first power source is configured to deliver power to a surgical instrument at a first rate of discharge. The second power source is configured to deliver power to the first power source at a second rate of discharge. The first power source and the second power source are positioned within the surgical instrument. The first power source and the second power source are further configured to communicate with a control module. The control module may rely on power from the first power source to drive an end effector of the surgical instrument. The end effector may comprise a harmonic/ultrasonic blade, RF electrosurgical electrodes, powered cutting/stapling features, and/or various other types of components.

A snakelike surgical instrument, comprising a handheld structure (2); an manipulating structure (1) comprising an outer frame (13) hingedly connected to the handheld structure (2) so that the manipulating structure (1) has a rotational degree of freedom (R1′) around a first axis and an inner frame (14) hingedly connected to the outer frame (13) so that the manipulating structure (1) has a rotational degree of freedom (R2′) around a second axis, the first axis and the second axis forming an angle; an end unit (4) connected to the handheld structure (2) by means of a connecting component (3) and comprising a tool supporting base (41) and a snakelike structure (40) connected to the tool supporting base (41), the snakelike structure (40) having degrees of freedom of motion (R1, R2) in the same direction as the manipulating structure (1); and a transmission unit (5) comprising a flexible transmission structure connected to the inner frame (14) and the snakelike structure (40). A mechanical transmission mode is used by the snakelike surgical instrument, the motion of a handheld side can be directly transmitted to the end unit (4), complicated force feedback control is avoided, and control is simple.

A tool comprises an articulation mechanism comprising a pair of links. The pair of links include a proximal link on a proximal portion of the tool and a distal link on a distal portion of the tool. Movement of the proximal link causes corresponding relative movement of the distal link. The tool further includes an end effector coupled to the distal link, an elongated shaft extending along a longitudinal axis between the proximal and distal links, and a rotating member operably coupled to the shaft. The tool further includes an articulation lock adjustable between a locked configuration in which the proximal link, the distal link, and the end effector are held in a fixed orientation with respect to the shaft while the rotating member is operable to rotate the shaft about the longitudinal axis and an unlocked configuration in which the end effector is movable with respect to the shaft.

A mechanical transmission system, MTS (100), for a steerable tool (500) which steerable tool (500) has a proximal end (20) and distal end (40) and comprises a shaft region (532), a bendable proximal part, BPP (534) that is omnidirectionally moveable, and a bendable distal part, BDP, (530) that is omnidirectionally moveable and moves responsive to movement of the BPP (534), which MTS (100) comprises a plurality of longitudinal members, LM (110) each having a proximal (20) and distal end (40), arranged in a longitudinal direction around a fictive tube (120), and has a corresponding transmission shaft region, TSR (132), transmission bendable proximal part, TBPP (134) and transmission bendable distal part, TBDP (130), wherein a plane section (114) of at least one LM (110) demonstrates an anisotropic area moment of inertia, and the majority of the LMs (110) are each axially rotationally constrained at 1 or more constraining points along the TBDP (130) or along the TSR (132) wherein the LMs are longitudinally slidable with respect to each discrete constraining point, and the MTS (100) is configured such that the BDP (530) tip is axially rotationable in a bent position by a complementary rotation of the BPP (534).

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.

An obturator assembly with a rotatable and cannulated obturator shaft for inserting a cannula into a human joint space. The obturator assemblies includes an elongated body having a proximal end and a distal end with a channel extending along an inner surface of the elongated body. The obturator assembly also includes a locking mechanism connected within the elongated body. The locking mechanism is rotatable between a first configuration and a second configuration. A cannulated obturator shaft is attached to the locking mechanism and is rotatable between the first configuration and the second configuration via the locking mechanism. The obturator assembly has a latch assembly connected to the cannulated obturator shaft which is rotatable between the first configuration and second configuration via the locking mechanism. The latch assembly securely and removably attaches to a cannula.

Provided are an end tool of a surgical instrument and a method of manufacturing the same, and more particularly, an end tool of a surgical instrument that may be manually operated to be used in laparoscopic surgery or other various surgery and a method of manufacturing the end tool, wherein a load applied to a pin (rotary shaft) and the pulley is appropriately distributed such that the pulley may be sufficiently rotated and at the same time, an overall durability may be improved.