An assembly allowing retraction of soft tissue away from a reference plane; the assembly including at least one retracting element each having a distal end with a formation allowing anchorage of the at least one retracting element. The assembly also includes a proximal end of the at least one retracting element capable of movement through at least one degree of freedom relative to the anchorage.

A circular stapling device includes a reload assembly having a housing, an annular staple cartridge, and grasping members. The housing and the staple cartridge define channels that receive the grasping members. The grasping members are movable through the channels between retracted and extended positions to grasp tissue and pull the tissue into the housing during an anastomosis procedure.

A surgical device comprising a shaft comprised of a first end and a second end; a clamp configured to be locked or unlocked attached to the first end of the shaft; an actuator shaft that is removably coupled to the shaft and configured to open and close the clamp; and optionally an anchor.

A device for the retraction of soft tissue in a patient undergoing arthroscopic surgery, comprising a pulling element extending in its own main direction between a first end and a second end, the latter being fitted with a hooking body configured to pass through the soft tissue of a patient and engage in the soft tissue following the traction of the pulling element towards the first end. The device further comprises a presser body suitable to press on the skin of the patient and connectable to the pulling element in at least one operating position placed at a fixed distance from the second end, wherein the fixed distance is such as to define a housing for the layers of soft tissue of the patient engaged by the hooking body.

A surgical towel clamp apparatus includes a first elongated element having a curved tip and a right finger ring, a second elongated element having a curved tip and a left finger ring, wherein the first and second elongated elements are coupled at a first pivot point, a third elongated element having a straight tip and coupled to the right finger ring, a fourth elongated element having a straight tip and coupled to the left finger ring, wherein the third and fourth elongated elements are coupled at a second pivot point, wherein in an open orientation, the rings are apart, the curved tips are apart, and the straight tips are apart, and wherein in a closed orientation, the left and right finger rings are adjacent, the curved tips are in contact and the straight tips are in contact.

A gear arrangement including two drive units (210, 220, 310, 320, 410), and two translatory transmission elements (151, 152, 251, 252, 351, 352), to each of which a rotationally movable function unit (141, 142) of a distally arranged two-part end effector (140) can be coupled. The first drive unit (210, 310, 410) has at least one proximally arranged rotation element (311, 411) or a thrust element (210) for opening or closing the end effector (140) by rotation of at least one function unit (141, 142). The second drive unit (220, 320), with which the translatory transmission elements (151, 152, 251, 252, 351, 352) are movable in opposite directions, has at least one proximally arranged rotation element (224, 320, 421) for simultaneous and unidirectional pivoting of the function units (141, 142) of the end effector (140). A surgical instrument includes the gear arrangement (200, 300, 400) in the handle (180).

Clamping forceps device includes two clamps in pivotal connection to one another and each having an operator end for being operated by a health care provider. The device also includes an extension extending aft of the operator end of each clamp, the extension forming a space therebetween sized to form a disconnecting wedge mechanism for separating a tube from a patient tube connector. Each extension defines a ramped surface increasing in thickness moving from an extension tip towards the operator end.

A clamping system having a clamp head, forceps, and a mechanical actuator. The clamp head has a first clamp or arm, a second clamp arm, a tubular neck, and a drive shaft that extends through the tubular neck. The first clamp arm is moved relative to the second clamp arm by selectively rotating the drive shaft. The forceps have a jaw section. The jaw section has a ring clamp that is sized to receive and retain the tubular neck on the clamp head. A mechanical actuator attaches to the forceps. The mechanical actuator has an elongated shaft that aligns with the drive shaft of the clamp head when the ring clamp is closed around the tubular neck of the clamp head. The alignment enables the mechanical actuator to engage the drive shaft and turn the drive shaft when the mechanical actuator is manipulated.

A medical clip for holding a medical device. The medical clip includes a first jaw and a second jaw rotatably coupled to the first jaw, the first jaw and the second jaw being rotatable with respect to each other between a closed position and an open position; an elastomeric insert configured to be positioned between the first jaw and the second jaw. The elastomeric insert defining a cavity having a cavity depth that receives a medical device between the first jaw and the second jaw. In the closed position, a distal face of the first jaw and the second jaw define a distal opening configured to receive a portion of the medical device through the distal opening; and, a proximal face of the first jaw and the second jaw define a proximal opening configured to receive a second portion of the medical device through the proximal opening.

A jaw assembly for a surgical tubular shaft instrument includes a supporting component, a first arm and a second arm, the first arm and/or the second arm each having one link element. The arms are held by the supporting component in the axial direction. A cam carrier element is axially movable relative to the supporting component and carries at least two cams. Each link element is designed to be in contact with at least two cams when there is a relative axial movement between the supporting component and the cam carrier element, the cams being provided on the cam carrier element. Each link element is further designed to slide off of the cams to effect an opening or closing of the jaw assembly.