An elastic suture needle for passing through a smaller cannula used in minimally invasive surgery includes an elongated body having a proximal end, a distal end, a length extending from the proximal end to the distal end, a top surface extending along the length of the elongated body, and a bottom surface extending along the length of the elongated body. The elongated body has dimensions that are calculated using the equation T/L.sub.N < (2*.sub.σ)/(πE), where T is the thickness of the elongated body, L.sub.N is the length of the neutral axis of the elongated body, σ is the yield strength of the elongated body, and E is the Young’s modulus of the elongated body. The elongated body is made of stainless steels such as martensitic stainless steels, austenitic stainless steels, martensitic-aged (mar-aged) stainless steels, and stainless steels sold under the registered trademark ETHALLOY® Needle Alloy.

A surgical system, method, and apparatus for suturing a first anatomical structure to a second anatomical structure of a subject includes an endoscope tube for being advanced through a lumen of the first anatomical structure to a surgical site near the second anatomical structure. A manipulator arm extends through the endoscope tube to the surgical site, and includes a first concentric tube manipulator with an end effector configured to grasp and manipulate a suture at the surgical site. A needle arm extends through the endoscope tube to the surgical site, and includes a second concentric tube manipulator with a needle tip configured to pierce the tissue of the first and second anatomical structures. The needle arm is also configured to grasp the suture and to retract and pull the suture through the pierced tissue so that the suture extends through and forms stitching that stitches together the first and second anatomical structures.

An end effector for use with a surgical device is provided. The end effector includes a drive assembly, a driver, a needle assembly and a biasing element. The driver is disposed in mechanical cooperation with the drive assembly. Rotation of the drive assembly in a first direction causes distal translation of the driver with respect to the drive assembly. The needle assembly is disposed in mechanical cooperation with the driver. Distal translation of the driver causes a corresponding distal translation of the needle assembly. The biasing element is disposed in mechanical cooperation with the needle assembly and is configured to bias the needle assembly proximally.

An example medical system includes a medical device configured to join the edges of the leaflets together, an elongate body configured to be navigated through vasculature to a heart valve of patient, and a plurality of tissue engagement devices extending from a distal end of the elongate body, each tissue engagement device comprising at least one clamp configured to capture leaflets of the heart valve.

A novel method of blackening surgical needles is disclosed. Surgical needles having outer surfaces are first placed into a first pretreatment bath having a novel composition. The needles are then placed into a second blackening bath having a novel composition for a sufficient period of time to effectively blacken the surfaces of the needles. The novel methods for blackening the surfaces of a stainless steel alloy surgical needle provide a chromium (VI)-free alternative to current needle manufacturing processes. Another unique feature of this novel method is its short processing time. The blackening processes of the present invention can be utilized for in-line treatment processes which can be easily incorporated into high speed needle manufacturing processes, such as strip mounted processes. In addition, the processes of the present invention are readily adaptable to batch processes. Also disclosed are novel systems for blackening surgical needles and novel blackening baths for surgical needles.

A suture apparatus having a housing, actuator and capture rod, the actuator being engaged to the capture rod to form an actuator-capture rod assembly, an elongated cannula shaft having a lumen that extends through the shaft, and capture rod retraction means, the housing including an internal region that is configured to receive and support the capture rod retraction means, actuator proximal end and actuator rod distal end therein, wherein said capture rod retraction means is in communication with said actuator. The actuator-capture rod assembly and capture rod retraction means being positioned and configured to transition from a retracted position to an extended position when an actuation force is applied to the actuator and return the retracted position by the retraction means when the actuation force is released.

A medical device and method of use comprising a base portion having a length extending from proximal end and a distal end and a width extending from a first side to a laterally opposed second side. At least one arm extending from at least one of the first or second sides, the at least one arm extending a distance greater than the width of the base portion. The arm being configured to extend around at least a portion of a cervical isthmus.

A loading fixture for use with an endoscopic stitching device includes a needle and a loading portion configured to receive jaws of the endoscopic stitching device. The loading portion includes a shuttle configured to detachably support the needle thereon. The shuttle is transversely slidable such that the needle supported on the shuttle engages at least one of the jaws of the endoscopic stitching device. The loading portion further includes guides to position the jaws of the endoscopic stitching device therebetween and a biasing member configured to bias the shuttle toward one of the guides.

A surgical closure apparatus includes an outer member dimensioned for positioning within a wound opening, a needle assembly at least partially positioned within the outer member and a suture configured for at least partially closing the wound opening within the tissue. The needle assembly includes an elongate member defining a longitudinal opening, a suture needle coupled to the elongate member and extending to a needlepoint and being configured for movement between an unarmed condition where the needlepoint is in a relative radial inward position and an armed condition where the needlepoint is in a relative radial outward position and a deployment member extending at least partially through the longitudinal opening of the elongate member and coupled to the suture needle. The deployment member is movable within the longitudinal opening to permit the suture needle to move between the unarmed condition and the armed condition.

A loader for a surgical suturing instrument is disclosed. The loader has a head having a protrusion configured to be releasably held by a tissue bite area of a surgical suturing instrument. The loader also has a tube interface. The loader further has one or more ferrule holders. The loader also has one or more ferrules, each corresponding to and held by one of the one or more ferrule holders and coupled to a suture end that leads from a tube releasably held by the tube interface.