A medical implant assembly having at least two bone attachment structures cooperating with a dynamic longitudinal connecting member, the improvement wherein the connecting member includes: a first end, a transition portion, and a second end; a substantially rod portion extending longitudinally from the first end to the transition portion, and including a longitudinal axis and a substantially rigid core running substantially parallel with the longitudinal axis; a substantially cord portion joined with the rod portion and extending from the transition portion to the second end; and a substantially flexible jacket portion covering the rod and cord portions.

Devices, systems and methods for use in spinal surgeries. The system may include a fastener system comprising a fastener, a staple, and a locking cap. A cord may extend along the spine and through at least one fastener system. An instrument may be provided for tensioning the cord. The system may, for example, apply fixation on the convexity of the scoliotic vertebrae to limit growth on the convex side and allow unilateral growth on the concave side.

Device for fixing a bony structure to a support member, the device comprising a first connecting member which comprises: a main body provided with a first passage configured for receiving the support member, and with a first opening configured for passing a flexible member therethrough; and a rod fixed to and/or monobloc with the main body and protruding therefrom. The device further comprises a first flexible member passing through the first opening of the main body and extending beyond the main body for attachment to the bony structure.

A pivotal bone anchor assembly includes a receiver with an upper channel for receiving a rod and a central bore extending downward through the channel having a support surface adjacent a bottom opening, a guide and advancement structure adjacent the top of the receiver, and a downward-facing surface below the guide and advancement structure. The assembly also includes a shank with a head portion pivotably supported by the support surface with the shank extending downwardly through the bottom opening, and an insert with a lower surface engageable with the head portion of the shank, an insert channel for receiving the rod, an upward-facing surface located radially outward from the insert channel, and one or more slots configured to make the insert resiliently axially compressible when the upward-facing surface of the insert abuts the downward-facing surface of the central bore to apply a downwardly directed pressure against the head portion of the shank.

Spinal fixation systems including a member, a first attachment portion, a second attachment portion, and an intermediate portion. The first attachment portion is attached at a superior end of the member and includes a first opening. The second attachment portion is attached at an inferior end of the member and includes a second opening. The intermediate portion connects the first and second attachment portions. The spinal fixation systems may also include a relief in at least one of the first opening and the second opening. The systems may also include a third attachment portion with a third opening and an intermediate portion with a first and a second elastic mechanism. The first elastic mechanism connects the first and third attachment portions and the second elastic mechanism connects the third and second attachment portions. Surgical methods for inserting the spinal fixation systems in a patient are also disclosed.

Device for fixing a bony structure to a support member, the device comprising a first connecting member which comprises: a main body provided with a first passage configured for receiving the support member, and with a first opening configured for passing a flexible member therethrough; and a rod fixed to and/or monobloc with the main body and protruding therefrom. The device further comprises a first flexible member passing through the first opening of the main body and extending beyond the main body for attachment to the bony structure.

An improved flexible component used for dynamic stabilization of spinal segments for the treatment of vertebrae deformities and injuries and for the replacement of a complete or segment of the body of a vertebra in the spine is described. The flexible component is comprised of a suitable implant material with a longitudinal bore the entire length and an appropriately formed slots that extend spirally around the flexible spinal element either continuously or segmentally. The flexible component can be encapsulated, fully or partially, in a suitable implant grade elastomeric resilient material. When used for a dynamic stabilization device, the element is attached to the vertebral bodies by pedicle screws know to those in the art.

Spinal fixation systems including a member, a first attachment portion, a second attachment portion, and an intermediate portion. The first attachment portion is attached at a superior end of the member and includes a first opening. The second attachment portion is attached at an inferior end of the member and includes a second opening. The intermediate portion connects the first and second attachment portions. The spinal fixation systems may also include a relief in at least one of the first opening and the second opening. The systems may also include a third attachment portion with a third opening and an intermediate portion with a first and a second elastic mechanism. The first elastic mechanism connects the first and third attachment portions and the second elastic mechanism connects the third and second attachment portions. Surgical methods for inserting the spinal fixation systems in a patient are also disclosed.

A pivotal bone anchor assembly includes a receiver having a channel for receiving a rod and a central bore with a closure mating structure at an upper end, a resilient biasing structure protruding inwardly below the closure mating structure, and a seating surface proximate a bottom opening. The assembly also includes a shank that is top loadable through the central bore until an outer surface of the shank head engages the seating surface with the shank extending downward through the bottom opening. The assembly further includes a pressure insert having an upward-facing saddle for receiving the rod, a lower surface for engaging the shank head, and an alignment recess formed into an outer side surface. The pressure insert is first top loadable into the central bore and then rotatable until the saddle rotates into alignment with the open channel and the resilient biasing structure is received within the alignment recess to inhibit further rotation of the pressure insert with respect to the receiver.

A system for installing a vertebral stabilization system. The system includes an installation tool including a handle portion and a shaft extending distally from the handle portion. The shaft includes a conduit and a staple mechanism. The system also includes a flexible implant member extending along the conduit configured to be advanced out from a distal end of the shaft, and a staple housed in the staple mechanism. The staple is configured to secure the flexible implant member to a vertebra. The handle portion is configured to selectively advance the flexible implant member from the shaft and to selectively actuate the staple mechanism.