The present disclosure includes a polyaxial bone fixation element for use in spinal fixation to interconnect a longitudinal spinal rod with a patient's vertebra. The polyaxial bone fixation element preferably includes a bone anchor, a collet, a body, and a locking cap. The polyaxial bone fixation element preferably enables in-situ assembly. That is, the polyaxial bone fixation element is preferably configured so that in use, the bone anchor may be secured to the patient's vertebra prior to being received within the body. Accordingly, the polyaxial bone fixation element enables a surgeon to implant the bone anchor without the body to maximize visibility and access around the anchoring site. Once the bone anchor has been secured to the patient's vertebra, the body can be snapped-onto the bone anchor. The bone anchor preferably also includes a second tool interface so that a surgical instrument can be directly coupled to the bone anchor.

A method for stabilizing a leaking implanted device capable of being hydraulically adjusted by introducing or withdrawing hydraulic fluid to/from the device, the device having an inner space for enclosing the hydraulic fluid. The method comprises at least one of the steps of introducing at least one of: a solidifying fluid, an initiator adapted to exert influence on a solidifying fluid or the hydraulic fluid, and a mixture of a solidifying fluid and an initiator, into said leaking implanted hydraulically adjustable device for solidifying the solidifying fluid or the hydraulic fluid for permanently defining the volume and/or shape of the device, and repairing a leakage, puncture or rupture of the implanted hydraulically adjustable device by the introduction of a sealing component which forms a layer on the inside of the implanted hydraulically adjustable device preventing further leakage with retained function of the device, such that the repaired implanted hydraulically adjustable device can be hydraulically adjusted by introducing or withdrawing fluid to/from the device.

The purpose of the present invention is a new implant for a medical use enabling the fixing of at least two adjacent bone elements in a rapid, reliable and low-invasive manner. This implant is a device with three distinct parts. The present invention also describes a method for fixing at least two adjacent bone elements implementing this new implant. This method is especially suitable for the solidarization of at least two vertebrae for the realization of an arthrodesis; said implant having a curve shape that makes it particularly well adapted to the spine surgery.

The present disclosure includes a polyaxial bone fixation element for use in spinal fixation to interconnect a longitudinal spinal rod with a patient's vertebra. The polyaxial bone fixation element preferably includes a bone anchor, a collet, a body, and a locking cap. The polyaxial bone fixation element preferably enables in-situ assembly. That is, the polyaxial bone fixation element is preferably configured so that in use, the bone anchor may be secured to the patient's vertebra prior to being received within the body. Accordingly, the polyaxial bone fixation element enables a surgeon to implant the bone anchor without the body to maximize visibility and access around the anchoring site. Once the bone anchor has been secured to the patient's vertebra, the body can be snapped-onto the bone anchor. The bone anchor preferably also includes a second tool interface so that a surgical instrument can be directly coupled to the bone anchor.

An apparatus for forming a flowable material against a prosthetic implant can comprise a mold body having an outer surface and an inner surface. The inner surface can define a mold cavity that is selectively configured to at least partially accept the prosthetic implant in a forming position. An inlet port can be configured on the mold cavity that extends between the inner and outer surfaces. The mold cavity can substantially conform to a profile of a bone opposing surface of the prosthetic implant such that a void is created between the inner surface of the mold body and the bone opposing surface of the prosthetic implant. The inlet port can be configured to permit introduction of the flowable material into the void and against the bone opposing surface of the prosthetic implant.

The invention features improved bone screws, a delivery manifold for delivering a flowable medium to a bone screw, and washers for use with the bone screw to provide compressive fixation. The invention also features methods of treatment using the bone screws, washers, and/or delivery manifold, and kits that include the same.

A medical device for treating hip joint osteoarthritis in a human patient by providing at least one artificial hip joint surface. The medical device comprises a prosthetic part or a bone plug adapted to be placed in a hole in the pelvic bone and a supporting member connected to said prosthetic part or bone plug, wherein the prosthetic part or the bone plug is adapted to be inserted into said hole from the abdominal side of the acetabulum and oriented, during the insertion, such that the concave interior surface is facing in the direction towards the caput femur. Wherein the medical device comprises an artificial caput femur surface or artificial acetabulum surface, and wherein a largest cross-sectional distance of said artificial caput femur or acetabulum surface is smaller than said hole, such that said artificial caput femur surface can pass through said hole.

A system and methods for a safe and efficient distributing of bone graft material into an intervertebral disc space are provided. Systems are provided for receiving, removing, and replacing of preloaded load cartridges in a rapid and repeating manner. The systems can also be designed for rapidly delivering the biologics from a single load cartridge and, to even further facilitate a rapid and repeating delivery of biologics, the load cartridge and cartridge tamp can be adapted so that the cartridge tamp can capture and remove the load cartridge after delivery of fusion promoting material in the load cartridge.

A handling device for handling an augmentation implant is proposed, comprising an elongated housing having an axial through-bore for accommodating a sonotrode of an ultrasound applicator, and a lateral opening for inserting a pin magazine with an augmentation pin, wherein the axial through-bore and the lateral opening are connected to each other. The handling device further comprises a distal implant portion for fastening a proximal end of the augmentation implant at the housing, and a proximal tool portion for driving and/or augmenting the augmentation implant.

Disclosed is an implant through which a liquid or pasty material can be injected in a targeted manner. This implant is composed of: a main implant with a lumen extending along its entire length, the body of the main implant being of hexagonal cross section, with the plane faces drilled with internally threaded holes which open into the lumen and are intended to remain open or to be plugged by one or more micro screws of the complementary implants, the distal end and proximal end of the implant being threaded; one or more complementary implants, for each of which the micro screw thereof, intended to cooperate with the internally threaded holes of the main implant, is connected to its insertion sleeve by way of a separable zone. The implant is intended in particular for surgical interventions.