The present invention relates to miniature biosensor technology which can be directly embedded into medical device technology to create a new category of multifunctional smart medical devices. The resulting data from these smart medical devices results in wireless communication networks and standardized referenceable databases, which are used in the creation of best practice guidelines, clinical decision support tools, personalized medicine applications, and comparative technology assessment.

Prostheses are described for stabilizing dysfunctional bone structures. The prostheses have proximal and distal ends, and an expandable mid-region disposed therebetween. The expandable mid-region includes a plurality of deflectable elongate members that are configured and adapted to transition from a compressed configuration to a deflected configuration when released from a deployment apparatus, whereby the plurality of deflectable elongate members deflects outwardly when the elongated member is inserted into a pilot opening of a dysfunctional bone structure, whereby the plurality of elongate members exerts a retaining force on the internal surface of the pilot opening and secures the elongated member in the pilot opening and, thereby, the dysfunctional bone structure.

A method of providing access to an intervertebral disc has been developed that involves using the patient's bony pedicle as an anchoring spot for a pedicle screw that temporarily attaches to the access port. Because this new procedure eliminates the need for the surgical table as an anchor, it also eliminates the assembly components extending from the table to the port at the access site, thereby unencumbering the surgeon's view and workspace while providing minimally invasive access. One key element of the method is an assembly comprising: a) a screw extension comprising a shaft having a distal end portion comprising a receiver adapted for receiving a screw and a proximal end portion comprising a pivoting feature, b) a port comprising: j) a tubular wall defining a central passageway, ii) a longitudinal slot in the wall defining opposed ends of the wall, iii) opposed flanges extending radially from each end of the wall, and iv) a mating feature disposed in each opposed flanges adapted to pivotally mate with the pivoting feature of the screw extension, wherein the mating feature of the tube pivotally mates with the pivoting feature of the screw extension.

A surgical instrument includes a first member having an inner surface and an outer surface. A second member has an inner surface and an outer surface. The outer surfaces are engageable with tissue adjacent a spine that defines a longitudinal axis. The members are relatively movable between a first configuration and a second configuration to space the tissue. In the first configuration, the members are disposable between a first position such that the inner surfaces define a substantially oval cavity that defines a major axis substantially aligned with the longitudinal axis and a second position such that the major axis is rotated relative to the longitudinal axis to space psoas tissue. Systems and methods are disclosed.

Surgical visualization systems and related methods are disclosed herein, e.g., for providing visualization during surgical procedures. Systems and methods herein can be used in a wide range of surgical procedures, including spinal surgeries such as minimally-invasive fusion or discectomy procedures. Systems and methods herein can include various features for enhancing end user experience, improving clinical outcomes, or reducing the invasiveness of a surgery. Exemplary features can include access port integration, hands-free operation, active and/or passive lens cleaning, adjustable camera depth, and many others.

Configurations are described for conducting minimally invasive medical interventions utilizing elongate instruments and assemblies thereof to stabilize and/or fixate a sacro-iliac joint. In one embodiment, a tool assembly may be advanced from a posterior approach into the SI junction and configured to create a defect defined at least in part by portions of both the sacrum and the ilium, the defect having a three dimensional shape defined in part by at least one noncircular cross sectional shape in a plane substantially perpendicular to the longitudinal axis of the tool assembly. After a defect is created, the tool assembly may be retracted and a prosthesis deployed into the defect.

An insertion device for deploying an implant includes an elongated main body having a distal locking portion for coupling to the implant and a proximal handle portion. The main body defines a central passage and the distal locking portion has outer ridges and slots to allow the outer ridges to flex radially inward when mounting to the implant. A plunger slides in the central passage for movement between an unlocked position for mounting the implant on the distal locking portion, a locked position for locking the implant on the distal locking portion, and an insertion instrument deployed position for deploying the actuation plunger to move the blades from the stowed position to the deployed position. A spike cap drive rotatably mounts on the main body having a socket end for engaging a drive nut on the implant to, in turn, move the spike cap.

A sacroiliac joint fusion system including a joint implant, an anchor element and a delivery tool including an implant arm, an anchor arm, and a positioning arm coupling the implant arm and the anchor arm. The implant arm includes an implant shaft extending between a proximal end and a distal end of the implant arm. The anchor arm including an anchor shaft extending between a proximal end and a distal end of the anchor arm. The positioning arm coupled with the implant arm at a first end and coupled with the anchor arm at a second end.

Anchoring devices, anchoring systems for intervertebral implants, intervertebral implants, and instruments and methods for implanting implants are disclosed. In preferred configurations, these various objects share the feature of comprising or cooperating with an anchoring device having a body comprising at least one curved plate elongated along a longitudinal axis, designed to be inserted through a passage crossing at least a part of implant, in order to penetrate into at least one vertebral endplate and attach implant onto this vertebral endplate by means of at least one stop retaining the implant, characterized in that the body comprises at least one longitudinal rib on at least a part of at least one of its faces, said rib being designed to cooperate with a groove made in passage of implant. In some preferred configurations, anchoring device comprises withdrawal stops or latches, and/or means for withdrawing the anchor from an inserted position.

A medical apparatus for parallel alignment of at least two medical instruments for holding and manipulating a surgical fastening element is described. The fastening element includes a fastening part and a holding part for a connection element, the holding part being movably mounted relative to the fastening part in a mounting position. The medical instruments have a distal end couplable to the fastening element. The apparatus includes at least two coupling devices, each defining a coupling longitudinal axis, for temporary coupling with proximal ends of the at least two medical instruments, wherein the apparatus comprises a frame, wherein the coupling longitudinal axes of the at least two coupling devices are alignable parallel to one another. Improved sets of medical instruments and improved spine stabilization systems are also described.