Within examples, a surgical device with an embedded sensor system for performing hip replacements is described. This device mitigates fracturing of the mid metaphyseal/diaphyseal region of the femur, and ensures adequate press-fit of the component into the bone. The device relays information regarding forces experienced by the patient's bone to a separate data acquisition device and displays it on an interface. This information is used by the surgeon to determine the force present inside of the patient's bone during broaching, and can then be used to provide better care, and mitigate fractures due to overloading in the bone.

Devices and methods for use in a hip replacement surgical procedure. One aspect includes methods and devices for reaming selective regions of the femoral canal. This may include reaming distal and proximal sections of the femoral canal prior to reaming a middle region of the canal. Another aspect includes a dummy implant and methods of use. The dummy implant is inserted into the femoral canal and may be used for one or more of retraction of the femur, gauging a space with the acetabulum, and further revising the femoral cut. The aspects may be used together in a single surgical procedure or separately in different surgical procedures.

Disclosed is a unit for reaming of the surface of joint cartilage and of periarticular bone of an acetabulum and femoral head, used in orthopaedical surgery, being used as equipment to prepare the surface of cartilage and periarticular bone for endoprosthesis implantation. The unit is has at least two burrs with a slanting end of the cutting blade and an arc shape, ending with a ball-shaped pivot, placed in the guides of a matrix, whereas each of the burrs is placed in a channel of a shaped body, whereas the body is connected by a joint with the unit's drive mechanism.

A surgical device may include a tube and a cutting blade movable between a first position in which the cutting blade is concealed inside the tube and a second position in which the cutting blade is exposed through a sidewall of the tube.

A milling assembly for orthopaedic surgery includes: a milling body including a coupling section with a body coupler, a pilot stem extending from the coupling section, an exterior wall, and a window formed in the exterior wall; and a milling frame that is coupled to the milling body. The milling frame includes a frame coupler that is coupled to the body coupler and a reamer guiding section. The reamer guiding section has a reamer slot that is aligned with the window of the milling body when the frame coupler is coupled to the body coupler.

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 for penetrating the lateral cortex of a long bone includes a tubular cortex penetrator having an inner surface and an outer surface, a proximal end, and a distal end comprising a beveled cutting edge configured to penetrate the lateral cortex. A guide wire is configured to pass over the tubular cortex penetrator, and a guide sleeve is configured to surround the outer surface of the tubular cortex penetrator. A hollow extraction screw with an axial bore, a proximal end, a distal end, and a threaded cutting edge is configured to pass through the axial bore of the hollow extraction screw; and the hollow extraction screw is configured to retract into a distal end of a bore through the tubular cortex penetrator.

A surgical instrument for releasably connecting to a surgical tool, having three main sections that are able to articulate 360 degrees in 60-degree increments. The articulation of the sections allows for the distal end of the surgical instrument to be spatially offset from the proximal end, yet maintain parallel longitudinal axes. Varying surgical tools can be connected to the surgical instrument via an adapter.

Systems and methods may display an indication of an impact force from a driving device. A method may include displaying the indication of the impact force with a light. The light may be located on the driving device, a component attached to the driving device, a user interface, or the like. Different colors may be used to indicate different impact forces. For example, a first light color may correspond to an impact force below a first threshold, a second light color may correspond to an impact force above a second threshold, and a third light color may correspond to an impact force between the thresholds. The impact force may be detected using a sensor, which may output a voltage to cause the illumination.

Treating femoroacetrabular impingement. At least one example is a method comprising: monitoring, by a procedure controller, location of a first member of an acetabulofemoral joint in a three-dimensional coordinate space; tracking, by the procedure controller, an amount of bone resected from the first member of the acetabulofemoral joint by tracking a distal end of a resection device in the three-dimensional coordinate space; and controlling, by the procedure controller, a rate of resection of the resection device based on the location of the distal end of the resection device relative to a planned resection volume associated the first member of the acetabulofemoral joint.