Abstract: A method of intraoperatively selecting between a partial knee arthroplasty and total knee arthroplasty includes mounting a patient-specific three-dimensional surface of a convertible patient-specific guide in a unique position mating to a corresponding surface of a distal femoral bone. The convertible patient-specific guide includes an anterior portion and a distal portion a patellofemoral guide. One of a total knee arthroplasty and a partial knee arthroplasty is selected intraoperatively. If total knee arthroplasty is selected, first and second covers are removed from corresponding first and second distal guiding bore. First and second distal pins through the first and second distal guiding bores are registered on the bone. If partial knee arthroplasty is selected, the anterior portion is severed and removed along a frangible groove and the distal portion is used as a patellofemoral guide.

Abstract: An apparatus for use in tracking movement of a patella through a range of motion during a surgical navigation procedure, comprising a frame fixed in relation to the patella, a patella trial component associated with the frame for fixing the frame relative to the patella, and a reference array configured to attach to the frame, the reference array having first, second and third markers, the first, second and third markers being detectable by a surgical navigation system when exposed to a measurement field of the surgical navigation system.

Abstract: An array for use with a surgical navigation system is provided. The array comprises a frame and first, second and third markers attached to the frame. The first, second and third markers are detectable by a tracking system used in image guided surgery, and the first marker is movable relative to the frame. In one embodiment, at least one marker slides along the frame from a first position where it is held in place to a second position where it is also held in place. In another embodiment, one or more of the markers is removed from the frame at a first position and reattached to the frame at a second position. In still another embodiment, a portion of the frame itself moves with the movable marker.

Abstract: A method of performing a surgery is provided including a surgical navigation system having a tracking system, computer and monitor placed outside of a sterile field. An input pad and a tracking array attachable to a surgical instrument or bone are placed into the sterile field along with a probe having a probe array. The tracking array and the probe array are acquired by the tracking system and a virtual mouse is activated by positioning the probe relative to the input pad, thereby causing a mouse input to the computer with the virtual mouse.

Abstract: An apparatus for use in tracking movement of a patella through a range of motion during a surgical navigation procedure, comprising a frame fixed in relation to the patella, a patella trial component associated with the frame for fixing the frame relative to the patella, and a reference array configured to attach to the frame, the reference array having first, second and third markers, the first, second and third markers being detectable by a surgical navigation system when exposed to a measurement field of the surgical navigation system.

Abstract: A method of automatically registering a surgical navigation system to a patient's anatomy is provided. The method comprises programming a surgical navigation system with a first spatial relationship between a surgical component and a reference array connected to the surgical component, programming the surgical navigation system with a second spatial relationship between an anatomical feature of a patient and the surgical component, installing the surgical component on the patient such that the surgical component engages the anatomical feature in the second spatial relationship, and locating the reference array with the surgical navigation system. The navigation system automatically recognizes the position of the reference array relative to the patient's anatomy.

Abstract: A patient-specific alignment guide for an orthopedic implant. The alignment guide can include a body having first and second opposing surfaces, the second surface adapted for positioning over a skin surface, and at least one extension extending from the second surface body. The extension has a distal end defining a patient-specific end surface that is mateable in form-fitting manner with a subcutaneous portion of the patient's anatomy, and at least one guiding passage extending between the first surface of the body and the distal end of the extension.

Abstract: A surgical navigation system including a computer, a tracking system, and patient anatomical information. The surgical navigation system includes a structure based control system to enable a surgeon to reduce surgery time and costs. A virtual mouse or its functional equivalent is provided to enable a surgeon to access various features of the software based control system.

Abstract: A method of performing a surgery is provided including a surgical navigation system having a tracking system, computer and monitor placed outside of a sterile field. An input pad and a tracking array attachable to a surgical instrument or bone are placed into the sterile field along with a probe having a probe array. The tracking array and the probe array are acquired by the tracking system and a virtual mouse is activated by positioning the probe relative to the input pad, thereby causing a mouse input to the computer with the virtual mouse.

Abstract: A bone cutting apparatus configured to guide a surgical instrument during a bone cutting procedure is provided. The apparatus is attachable to a bone and comprises a cutting guide having a resection slot and a fine adjustment block coupled thereto. The fine adjustment block has a first adjustment dial configured to change the position of the resection slot relative to a resection plane. The system may further include a tracking element that is detectable and trackable by a surgical navigation system.

Abstract: An array for use with a surgical navigation system is provided. The array comprises a frame and first, second and third markers attached to the frame. The first, second and third markers are detectable by a tracking system used in image guided surgery, and the first marker is movable relative to the frame. In one embodiment, at least one marker slides along the frame from a first position where it is held in place to a second position where it is also held in place. In another embodiment, one or more of the markers is removed from the frame at a first position and reattached to the frame at a second position. In still another embodiment, a portion of the frame itself moves with the moveable marker.

Abstract: A surgical navigation system uses selective gesturing within a sterile field to provide inputs to a computer, which can reduce surgery time and costs. The teachings comprise configuring an array with at least a first marker and a second marker; exposing the array to a measurement field of the tracking system; occluding the exposure of either the first marker or the second marker to the tracking system within the sterile field; and assigning the occlusion of the first marker as a first input and assigning the occlusion of the second marker as a second input to the computer system, wherein the first input is different than the second input.

Abstract: A specially-programmed, computer-assisted surgery system is used to reduce the number of fluoroscopic images required to be taken during the course of a intramedullary nail procedure, eliminates the need for a Steinman pin, and assists the surgeon in properly aligning and securing the nail during insertion.

Abstract: A specially-programmed, computer-assisted surgery system is used to reduce the number of fluoroscopic images required to be taken during the course of a intramedullary nail procedure, eliminates the need for a Steinman pin, and assists the surgeon in properly aligning and securing the nail during insertion.