Abstract: Storage media, systems and methods are disclosed herein for analyzing data streams in real time. More particularly, storage media, systems and methods are presented for processing data streams to calculate results for prospective queries. The results may be advantageously computed prior to the formulation of the specific query, for example, based on a pre-established framework of potential query parameters. More particularly, a universe of potential queries may be extrapolated from the pre-established framework of potential query parameters. Results for each of the potential queries may them be tracked in real time. For example, results for each of the potential queries may be continuously updated based on real-time processing of events in a data stream.

Abstract: An apparatus to provide a regulated pressurized gas for introduction into the body of a patient during a medical procedure comprises an internal flow path through which to convey the pressurized gas, a regulator in the flow path to regulate the pressurized gas, and a biosensor to detect a body substance entering or in proximity to the flow path.

Abstract: A method and corresponding system for calculating an optimum surgical trajectory or path for displacing a surgical instrument through the interior of the body of a patient. Upon obtaining a volumetric scan of a patient, such as a CT scan, the surgeon can identify and assign weight values indicating a preference on whether an anatomical area be utilized in plotting an optimum instrument trajectory. Upon providing a starting and destination point for a surgical instrument, an optimum surgical trajectory can be determined in essentially real time and graphically presented to the surgeon by superimposing the proposed trajectory upon the patient's volumetric scan. Furthermore, the system and method is interactive, allowing the surgeon to deviate from the proposed optimum path if desired and choose another path. In response, the system will determine and present, in essentially real time, a new optimum trajectory based on the current location of the surgical instrument.

Abstract: An endoscopic surgical navigation system comprises a path correlation module that can compute the path taken by an endoscope scope or other medical instrument during an endoscopic medical procedure and various related attributes and parameters, and can compute and display a correlation between two paths.

Abstract: An endoscopic surgical navigation system comprises a tracking subsystem to capture data representing positions and orientations of a flexible endoscope during an endoscopic procedure, to allow coregistration of live endoscopic video with intra-operative and/or pre-operative scan images. Positions and orientations of the endoscope are detected using one or more sensors and/or other signal-producing elements disposed on the endoscope. The sensors include optical curvature sensors located along the endoscope, where the length of each optical curvature sensor decreases with increasing proximity to the distal end of the endoscope. Output signals of the sensors can be routed to the tracking subsystem through the light channel in the endoscope. A hybrid approach can be used to separately track the position and orientation of the (rigid) base and the flexible portion of the endoscope.

Abstract: A system and method for automatically reconfiguring the magnification or zoom level of a surgical camera based upon the detection of a surgical instrument or defined anatomical feature. Utilizing image analysis algorithms, the video images generated by the surgical camera are analyzed for the presence of defined patterns, colors, motion and the like, representing a defined surgical instrument or anatomical feature. Upon detection of a surgical instrument or anatomical feature, the system can automatically adjust the actual or effective focal range of the surgical camera, and thus change the magnification or zoom level of the camera, based on the type of surgical instrument or anatomical feature detected.

Abstract: A system and method for automatically reconfiguring the magnification or zoom level of a surgical camera based upon the detection of a surgical instrument or defined anatomical feature. Utilizing image analysis algorithms, the video images generated by the surgical camera are analyzed for the presence of defined patterns, colors, motion and the like, representing a defined surgical instrument or anatomical feature. Upon detection of a surgical instrument or anatomical feature, the system can automatically adjust the actual or effective focal range of the surgical camera, and thus change the magnification or zoom level of the camera, based on the type of surgical instrument or anatomical feature detected.

Abstract: A method and corresponding system for calculating an optimum surgical trajectory or path for displacing a surgical instrument through the interior of the body of a patient. Upon obtaining a volumetric scan of a patient, such as a CT scan, the surgeon can identify and assign weight values indicating a preference on whether an anatomical area be utilized in plotting an optimum instrument trajectory. Upon providing a starting and destination point for a surgical instrument, an optimum surgical trajectory can be determined in essentially real time and graphically presented to the surgeon by superimposing the proposed trajectory upon the patient's volumetric scan. Furthermore, the system and method is interactive, allowing the surgeon to deviate from the proposed optimum path if desired and choose another path. In response, the system will determine and present, in essentially real time, a new optimum trajectory based on the current location of the surgical instrument.

Abstract: An endoscopic surgical navigation system comprises a path correlation module that can compute the path taken by an endoscope scope or other medical instrument during endoscopic medical procedure and various related attributes and parameters, and can compute and display a correlation between two paths.

Abstract: An endoscopic surgical navigation system comprises a tracking subsystem to capture data representing positions and orientations of a flexible endoscope during an endoscopic procedure, to allow coregistration of live endoscopic video with intra-operative and/or pre-operative scan images. Positions and orientations of the endoscope are detected using one or more sensors and/or other signal-producing elements disposed on the endoscope. The sensors may include electromagnetic sensors, optical curvature sensors, or a combination thereof. Output signals of the sensors can be routed to the tracking subsystem through the light channel in the endoscope. A hybrid approach can be used to separately track the position and orientation of the (rigid) base and the flexible portion of the endoscope.

Abstract: An endoscopic surgical navigation system comprises a data acquisition subsystem, a tracking subsystem, a registration subsystem, a data processing subsystem and a user interface subsystem. The data acquisition subsystem inputs intra-operative scan data from a medical scanning device during an endoscopic procedure. The tracking subsystem captures data representing positions and orientations of a flexible endoscope during the endoscopic procedure. The registration subsystem determines transformation parameters for coregistering the intra-operative scan data and the data indicative of positions and orientations of the endoscope. The data processing subsystem coregisters the intra-operative scan data and the data indicative of positions and orientations of the endoscope based on the transformation parameters and generates real-time image data representing 3D internal views of a body that are coregistered with live video from an endoscopic video camera.

Abstract: An endoscopic surgical navigation system comprises a multi-dimensional video generation module that enables a user to visually navigate captured endoscopic video with six degrees of freedom. This capability provides the user with control of a virtual camera (point of view) that can be translated in three orthogonal axes in 3-D space as well as allowing control of vertical panning (pitch), horizontal panning (yaw) and tilt (roll) of the virtual camera, as well as zoom.

Abstract: An apparatus to provide a regulated pressurized gas for introduction into the body of a patient during a medical procedure comprises an internal flow path through which to convey the pressurized gas, a regulator in the flow path to regulate the pressurized gas, and a biosensor to detect a body substance entering or in proximity to the flow path.

Abstract: A system and method for tracking the three-dimensional position and orientation of a surgical instrument as the instrument is being utilized within the interior of a patient body. A stereoscopic camera system generates a stereoscopic image of the patient body which is subsequently rendered on a display device. A wireless signal transmitted by an electromagnetic field generator is received by a sensor on the surgical instrument. Utilizing this sensor data, a processor calculates the position and orientation of the surgical instrument and then superimposes upon the rendered stereoscopic image of the patient body a graphical representation indicative of the position and orientation of the surgical instrument.