Patent application number | Description | Published |
20090312629 | CORRECTION OF RELATIVE TRACKING ERRORS BASED ON A FIDUCIAL - Presented herein are methods, systems, devices, and computer-readable media for correction of relative tracking error based on a fiducial. One embodiment is a method for the correction of obtained emplacement data of two surgical instruments by the detection of a detectable fiducial coupled to first surgical instrument by a second surgical instrument or something thereto coupled. The corrected relative emplacements of both surgical instruments is then determined based on the emplacement of the fiducial. This corrected emplacement is then used to produce an image for display. Systems and devices for carrying out the presented methods are also described. | 12-17-2009 |
20100268067 | SYSTEMS, METHODS, APPARATUSES, AND COMPUTER-READABLE MEDIA FOR IMAGE GUIDED SURGERY - Presented herein are methods, systems, devices, and computer-readable media for image guided surgery. The systems herein allow a physician to use multiple instruments for a surgery and simultaneously provide image-guidance data for those instruments. Various embodiments disclosed herein provide information to physicians about procedures they are performing, the devices (such as ablation needles, ultrasound wands or probes, scalpels, cauterizers, etc.) they are using during the procedure, the relative emplacements or poses of these devices, prediction information for those devices, and other information. Some embodiments provide useful information about 3D data sets. Additionally, some embodiments provide for quickly calibratable surgical instruments or attachments for surgical instruments. | 10-21-2010 |
20110082351 | REPRESENTING MEASUREMENT INFORMATION DURING A MEDICAL PROCEDURE - Various embodiments herein provide for representing measurement information during a medical procedure. Pose information is determined for one or more sensors. Measurements for the one or more sensors are then determined. The measurements can include measurements (e.g., temperature, radiation levels, etc.) of the sensors themselves as well as estimated measurements for other parts of the medical scene determined based on the sensors. After receiving the measurements, the measurements may be displayed relative to the rest of the procedure in a rendered 3D scene so that the doctor may be able to see measurements for various parts of the medical scene. Other embodiments herein provide for reducing the number of trackers needed to track and display a medical procedure based on a 3D model of the scene. | 04-07-2011 |
20110130641 | IMAGER FOCUSING BASED ON INTRAOPERATIVE DATA - Various embodiments herein provide for imager focusing based on intraoperative data. Ideally, an imaging plane of an ultrasound transducer would be truly planar. That is not the case, though. Instead, ultrasound transducers image a volume that is closer to a rectangular volume, but that has focal depths or areas in the imaged volume that are “thinner” and provide a better resolution. In general, embodiments herein may include determining the pose of an imager, such as an ultrasound transducer, and the pose of a location of interest. Based on those poses, a focal adjustment may be determined in order to, for example, better focus the imager on the object of interest. Then data is generated and the focus of the imager is adjusted. Additionally, imaging data and/or the object of interest may be displayed. In other embodiments, estimated projections of medical devices are displayed to allow for better intraoperative planning. | 06-02-2011 |
20110137156 | SYSTEMS, METHODS, APPARATUSES, AND COMPUTER-READABLE MEDIA FOR IMAGE MANAGEMENT IN IMAGE-GUIDED MEDICAL PROCEDURES - Presented herein are methods, systems, devices, and computer-readable media for image management in image-guided medical procedures. Some embodiments herein allow a physician to use multiple instruments for a surgery and simultaneously provide image-guidance data for those instruments. Various embodiments disclosed herein provide information to physicians about procedures they are performing, the devices (such as ablation needles, ultrasound transducers or probes, scalpels, cauterizers, etc.) they are using during the procedure, the relative emplacements or poses of these devices, prediction information for those devices, and other information. Some embodiments provide useful information about 3D data sets and allow the operator to control the presentation of regions of interest. Additionally, some embodiments provide for quick calibration of surgical instruments or attachments for surgical instruments. | 06-09-2011 |
20110251483 | IMAGE ANNOTATION IN IMAGE-GUIDED MEDICAL PROCEDURES - Presented herein are methods, systems, devices, and computer-readable media for image annotation in image-guided medical procedures. Some embodiments herein allow physicians or other operators to use one or more medical devices in order to define annotations in 3D space. These annotations may later be displayed to the physician or operator in 3D space in the position in which they were first drawn or otherwise generated. In some embodiments, the operator may use various available medical devices, such as needles, scalpels, or even a finger in order to define the annotation. Embodiments herein may allow an operator to more conveniently and efficiently annotate visualizable medical data. | 10-13-2011 |
20120101370 | SYSTEMS, METHODS, APPARATUSES, AND COMPUTER-READABLE MEDIA FOR IMAGE GUIDED SURGERY - Presented herein are methods, systems, devices, and computer-readable media for image guided surgery. The systems herein allow a physician to use multiple instruments for a surgery and simultaneously provide image-guidance data for those instruments. Various embodiments disclosed herein provide information to physicians about procedures they are performing, the devices (such as ablation needles, ultrasound wands or probes, scalpels, cauterizers, etc.) they are using during the procedure, the relative emplacements or poses of these devices, prediction information for those devices, and other information. Some embodiments provide useful information about 3D data sets. Additionally, some embodiments provide for quickly calibratable surgical instruments or attachments for surgical instruments. | 04-26-2012 |
20130129175 | SYSTEMS AND METHODS FOR DISPLAYING GUIDANCE DATA BASED ON UPDATED DEFORMABLE IMAGING DATA - Presented herein are methods, systems, and computer-readable medium for presenting imaging data related to an anatomical site. These include obtaining a first set of imaging data related to the anatomical site and tracking units at the anatomical site and, thereafter, optionally, obtaining a second set of imaging data related to the anatomical site. A deformed version of the first set of imaging data is then determined based on the relative arrangements of one or more of the tracking units at the time when the first set of imaging data is obtained and when the second set of imaging data is obtained. Then the relative emplacements of the second set of imaging data set and of the deformed version of the first set of imaging data set are determined and used, along with the second set of imaging data set and the deformed version of the first set of imaging data, as a basis for displaying image guidance data. | 05-23-2013 |
20130197357 | MULTIPLE MEDICAL DEVICE GUIDANCE - A system and method for providing image guidance for placement of one or more medical devices at a target location. The system receives emplacement information of medical devices within a predetermined area. The system calculates a viewing angle in a virtual 3D space of a plurality of virtual medical devices corresponding to the plurality of medical devices. The system also causes a display device to display the plurality of virtual medical devices based at least on the calculated viewing angle. | 08-01-2013 |
20140094687 | IMAGE ANNOTATION IN IMAGE-GUIDED MEDICAL PROCEDURES - Presented herein are methods, systems, devices, and computer-readable media for image annotation in image-guided medical procedures. Some embodiments herein allow physicians or other operators to use one or more medical devices in order to define annotations in 3D space. These annotations may later be displayed to the physician or operator in 3D space in the position in which they were first drawn or otherwise generated. In some embodiments, the operator may use various available medical devices, such as needles, scalpels, or even a finger in order to define the annotation. Embodiments herein may allow an operator to more conveniently and efficiently annotate visualizable medical data. | 04-03-2014 |
20140142425 | SYSTEMS, METHODS, APPARATUSES, AND COMPUTER-READABLE MEDIA FOR IMAGE GUIDED SURGERY - Presented herein are methods, systems, devices, and computer-readable media for image guided surgery. The systems herein allow a physician to use multiple instruments for a surgery and simultaneously provide image-guidance data for those instruments. Various embodiments disclosed herein provide information to physicians about procedures they are performing, the devices (such as ablation needles, ultrasound wands or probes, scalpels, cauterizers, etc.) they are using during the procedure, the relative emplacements or poses of these devices, prediction information for those devices, and other information. Some embodiments provide useful information about 3D data sets. Additionally, some embodiments provide for quickly calibratable surgical instruments or attachments for surgical instruments. | 05-22-2014 |
20140142426 | SYSTEMS, METHODS, APPARATUSES, AND COMPUTER-READABLE MEDIA FOR IMAGE MANAGEMENT IN IMAGE-GUIDED MEDICAL PROCEDURES - Presented herein are methods, systems, devices, and computer-readable media for image management in image-guided medical procedures. Some embodiments herein allow a physician to use multiple instruments for a surgery and simultaneously provide image-guidance data for those instruments. Various embodiments disclosed herein provide information to physicians about procedures they are performing, the devices (such as ablation needles, ultrasound transducers or probes, scalpels, cauterizers, etc.) they are using during the procedure, the relative emplacements or poses of these devices, prediction information for those devices, and other information. Some embodiments provide useful information about 3D data sets and allow the operator to control the presentation of regions of interest. Additionally, some embodiments provide for quick calibration of surgical instruments or attachments for surgical instruments. | 05-22-2014 |
20140180074 | MULTIPLE MEDICAL DEVICE GUIDANCE - A system and method for providing image guidance for placement of one or more medical devices at a target location. The system receives emplacement information of medical devices within a predetermined area. The system calculates a viewing angle in a virtual 3D space of a plurality of virtual medical devices corresponding to the plurality of medical devices. The system also causes a display device to display the plurality of virtual medical devices based at least on the calculated viewing angle. | 06-26-2014 |
20140275810 | SENSOR MOUNT - A sensor mount that can be coupled to the shaft of a medical device can include an elongated shaft. The elongated shaft can include a lumen for coupling to the shaft of the medical device and a pose sensor for providing position and orientation information regarding the medical device. In some cases, the sensor mount can include a handle coupled to the elongated shaft and the medical device. | 09-18-2014 |
20140343404 | MEDICAL DEVICE GUIDANCE - A system and method for providing image guidance for placement of one or more medical devices at a target location. The system can be used to display portions of a display object, such as a rendered medical image, at different transparency levels. The system can also be used to resolve co-located display objects, such as a co-located image guidance cue and rendered medical image. The system can further be used to adjust a point-of-view location for one or more medical display objects within a virtual 3D space. | 11-20-2014 |