Patent application number | Description | Published |
20080306694 | Methods for Detecting Peaks in a Nucleic Acid Data Trace - The present invention relates to methods and apparatus for detecting peaks in a sample nucleic acid data trace derived from a sample polynucleotide by (a) receiving a sequence signature of a reference polynucleotide, wherein the sequence signature comprises a profile of peak height at one or more peak position of a nucleic acid sequence data trace of one or more of reference polynucleotides; (b) receiving a sample nucleic acid sequence data trace of a sample polynucleotide corresponding to the reference polynucleotide, wherein the sample nucleic acid sequence data trace comprises a value of peak height at one or more peak position corresponding to the peak positions of the sequence signature; and (c) detecting peaks in the sample nucleic acid data trace having a peak height that correlates with the profile of peak height of the sequence signature at a corresponding peak position. | 12-11-2008 |
20080306696 | Methods for Resolving Convoluted Peaks in a Chromatogram - The present invention relates to methods for resolving convoluted peaks in a chromatogram into one or more constituent peaks using peak resolution values. The peaks methods of the invention determine empirical peak resolution values of “well-defined” or “isolated” peaks in the data, then extrapolate these empirical resolution values to peaks in neighboring regions to predict the number of constituent peaks at a given peak position. Predicted peak resolution values are compared to observed peak resolution values of low-resolution or convoluted peaks to determine the number of constituent peaks in the convoluted peaks. These methods enable extension of the region of data that can used for identifying nucleotide sequences, and increase base-calling accuracy in the low-resolution region (end region) of data. | 12-11-2008 |
20150109427 | SURGICAL IMAGING SYSTEMS - Systems, methods and devices are provided for illuminating tissue with monochromatic or broadband light and imaging light that has been reflected back from the tissue. Imaging may be white-light imaging or hyperspectral imaging. The system can be a stand-alone hyperspectral imaging system, integrated as part of an external video scope, or as an auxiliary imaging module on an external videoscope. Various elements of a video scope that is particularly suited for minimally invasive surgery is first presented and then its configurations suitable for hyperspectral imaging are explained. | 04-23-2015 |
20150351860 | SYSTEMS AND METHODS FOR NAVIGATION AND SIMULATION OF MINIMALLY INVASIVE THERAPY - Disclosed herein is navigation and simulation systems and methods for minimally invasive therapy in which the navigation system imports a planning method using patient specific pre-operative images. The navigation system uses intraoperative imaging during the medical procedure to update the preoperative images and provides images of tracked surgical tools along the surgical path prepared from the preoperative images. | 12-10-2015 |
20160000515 | SYSTEM AND METHOD FOR DYNAMIC VALIDATION, CORRECTION OF REGISTRATION FOR SURGICAL NAVIGATION - Disclosed herein is a system and method for dynamic validation, correction of registration for surgical navigation during medical procedures on a patient which involves confirmation of registration between one or more previously registered virtual objects, such as surgical tools etc. in a common coordinate frame of a surgical navigation system and an operating room, and intra-operatively acquired imaging during the medical procedure in the common coordinate frame. The method includes displaying intra-operatively acquired imaging of the surgical field containing the one or more real objects corresponding to the one or more previously registered virtual objects, with the real objects being tracked by a tracking system. The method overlaying a virtual image containing the previously registered virtual objects onto the intra-operatively acquired imaging, from the point of view of the intra-operatively acquired imaging, and detecting for any misalignment between any one of the one or more previously registered virtual objects contained in the virtual image and its corresponding real object contained in the intra-operatively acquired imaging. | 01-07-2016 |
20160005169 | SYSTEM AND METHOD FOR DETECTING TISSUE AND FIBER TRACT DEFORMATION - Disclosed herein is a method for producing an evolvable tissue model of a patient and, using this model, modelling physical transformations of the tissue (e.g. deformation) of the tissue model by interacting the tissue model with influence models which model interactions with the tissue such as surgical instruments, pressure, swelling, temperature changes etc. The model is produced from a set of input data of the tissue which includes directional information of the tissue. The directional information is used to produce an oriented tissue map. A tissue model is then produced from the oriented tissue map such that the tissue model reflects the directionality of the tissue component. When the tissue model is subjected to an influence that causes tissue deformation over a period of time, the tissue model directionally deforms over the period of time in a manner which reflects a trajectory of the influence interacting with the directionality of the tissue component. | 01-07-2016 |
20160015471 | CONTEXT AWARE SURGICAL SYSTEMS - Systems and methods are provided in which devices that are employed during a medical procedure are adaptively configured during the medical procedure, based on input or feedback that is associated with the current state, phase or context of the medical procedure. In some example embodiments, the input is obtained via the identification of one or more medical instruments present within a region of interest, and this input may be employed to determine configuration parameters for configuring the device. In other example embodiments, the input may be based on the image-based detection of a measure associated with the phase or context of the medical procedure, and this input may be employed to adaptively control the device based on the inferred context or phase of the medical procedure. In other embodiments, images from one imaging modality may be employed to adaptively switch to another imaging modality. | 01-21-2016 |
20160022146 | Insert Imaging Device for Surgical Procedures - Insertable imaging devices, and methods of use thereof in minimally invasive medical procedures, are described. In some embodiments, insertable imaging devices are described that can be introduced and removed from an access port without disturbing or risking damage to internal tissue. In some embodiments, imaging devices are integrated into an access port, thereby allowing imaging of internal tissues within the vicinity of the access port, while, for example, enabling manipulation of surgical tools in the surgical field of interest. In other embodiments, imaging devices are integrated into an imaging sleeve that is insertable into an access port. Several example embodiments described herein provide imaging devices for performing imaging within an access port, where the imaging may be based one or more imaging modalities that may include, but are not limited to, magnetic resonance imaging, ultrasound, optical imaging such as hyperspectral imaging and optical coherence tomography, and electrical conductive measurements. | 01-28-2016 |
20160067007 | INTERAMODAL SYNCHRONIZATION OF SURGICAL DATA - Systems and methods are provided in which local tissue diagnostic measurements are correlated with archival local tissue diagnostic data from prior tissue analyses to supplement diagnostic measurements with tissue analysis data from prior tissue analyses having similar local tissue diagnostic data. The tissue analysis data may include information such as pathology data, outcome data, and diagnosis data. The archived local tissue diagnostic data and the tissue analysis data may be stored in a database, and employed for a wide variety of methods, involving preoperative, intraoperative, and/or postoperative phases of a medical procedure. Methods and systems are also provided for displaying, on a medical image shown in a user interface, hyperlinked reference markers associated with tissue analyses, where the reference markers are shown at locations corresponding to local tissue analyses, and where associated diagnostic data and/or tissue analysis may be viewed by selecting a given reference marker. | 03-10-2016 |