Patents by Inventor Eli Dichterman
Eli Dichterman has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11854217Abstract: Systems, devices, and methods for co-registering electro-anatomical images are provided. In one embodiment of the present disclosure, treatment locations are displayed to the physician on an image of the remodeled heart by co-registering first and second electro-anatomical images based on: (1) a first electro-anatomical image of an anatomy, (2) treatment location data indicating treatment locations with respect to the first electro-anatomical image, (3) a second electro-anatomical image of the anatomy after the anatomy has remodeled, and (4) a non-rigid transformation that transforms the first electro-anatomical image to the second electro-anatomical image of the remodeled anatomy. The non-rigid transformation is applied to the treatment location data to map the treatment locations to the second electro-anatomical image of the remodeled anatomy.Type: GrantFiled: May 3, 2019Date of Patent: December 26, 2023Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Haim Rodriguez, Eli Dichterman, Yitzhack Schwartz
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Patent number: 11842456Abstract: Methods for creation and use (e.g., for navigation) of displays of flattened (e.g., curvature-straightened) 3-D reconstructions of tissue surfaces, optionally including reconstructions of the interior surfaces of hollow organs. In some embodiments, data comprising a 3-D representation of a tissue surface (for example an interior heart chamber surface) are subject to a geometrical transformation allowing the tissue surface to be presented substantially within a single view of a flattened reconstruction. In some embodiments, a catheter probe in use near the tissue surface is shown in positions that correspond to positions in 3-D space sufficiently to permit navigation; e.g., the probe is shown in flattened reconstruction views nearby view regions corresponding to regions it actually approaches. In some embodiments, automatic and/or easily triggered manual view switching between flattened reconstruction and source reconstruction views is implemented.Type: GrantFiled: January 12, 2018Date of Patent: December 12, 2023Assignee: Navix International LimitedInventors: Leonid Gluhovsky, Yitzhack Schwartz, Eli Dichterman, Shlomo Ben-Haim, Yaara Yarden
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Patent number: 11819293Abstract: There is provided a method of displaying a pre-acquired three dimensional (3D) image of at least a portion of an organ of a patient, the method comprising: receiving a plurality of electrical readings, each from a different electrode mounted on a catheter inside the portion of the organ of the patient, wherein the electrodes are mounted on the catheter at known distances from each other, transforming the plurality of electrical readings to a corresponding plurality of image points using a mapping transformation that transforms each electrical reading of the catheter from inside the portion of the organ of the patient to an anatomically corresponding image point in the 3D image based on the known distances, and displaying the 3D image with a marking of at least one of the plurality of image points.Type: GrantFiled: March 7, 2022Date of Patent: November 21, 2023Assignee: Navix International LimitedInventors: Yitzhack Schwartz, Eli Dichterman, Yizhaq Shmayahu
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Patent number: 11793576Abstract: Systems and methods are described for planning of catheter ablation procedures, and in particular for planning of the placement of lesions and/or parameters used in ablation. In some embodiments, planning is based on thermal and/or dielectric simulation of lesions, individualized to the anatomy of the particular patient. Optionally, a plan comprises planning of a path along which an ablation lesion is to be formed, the ablation lesion optionally comprising one or more sub-lesions. The plan is optionally optimized for one or more criteria including, for example: minimization of path length, minimization of sub-lesion number, simplification of catheter maneuvering, avoidance of collateral damage to non-target tissue, access to the target dependent on anatomy shape and/or catheter mechanics, and/or features of the target anatomy such as tissue wall thickness and/or fiber direction.Type: GrantFiled: June 16, 2021Date of Patent: October 24, 2023Assignee: Navix International LimitedInventors: Yitzhack Schwartz, Zalman Ibragimov, Yehonatan Ben David, Eli Dichterman
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Patent number: 11744515Abstract: Methods for estimating of the effectiveness of catheter ablation procedures to form lesions, and particular lesions which together form an ablation segment of an ablation line. Lesion effectiveness parameters are received, and effectiveness, optionally the joint effectiveness, of corresponding ablations (optionally planned, current, and/or already performed) is estimated. In some embodiments, estimating is based on use by computer circuitry of an estimator constructed based on observed associations between previously analyzed lesion effectiveness parameters, and observed lesion effectiveness. Additionally or alternatively, estimators may be constructed based on analytic functions. The estimator is used by application to the received lesion effectiveness parameters.Type: GrantFiled: January 12, 2018Date of Patent: September 5, 2023Assignee: Navix International LimitedInventors: Haim Rodriguez, Shlomo Ben-Haim, Yizhaq Shmayahu, Yitzhack Schwartz, Eli Dichterman, Zalman Ibragimov
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Patent number: 11730395Abstract: A method of reconstructing a shape of a volume of a part of a subject based on intrabody measurements of a plurality of crossing electromagnetic fields established within the volume, the method including: receiving, by computer circuitry, measurements of the crossing electromagnetic fields carried out using at least one sensor carried on an intrabody probe, the measuring being carried out with the probe at multiple locations in the volume, to provide a set of measurement samples, each taken at a location; generating, by computer circuitry and based on said measurement samples, a transformation that transforms measurement samples to geometric positions; transforming, using said generated transformation fewer than half of the measurements in said set of measurement samples into a set of geometric positions; and reconstructing the shape of said volume from said set of geometric positions.Type: GrantFiled: July 18, 2018Date of Patent: August 22, 2023Assignee: Navix International LimitedInventors: Eli Dichterman, Shlomo Ben-Haim
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Patent number: 11721020Abstract: Methods for creation and use (e.g., for navigation) of displays of flattened (e.g., curvature-straightened) 3-D reconstructions of tissue surfaces, optionally including reconstructions of the interior surfaces of hollow organs. In some embodiments, data comprising a 3-D representation of a tissue surface (for example an interior heart chamber surface) are subject to a geometrical transformation allowing the tissue surface to be presented substantially within a single view of a flattened reconstruction. In some embodiments, a catheter probe in use near the tissue surface is shown in positions that correspond to positions in 3-D space sufficiently to permit navigation; e.g., the probe is shown in flattened reconstruction views nearby view regions corresponding to regions it actually approaches. In some embodiments, automatic and/or easily triggered manual view switching between flattened reconstruction and source reconstruction views is implemented.Type: GrantFiled: February 7, 2022Date of Patent: August 8, 2023Assignee: Navix International LimitedInventors: Shlomo Ben-Haim, Leonid Gluhovsky, Yitzhack Schwartz, Eli Dichterman, Yaara Yarden
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Publication number: 20230210398Abstract: The present invention relates to imaging a hollow organ. In order to provide an improved and facilitated imaging of a hollow organ of interest, a device (10) for providing three-dimensional data of a hollow organ is provided that comprises a measurement input (12), a data processor (14) and an output interface (16). The measurement input is configured to receive a plurality of local electric field measurements (18) of at least one electrode on a catheter inserted in a lumen of a hollow organ of interest. The measurement input is also configured to receive geometrical data (20) representative of the location of the at least one electrode inside the lumen during the measurements. The data processor is configured to receive pre-set electric field characteristics (22) associated with predetermined anatomical landmarks of the hollow organ expectable in the lumen in dependency of a type of the hollow organ.Type: ApplicationFiled: June 16, 2021Publication date: July 6, 2023Inventors: Yitzhack SCHWARTZ, Zalman IBRAGIMOV, Yehonatan BEN DAVID, Eli DICHTERMAN
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Patent number: 11622713Abstract: Methods for estimating of the effectiveness of catheter ablation procedures to form lesions. Lesion effectiveness parameters are received, and effectiveness of a corresponding ablation (optionally planned, current, and/or already performed) is estimated. The estimating is based on use by computer circuitry of an estimator constructed based on observed associations between previously analyzed lesion effectiveness parameters, and observed lesion effectiveness. The estimator is used by application to the received lesion effectiveness parameters.Type: GrantFiled: November 16, 2017Date of Patent: April 11, 2023Assignee: Navix International LimitedInventors: Shlomo Ben-Haim, Yizhaq Shmayahu, Yitzhack Schwartz, Haim Rodriguez, Eli Dichterman, Zalman Ibragimov, Yaara Yarden
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Publication number: 20230044012Abstract: Electrical field-guided positioning of a second device within a body cavity, using electrical field mapping information generated from electrical field measurements by electrodes of a first device. The first device, in some embodiments, is a catheter electrode probe, and the second device is an internally implantable and/or operated medical device. An exposed, electrically conductive portion of the second device is optionally configured to be used as an electrical field measuring electrode. A rule is applied to measurements made by this electrode to estimate its position within a body cavity. The rule is generated, in some embodiments, using measurements made by the first device. In some embodiments, electrical measurements are used to guide implantation verification. In some embodiments, electrical measurements are used to guide navigation at and through a septal wall between body cavities.Type: ApplicationFiled: December 28, 2020Publication date: February 9, 2023Applicant: Navix International LimitedInventors: Shlomo BEN-HAIM, Eli DICHTERMAN
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Patent number: 11523749Abstract: There is provided a computerized method of tracking a position of an intra-body catheter, comprising: physically tracking coordinates of the position of a distal portion of a physical catheter within the physical body portion of the patient according to physically applied plurality of electrical fields within the body portion and measurements of the plurality of electrical fields performed by a plurality of physical electrodes at a distal portion of the physical catheter; registering the physically tracked coordinates with simulated coordinates generated according to a simulation of a simulated catheter within a simulation of the body of the patient, to identify differences between physically tracked location coordinates and the simulation coordinates; correcting the physically tracked location coordinates according to the registered simulation coordinates; and providing the corrected physically tracked location coordinates for presentation.Type: GrantFiled: May 6, 2019Date of Patent: December 13, 2022Assignee: Navix International LimitedInventors: Yitzhack Schwartz, Shlomo Ben-Haim, Eli Dichterman
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Publication number: 20220322960Abstract: Electrical field-guided positioning of a second device within a body cavity, using electrical field mapping information generated from electrical field measurements by electrodes of a first device. The first device, in some embodiments, is a catheter electrode probe, and the second device is an internally implantable and/or operated medical device. An exposed, electrically conductive portion of the second device is optionally configured to be used as an electrical field measuring electrode. A rule is applied to measurements made by this electrode to estimate its position within a body cavity. The rule is generated, in some embodiments, using measurements made by the first device.Type: ApplicationFiled: September 11, 2020Publication date: October 13, 2022Applicant: Navix International LimitedInventors: Shlomo BEN-HAIM, Eli DICHTERMAN
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Patent number: 11464422Abstract: In some embodiments, a body cavity shape of a subject is reconstructed based on intrabody measurements of at least one property of an electromagnetic field by an intrabody probe (for example, a catheter probe) moving within a plurality of electrical fields intersecting the body cavity. In some embodiments, the electrical fields are generated at least in part from electrodes positioned in close proximity, for example, within 1 cm, of the body cavity. In some embodiments, the body cavity is a chamber of a heart (for example, a left atrium or left ventricle), and the electrodes used to generate the electrical field are positioned in the coronary sinus, a large vein occupying the groove between the left atrium and left ventricle. In some embodiments, known distances between measuring electrodes are used in guiding reconstruction, potentially overcoming difficulties of reconstruction from measurements of non-linear electrical fields.Type: GrantFiled: January 17, 2018Date of Patent: October 11, 2022Assignee: Navix Internatonal LimitedInventors: Yizhaq Shmayahu, Yitzhack Schwartz, Eli Dichterman, Zalman Ibragimov, Shlomo Ben-Haim, Yehonatan Ben David
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Publication number: 20220273219Abstract: A method of estimating a spatial relationship between at least a part of a patient esophagus and a heart chamber, including: measuring at least one electric parameter at one or more positions within the heart chamber to obtain measured values; and estimating the spatial relationship based on the measured values.Type: ApplicationFiled: May 16, 2022Publication date: September 1, 2022Applicant: Navix International LimitedInventors: Yitzhack SCHWARTZ, Zalman IBRAGIMOV, Yehonatan BEN DAVID, Yizhaq SHMAYAHU, Eli DICHTERMAN, Shlomo BEN-HAIM
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Publication number: 20220277420Abstract: A method of generating a combined image of a body part from a sequence of partially overlapping source images of the body part, each of the partially overlapping source images showing the body part at one of a plurality of different times, the source images being ordered in the sequence according to the different times, the method including defining a temporally coherent sequence of transformations, for registering the partially overlapping source images in the sequence with each other, registering the source images to each other using the defined temporally coherent sequence of transformations, to obtain co-registered images, and combining at least some of the co-registered images into a combined image. Related apparatus and methods are also described.Type: ApplicationFiled: May 16, 2022Publication date: September 1, 2022Applicant: Navix International LimitedInventors: Shlomo BEN-HAIM, Eli DICHTERMAN
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Publication number: 20220265161Abstract: In some embodiments, a body cavity shape of a subject is reconstructed based on intrabody measurements of voltages by an intrabody probe (for example, a catheter probe) moving within a plurality of differently-oriented electromagnetic fields crossing the body cavity. In some embodiments, the method uses distances between electrodes as a spatially calibrated ruler. Positions of measurements made with the intrabody probe in different positions are optionally related by using spatial coherence of the measured electromagnetic fields as a constraint. Optionally, reconstruction is performed without using a detailed reference (image or simulation) describing the body cavity shape. Optionally, reconstruction uses further information to refine and/or constrain the reconstruction; for example: images, simulations, additional electromagnetic fields, and/or measurements characteristic of body cavity landmarks. Optionally, reconstruction accounts for time-dependent cavity shape changes, for example, phasic changes (e.g.Type: ApplicationFiled: April 19, 2022Publication date: August 25, 2022Applicant: Navix International LimitedInventors: Eli DICHTERMAN, Yitzhack SCHWARTZ, Yizhaq SHMAYAHU, Shlomo BEN-HAIM
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Publication number: 20220183772Abstract: There is provided a method of displaying a pre-acquired three dimensional (3D) image of at least a portion of an organ of a patient, the method comprising: receiving a plurality of electrical readings, each from a different electrode mounted on a catheter inside the portion of the organ of the patient, wherein the electrodes are mounted on the catheter at known distances from each other, transforming the plurality of electrical readings to a corresponding plurality of image points using a mapping transformation that transforms each electrical reading of the catheter from inside the portion of the organ of the patient to an anatomically corresponding image point in the 3D image based on the known distances, and displaying the 3D image with a marking of at least one of the plurality of image points.Type: ApplicationFiled: March 7, 2022Publication date: June 16, 2022Applicant: Navix International LimitedInventors: Yitzhack SCHWARTZ, Eli DICHTERMAN, Yizhaq SHMAYAHU
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Patent number: 11350996Abstract: Registration of catheter-sensed intrabody voltage field measurements obtained along one or more tracks of catheter advance of withdrawal is made, in some embodiments, to reference voltage field measurements lying along predetermined tracks. Tracks optionally comprise the course of a blood vessel such as the superior or inferior vena cava, a path defined and/or limited by encounters with a wall of a heart chamber and/or apertures thereof, and/or another track of catheter motion. In some embodiments, transform parameters are propagated to regions away from the track, potentially allowing more rapid acquisition of targets.Type: GrantFiled: July 14, 2017Date of Patent: June 7, 2022Assignee: Navix International LimitedInventors: Yitzhack Schwartz, Eli Dichterman, Zalman Ibragimov, Yehonatan Ben David
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Publication number: 20220156933Abstract: Methods for creation and use (e.g., for navigation) of displays of flattened (e.g., curvature-straightened) 3-D reconstructions of tissue surfaces, optionally including reconstructions of the interior surfaces of hollow organs. In some embodiments, data comprising a 3-D representation of a tissue surface (for example an interior heart chamber surface) are subject to a geometrical transformation allowing the tissue surface to be presented substantially within a single view of a flattened reconstruction. In some embodiments, a catheter probe in use near the tissue surface is shown in positions that correspond to positions in 3-D space sufficiently to permit navigation; e.g., the probe is shown in flattened reconstruction views nearby view regions corresponding to regions it actually approaches. In some embodiments, automatic and/or easily triggered manual view switching between flattened reconstruction and source reconstruction views is implemented.Type: ApplicationFiled: February 7, 2022Publication date: May 19, 2022Applicant: Navix International LimitedInventors: Shlomo BEN-HAIM, Leonid GLUHOVSKY, Yitzhack SCHWARTZ, Eli DICHTERMAN, Yaara YARDEN
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Patent number: 11334965Abstract: A method of generating a combined image of a body part from a sequence of partially overlapping source images of the body part, each of the partially overlapping source images showing the body part at one of a plurality of different times, the source images being ordered in the sequence according to the different times, the method including defining a temporally coherent sequence of transformations, for registering the partially overlapping source images in the sequence with each other, registering the source images to each other using the defined temporally coherent sequence of transformations, to obtain co-registered images, and combining at least some of the co-registered images into a combined image. Related apparatus and methods are also described.Type: GrantFiled: February 21, 2019Date of Patent: May 17, 2022Assignee: Navix International LimitedInventors: Shlomo Ben-Haim, Eli Dichterman