1
Michael Zarkh, Moshe Klaiman: System and method for three-dimensional reconstruction of a tubular organ. Paieon, Mintz Levin Cohn Ferris Glovsky and Popeo P C, June 22, 2010: US07742629 (90 worldwide citation)


Embodiments of the present invention include methods and systems for three-dimensional reconstruction of a tubular organ (for example, coronary artery) using a plurality of two-dimensional images. Some of the embodiments may include displaying a first image of a vascular network, receiving input for ...


2
Rami Evron, Tsuriel Assis, Ran Carmeli: System and method for three-dimensional reconstruction of an artery. Paieon, Browdy and Neimark PLLC, January 22, 2008: US07321677 (87 worldwide citation)


A method and system for imaging an artery contained in an arterial tree. A microprocessor generates a three-dimensional reconstruction of the arterial tree from two or more angiographic images obtained from different perspectives. The orientation of the axis of the artery in the arterial tree is the ...


3
Assis Tsuriel, Klaiman Moshe, Zarkh Michael: Method and apparatus for positioning a biventrivular pacemaker lead and electrode. Paieon, Assis Tsuriel, Klaiman Moshe, Zarkh Michael, AGMON Jonathan, November 9, 2006: WO/2006/117773 (53 worldwide citation)


An apparatus and method for placing a device in a body area of a patient, by: tracking the device over a 3-dimensional model of the body area; activating the device at different locations in the body area; measuring the response signal or parameter caused by the activation; storing the locations as ...


4
Michael Zarkh, Moshe Klaiman: Method and system for identifying optimal image within a series of images that depict a moving organ. Paieon, Ladas & Parry, September 8, 2009: US07587074 (49 worldwide citation)


A method and system for quantifying a cyclic motion within a series of images depicting a moving object subject to composite motion containing a cyclic component and a non-cyclic component of lower frequency than the cyclic component. Composite motion is computed as well as the non-cyclic component ...


5
Klaiman Moshe, Zarkh Michael: System and method for three-dimensional reconstruction of a tubular organ. Paieon, Klaiman Moshe, Zarkh Michael, HOPKINS Brian P, April 7, 2005: WO/2005/031635 (49 worldwide citation)


Embodiments of the present invention include methods and systems for three-dimensional reconstruction of a tubular organ (for example, coronary artery) using a plurality of two-dimensional images. Some of the embodiments may include displaying a first image of a vascular network, receiving input for ...


6
Assis Tsuriel, Kuper Asher, Zarkh Michael, Klaiman Moshe: Method and apparatus for blood vessel parameter determinations. Paieon, Assis Tsuriel, Kuper Asher, Zarkh Michael, Klaiman Moshe, AGMON Jonathan, June 15, 2006: WO/2006/061815 (48 worldwide citation)


An apparatus and method for the determination of the flow, the coronary reserve and relative coronary reserve of a specific coronary artery. The apparatus and method employ a three-dimensional model (50) providing the volume of a segment of the artery at a plurality of points in time, and disclose v ...


7
Rami Evron, Ran Carmeli, Moshe Kleiman: Method for processing images of coronary arteries. Paieon, Browdy and Neimark P L L C, December 27, 2005: US06980675 (41 worldwide citation)


A method for processing an image of coronary arteries given by an intensity function I(x,y). A function z(x,y) is obtained describing the heart surface. The image is then processed to produce an image having an intensity function I′(x,y) where I′ is obtained in a calculation involving the function z ...


8
Rami Evron, Ran Carmele, Moshe Kleiman: Method and system for positioning a device in a tubular organ. Paieon, Ohlandt Greeley Ruggiero & Perle L, August 17, 2010: US07778685 (22 worldwide citation)


A system and method for positioning a device at a desired location in a tubular organ such as an artery. A three-dimensional reconstruction of the organ is obtained, and the desired location is marked in the reconstruction. The device is inserted into the organ and an image is obtained of the device ...


9
Sazbon Didi, Klaiman Moshe, Zarkh Michael: A tool and method for optimal positioning of a device within a tubular organ. Paieon, Sazbon Didi, Klaiman Moshe, Zarkh Michael, AGMON Jonathan, January 17, 2008: WO/2008/007350 (21 worldwide citation)


A novel tool for real-time registration between a tubular organ and a device, and a method that utilizes the proposed tool for presenting the device within a reference model of the tubular organ are disclosed. The proposed tool or markers attached thereto, and the device are shown by one imaging mod ...


10
Michael Zarkh, Rafael Shmuel Brada: Apparatus and method for locating a device tip within a volume. Paieon, Soroker Agmon, May 20, 2014: US08731642 (8 worldwide citation)


A method for determining by an x-ray projection a position of a target radiopaque marker disposed on a catheter in a subject's body, comprising assigning a landmark in the body as a reference point compensated for periodic movements of the body, determining an auxiliary location relative to the refe ...



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