Patents by Inventor Günter Meckes
Günter Meckes 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: 11083369Abstract: An eye surgery system includes an operating microscope having at least one camera, a data memory, a pattern generator, and a display apparatus. The operating microscope presents a microscope image of an eye, and the at least one camera records a camera image of the eye. The data memory stores data that represent at least one predetermined position, relative to the eye, of a trocar to be inserted into the eye. The pattern generator generates a pattern representing the predetermined position of the trocar on the basis of the data stored in the data memory and the camera image recorded by the camera, and the display apparatus overlays the pattern produced by the pattern generator on the microscope image of the eye.Type: GrantFiled: June 2, 2018Date of Patent: August 10, 2021Assignee: Carl Zeiss Meditec AGInventors: Günter Meckes, Thomas Schuhrke, Karsten Laubner, Konstantinos Filippatos
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Patent number: 10274714Abstract: A surgical microscope for producing an observation image of an object region for an observer is provided. The surgical microscope includes an image acquisition device to acquire an image of the object region, a display device, an image processing and control device, a computer unit, a switchable imaging optical unit, an eyepiece and an optical observation beam path. The switchable imaging optical unit feeds the observation image to the eyepiece via the optical observation beam path in a first switching state. In a second switching state, the switchable imaging optical unit interrupts the optical observation beam path between the object region and the eyepiece to display an acquired image in the eyepiece and to electronically superpose the object region image data at a predefined position onto the image of the object region.Type: GrantFiled: August 19, 2016Date of Patent: April 30, 2019Assignee: Carl Zeiss Meditec AGInventors: Christoph Hauger, Guenter Meckes
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Patent number: 10182714Abstract: A method for improving an OCT image of an object such as the retina of an eye, using optical coherence tomography by an imaging beam path. In order to suppress shadowing effects due to a surgical instrument moved in the imaging beam path, a time series of OCT images is produced. For an OCT image to be corrected, an area of the object lying in the image and shadowed by the instrument is determined. Another earlier OCT image in which the area of the object is not shadowed is searched in the time series. Image information for the area of the object is read from the earlier OCT image. A corrected OCT image is produced by inserting the read-image information into the OCT image to be corrected, wherein in the OCT image to be corrected, the image information replaces the area of the object which is shadowed by the instrument.Type: GrantFiled: September 25, 2015Date of Patent: January 22, 2019Assignee: Carl Zeiss Meditec AGInventors: Abouzar Eslami, Konstantinos Filippatos, Corinna Maier-Matic, Christine Kochwagner, Thomas Schuhrke, Guenter Meckes, Stefan Duca, Carolin Schiele, Falk Hartwig
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Publication number: 20180344155Abstract: An eye surgery system includes an operating microscope having at least one camera, a data memory, a pattern generator, and a display apparatus. The operating microscope presents a microscope image of an eye, and the at least one camera records a camera image of the eye. The data memory stores data that represent at least one predetermined position, relative to the eye, of a trocar to be inserted into the eye. The pattern generator generates a pattern representing the predetermined position of the trocar on the basis of the data stored in the data memory and the camera image recorded by the camera, and the display apparatus overlays the pattern produced by the pattern generator on the microscope image of the eye.Type: ApplicationFiled: June 2, 2018Publication date: December 6, 2018Inventors: Günter Meckes, Thomas Schuhrke, Karsten Laubner, Konstantinos Filippatos
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Patent number: 9883796Abstract: An ophthalmologic system comprising and eye tracker and an OCT system. A method of operating the ophthalmologic system comprises: providing data representing a placement of a first B-scan performed on an eye relative to the eye; performing a measurement on the eye using the eye tracker; determining a placement of the eye relative to the ophthalmologic system based on the measurement using the eye tracker; placing the eye relative to a reference placement of the OCT system based on the provided data and the determined placement; performing A-scans on the eye at at least three A-scan positions; determining a placement of a second B-scan relative to the OCT system based on at least one of the at least three A-scans and the provided data such that the second B-scan and the first B-scan have a substantially same placement relative to the eye; and generating a representation of the second B-scan.Type: GrantFiled: October 2, 2015Date of Patent: February 6, 2018Assignee: CARL ZEISS MEDITEC AGInventors: Günter Meckes, Konstantinos Filippatos, Thomas Schuhrke, Christoph Hauger, Abouzar Eslami, Stefan Gräber, Christine Kochwagner, Carolin Schiele, Christopher Käsbach
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Patent number: 9560965Abstract: An eye surgery apparatus has imaging optics for generating an observation image of a patient eye. A device determines the azimuthal orientation of the patient eye with respect to a reference which is fixed with respect to the patient eye. The device includes a display unit for simultaneously displaying a section of an observation image of the eye and a reference image thereof. An input interface permits an observer to move the displayed section of the observation image relative to the displayed section of the reference image. A measuring system determines the azimuthal orientation of the observation image and reference image. A computer program calculates the center of the limbus of the observation image and reference image. The display unit displays the pixels of the observation image of the patient eye with polar coordinates. The pixels of the reference image of the patient eye are displayed with polar coordinates.Type: GrantFiled: February 27, 2014Date of Patent: February 7, 2017Assignee: Carl Zeiss Meditec AGInventors: Thomas Schuhrke, Guenter Meckes, Lena Henze, Rolf Werner, Christine Kochwagner
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Publication number: 20160357003Abstract: A surgical microscope for producing an observation image of an object region for an observer is provided. The surgical microscope includes an image acquisition device to acquire an image of the object region, a display device, an image processing and control device, a computer unit, a switchable imaging optical unit, an eyepiece and an optical observation beam path. The switchable imaging optical unit feeds the observation image to the eyepiece via the optical observation beam path in a first switching state. In a second switching state, the switchable imaging optical unit interrupts the optical observation beam path between the object region and the eyepiece to display an acquired image in the eyepiece and to electronically superpose the object region image data at a predefined position onto the image of the object region.Type: ApplicationFiled: August 19, 2016Publication date: December 8, 2016Inventors: Christoph Hauger, Guenter Meckes
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Publication number: 20160095514Abstract: An ophthalmologic system comprising and eye tracker and an OCT system. A method of operating the ophthalmologic system comprises: providing data representing a placement of a first B-scan performed on an eye relative to the eye; performing a measurement on the eye using the eye tracker; determining a placement of the eye relative to the ophthalmologic system based on the measurement using the eye tracker; placing the eye relative to a reference placement of the OCT system based on the provided data and the determined placement; performing A-scans on the eye at at least three A-scan positions; determining a placement of a second B-scan relative to the OCT system based on at least one of the at least three A-scans and the provided data such that the second B-scan and the first B-scan have a substantially same placement relative to the eye; and generating a representation of the second B-scan.Type: ApplicationFiled: October 2, 2015Publication date: April 7, 2016Inventors: Günter MECKES, Konstantinos FILIPPATOS, Thomas SCHUHRKE, Christoph HAUGER, Abouzar ESLAMI, Stefan GRÄBER, Christine KOCHWAGNER, Carolin SCHIELE, Christopher KÄSBACH
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Publication number: 20160089015Abstract: A method for improving an OCT image of an object such as the retina of an eye, using optical coherence tomography by an imaging beam path. In order to suppress shadowing effects due to a surgical instrument moved in the imaging beam path, a time series of OCT images is produced. For an OCT image to be corrected, an area of the object lying in the image and shadowed by the instrument is determined. Another earlier OCT image in which the area of the object is not shadowed is searched in the time series. Image information for the area of the object is read from the earlier OCT image. A corrected OCT image is produced by inserting the read-image information into the OCT image to be corrected, wherein in the OCT image to be corrected, the image information replaces the area of the object which is shadowed by the instrument.Type: ApplicationFiled: September 25, 2015Publication date: March 31, 2016Inventors: Abouzar ESLAMI, Konstantinos FILIPPATOS, Corinna MAIER-MATIC, Christine KOCHWAGNER, Thomas SCHUHRKE, Guenter MECKES, Stefan DUCA, Carolin SCHIELE, Falk HARTWIG
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Patent number: 9089283Abstract: A method determines the position and/or radius of the limbus and/or the position and/or radius of the pupil of a patient eye. In the method, an image of the patient eye is obtained and a plurality of different ring-shaped comparison objects having respective radii and respective centers are provided. The image is correlated with the plurality of comparison objects to yield a local best match between the image and the comparison objects when there is a coincidence of one of the ring-shaped comparison objects and a ring-shaped jump in brightness in the image having the same radius and the same center. The comparison objects having a local best match with the image are determined. Thereafter, the position of the center of the comparison object having a local best match with the image is selected as the position of the center of the limbus and/or the position of the center of the pupil.Type: GrantFiled: January 3, 2014Date of Patent: July 28, 2015Assignee: Carl Zeiss Meditec AGInventors: Thomas Schuhrke, Guenter Meckes, Stefan Graeber, Keith Thornton
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Publication number: 20140180162Abstract: An eye surgery apparatus has imaging optics for generating an observation image of a patient eye. A device determines the azimuthal orientation of the patient eye with respect to a reference which is fixed with respect to the patient eye. The device includes a display unit for simultaneously displaying a section of an observation image of the eye and a reference image thereof. An input interface permits an observer to move the displayed section of the observation image relative to the displayed section of the reference image. A measuring system determines the azimuthal orientation of the observation image and reference image. A computer program calculates the center of the limbus of the observation image and reference image. The display unit displays the pixels of the observation image of the patient eye with polar coordinates. The pixels of the reference image of the patient eye are displayed with polar coordinates.Type: ApplicationFiled: February 27, 2014Publication date: June 26, 2014Applicant: Carl Zeiss Meditec AGInventors: Thomas Schuhrke, Guenter Meckes, Lena Schubert, Rolf Werner, Christine Kochwagner
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Publication number: 20140118696Abstract: A method determines the position and/or radius of the limbus and/or the position and/or radius of the pupil of a patient eye. In the method, an image of the patient eye is obtained and a plurality of different ring-shaped comparison objects having respective radii and respective centers are provided. The image is correlated with the plurality of comparison objects to yield a local best match between the image and the comparison objects when there is a coincidence of one of the ring-shaped comparison objects and a ring-shaped jump in brightness in the image having the same radius and the same center. The comparison objects having a local best match with the image are determined. Thereafter, the position of the center of the comparison object having a local best match with the image is selected as the position of the center of the limbus and/or the position of the center of the pupil.Type: ApplicationFiled: January 3, 2014Publication date: May 1, 2014Applicant: Carl Zeiss Meditec AGInventors: Thomas Schuhrke, Guenter Meckes, Stefan Graeber, Keith Thornton
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Patent number: 8662667Abstract: A method determines the position and/or radius of the limbus and/or the position and/or radius of the pupil of a patient eye. In the method, an image of the patient eye is obtained and a plurality of different ring-shaped comparison objects having respective radii and respective centers are provided. The image is correlated with the plurality of comparison objects to yield a local best match between the image and the comparison objects when there is a coincidence of one of the ring-shaped comparison objects and a ring-shaped jump in brightness in the image having the same radius and the same center. The comparison objects having a local best match with the image are determined. Thereafter, the position of the center of the comparison object having a local best match with the image is selected as the position of the center of the limbus and/or the position of the center of the pupil.Type: GrantFiled: June 21, 2010Date of Patent: March 4, 2014Assignee: Carl Zeiss Meditec AGInventors: Thomas Schuhrke, Günter Meckes, Stefan Gräber, Keith Thornton
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Patent number: 8308298Abstract: The invention relates to an eye surgery microscopy system (1) having an imaging optic (14, 11) for the generation of the image of an object plane (15) and having an electronic image sensor (22), which detects the image of the object plane (15) and is connected to a computer unit (5) for the computation of the position of the center of a circular structure (44) of a patient eye (16). The computer unit (5) is designed for the computation of the position of a patient eye (16) outside of the center (52) of the circular structure (44) and provided with at least one marking (46, 48). The computer unit (5) determines the position of the at least one marking (46, 48) with reference to the computed center (52) by means of image processing via correlation with a comparison information, and an angular position of the at least one marking (46, 48) with reference to the computed center (52) by means of image processing.Type: GrantFiled: June 24, 2010Date of Patent: November 13, 2012Assignee: Carl Zeiss Meditec AGInventors: Thomas Schuhrke, Günter Meckes, Stefan Gräber, Keith Thornton
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Publication number: 20110028850Abstract: A method for the quantitative representation of the blood flow in a tissue or vascular region is based on the signal of a contrast agent injected into the blood. In the method, several individual images of the signal emitted by the tissue or vascular region are recorded at successive points in time and are stored. Based on the respective signal, a quantity characteristic for the blood flow and a quantity characteristic for the position of the blood vessels are determined for image areas of individual images. These quantities are represented superimposed for the respective image areas such that both the blood flow quantity and the position of the fine blood vessels become clearly visible in the representation and can be differentiated from the tissue.Type: ApplicationFiled: July 28, 2009Publication date: February 3, 2011Inventors: Thomas Schuhrke, Guenter Meckes, Joachim Steffen, Hans-Joachim Miesner, Frank Rudolph, Werner Nahm
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Publication number: 20110019151Abstract: The invention relates to an eye surgery microscopy system (1) having an imaging optic (14, 11) for the generation of the image of an object plane (15) and having an electronic image sensor (18), which detects the image of the object plane (15) and is connected to a computer unit (5) for the computation of the position of the center of a circular structure (44) of a patient eye (16). The computer unit (5) is designed for the computation of the position of a patient eye (16) outside of the center (52) of the circular structure (44) and provided with at least one marking (46, 48). The computer unit (5) determines the position of the at least one marking (46, 48) with reference to the computed center (52) by means of image processing via correlation with a comparison information, and an angular position of the at least one marking (46, 48) with reference to the computed center (52) by means of image processing.Type: ApplicationFiled: June 24, 2010Publication date: January 27, 2011Inventors: Thomas Schuhrke, Günter Meckes, Stefan Gräber, Keith Thornton
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Publication number: 20110019150Abstract: A method determines the position and/or radius of the limbus and/or the position and/or radius of the pupil of a patient eye. In the method, an image of the patient eye is obtained and a plurality of different ring-shaped comparison objects having respective radii and respective centers are provided. The image is correlated with the plurality of comparison objects to yield a local best match between the image and the comparison objects when there is a coincidence of one of the ring-shaped comparison objects and a ring-shaped jump in brightness in the image having the same radius and the same center. The comparison objects having a local best match with the image are determined. Thereafter, the position of the center of the comparison object having a local best match with the image is selected as the position of the center of the limbus and/or the position of the center of the pupil.Type: ApplicationFiled: June 21, 2010Publication date: January 27, 2011Inventors: Thomas Schuhrke, Günter Meckes, Stefan Gräber, Keith Thornton
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Publication number: 20100069759Abstract: A method for the quantitative representation of the blood flow in a tissue or vascular region is based on the signal of a contrast agent injected into the blood. Several individual images of the signal emitted by the tissue or vascular region are recorded and stored at successive points in time. For image areas of the individual images, the respective intensities of different points in time are compared and the maximum intensities of the signals are determined for these image areas. The maximum intensities are represented for these image areas.Type: ApplicationFiled: July 28, 2009Publication date: March 18, 2010Inventors: Thomas Schuhrke, Guenter Meckes, Joachim Steffen, Hans-Joachim Miesner, Frank Rudolph, Werner Nahm
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Publication number: 20100042000Abstract: A method for correcting the image data representing the blood flow for the evaluation and quantitative representation of the blood flow in a tissue or vascular region is based on the signal of a contrast agent injected into the blood. Several individual images of the signal emitted by the tissue or vascular region are recorded and stored at successive points in time. At least two individual images are correlated and a shift vector is generated based on the correlation. Thereafter, the image data of the individual images are shifted in relation to each other according to the shift vector.Type: ApplicationFiled: July 28, 2009Publication date: February 18, 2010Inventors: Thomas Schuhrke, Guenter Meckes
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Publication number: 20100041999Abstract: A method for the quantitative representation of the blood flow in a tissue or vascular region based on the signal of a contrast agent injected into the blood. In the process, several individual images of the signal emitted by the tissue or vascular region are recorded at successive points in time and are stored. For image areas of stored individual images the respective point in time is determined at which the signal has exceeded a certain threshold value and this point in time is represented for each of the image areas.Type: ApplicationFiled: July 28, 2009Publication date: February 18, 2010Inventors: Thomas Schuhrke, Guenter Meckes, Joachim Steffen, Hans-Joachim Miesner, Frank Rudolph, Werner Nahm