Patents by Inventor Marcel Seeber
Marcel Seeber 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: 11103321Abstract: A device for robot-assisted surgery with at least one coupling unit (100) of a manipulator arm (16) comprising a first transmitting means (102). A sterile cover (38) comprising a sterile lock (200) serves to shield the manipulator arm (16) from a sterile area (39). The sterile lock (200) is connectable both to the coupling unit (100) and to the sterile unit (400). The sterile lock (200) has at least one lock flap (208, 210) which in a closed state shields the first transmitting means (102) in a sterile manner. The sterile unit (400) comprising a second transmitting means (406) has sterile flaps (402, 404) which in a closed state shield the second transmitting means (406) in a sterile manner. When connecting the sterile unit (400) to the sterile lock (200) the lock flap (208, 210) and the sterile flap (402, 404) are opened so that a direct transmission between the first transmitting means (102) and the second transmitting means (406) is possible.Type: GrantFiled: November 17, 2015Date of Patent: August 31, 2021Inventors: Marcus Braun, Stephan Barber, Marcel Seeber
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Patent number: 10881268Abstract: A device to set and retrieve a reference point during a surgical procedure. The device (12) has an endoscope (312) which captures several images successively as an image sequence and generates image data corresponding to the image sequence, which data are then processed and output on at least one display unit (44). A control unit (40) determines the first position of a first point at a first point in time, a second position of a second point at a second point in time, and a first distance vector between the first position and the second position. The positions are determined via the kinematic chain of a manipulator arm (16a,16b).Type: GrantFiled: February 15, 2018Date of Patent: January 5, 2021Inventor: Marcel Seeber
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Patent number: 10813707Abstract: A surgical robot system includes a manipulator for a surgical instrument intended for use in one single operation, a control unit for controlling the manipulator, and a read and write device for reading and storing data of a data memory. The read and write device is configured to read out first data with first information on the surgical instrument from the data memory and to transmit them to the control unit when the surgical instrument is coupled with the robot system. The control unit checks whether at least the one compatibility criterion meets at least one compatibility condition stored in the control unit in a preset manner based on the second information. The control unit approves the surgical instrument for use by the surgical robot system only when the compatibility criterion meets the at least one compatibility condition stored in a preset manner.Type: GrantFiled: August 10, 2018Date of Patent: October 27, 2020Assignee: avateramedical GmbHInventors: Marcel Seeber, Roberto Witt
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Patent number: 10603126Abstract: A device for robot-assisted surgery, comprising at least one non-sterile manipulator arm (12) having a coupling unit (100) with drive elements. The device further has an instrument unit (300) which comprises a surgical instrument (500) and a sterile sterile unit (400) for coupling the surgical instrument (500) to the drive elements of the coupling unit (100). The coupling unit (100) comprises a translatory drive element (110, 112) for generating a translatory drive movement and a rotatory drive element (114, 116) for generating a rotatory drive movement. The sterile unit (400) has a translationally driven element (408, 410) couplable to the translatory drive element (110, 112) and a rotationally driven element (412, 414) couplable to the rotatory drive element (114, 116). The device has a sterile lock (200) which is capable of being coupled to the coupling unit (100) and to the sterile unit (400).Type: GrantFiled: November 25, 2015Date of Patent: March 31, 2020Assignee: avateramedical GmbHInventors: Andreas Karguth, Christian Trommer, Marcel Seeber
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Publication number: 20190046282Abstract: A surgical robot system includes a manipulator for a surgical instrument intended for use in one single operation, a control unit for controlling the manipulator, and a read and write device for reading and storing data of a data memory. The read and write device is configured to read out first data with first information on the surgical instrument from the data memory and to transmit them to the control unit when the surgical instrument is coupled with the robot system. The control unit checks whether at least the one compatibility criterion meets at least one compatibility condition stored in the control unit in a preset manner based on the second information. The control unit approves the surgical instrument for use by the surgical robot system only when the compatibility criterion meets the at least one compatibility condition stored in a preset manner.Type: ApplicationFiled: August 10, 2018Publication date: February 14, 2019Applicant: avateramedical GmbHInventors: Marcel Seeber, Roberto Witt
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Patent number: 10136956Abstract: The invention relates to an apparatus for robot-assisted surgery, a positioning device (600, 700) as well as a method for assisting in the positioning of a manipulator arm (16) of an apparatus for robot-assisted surgery. The apparatus comprises a positioning device (600, 700) which is connected to a coupling unit (100) of the manipulator arm (16) instead of an instrument unit (300). The instrument unit (300) has a surgical instrument (500) with an instrument shaft (512), the proximal end (514) of which is passable through a body orifice of a patient (18) to a target area (30).Type: GrantFiled: June 3, 2016Date of Patent: November 27, 2018Assignee: avateramedical GmbHInventor: Marcel Seeber
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Patent number: 10092365Abstract: An apparatus for robot-assisted surgery as well as a method for assisting the positioning of a manipulator arm of an apparatus for robot-assisted surgery. An instrument unit is connected to a coupling unit of the manipulator arm. The instrument unit has a surgical instrument with an instrument shaft, the proximal end of which is passable through a body orifice of a patient to a target area. When connecting the instrument unit to the coupling unit the distance vector (V), which is orthogonal to the longitudinal axis of the instrument shaft of the surgical instrument, between the longitudinal axis and the target area defined by the coordinates (xz, yz, zz) is determined. A first control information is generated when the amount of the determined distance vector (V) has and/or falls below a first preset value. An output unit outputs a signal dependent on the first control information.Type: GrantFiled: June 3, 2016Date of Patent: October 9, 2018Assignee: avateramedical GmbHInventor: Marcel Seeber
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Publication number: 20180228343Abstract: A device to set and retrieve a reference point during a surgical procedure. The device (12) has an endoscope (312) which captures several images successively as an image sequence and generates image data corresponding to the image sequence, which data are then processed and output on at least one display unit (44).Type: ApplicationFiled: February 15, 2018Publication date: August 16, 2018Inventor: Marcel SEEBER
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Publication number: 20170348063Abstract: A device for robot-assisted surgery with at least one coupling unit (100) of a manipulator arm (16) comprising a first transmitting means (102). A sterile cover (38) comprising a sterile lock (200) serves to shield the manipulator arm (16) from a sterile area (39). The sterile lock (200) is connectable both to the coupling unit (100) and to the sterile unit (400). The sterile lock (200) has at least one lock flap (208, 210) which in a closed state shields the first transmitting means (102) in a sterile manner. The sterile unit (400) comprising a second transmitting means (406) has sterile flaps (402, 404) which in a closed state shield the second transmitting means (406) in a sterile manner. When connecting the sterile unit (400) to the sterile lock (200) the lock flap (208, 210) and the sterile flap (402, 404) are opened so that a direct transmission between the first transmitting means (102) and the second transmitting means (406) is possible.Type: ApplicationFiled: November 17, 2015Publication date: December 7, 2017Applicant: avateramedical GmbHInventors: Marcus BRAUN, Stephan BARBER, Marcel SEEBER
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Patent number: 9795454Abstract: The invention describes a retaining and positioning device of a surgical instrument and/or of an endoscope for minimally invasive surgery, more particularly for use within a surgical robot system, including a first axis of rotation, around which a retaining element can be rotated. The first axis of rotation always intersects with a longitudinal axis of at least one surgical instrument and/or of an endoscope in a pivotal point by means of a thrust drive being attached to the retaining element, to which thrust drive an instrument drive unit can be rotatably arranged around the pivotal point. The instrument drive unit has a telescopic arrangement via which the surgical instrument can be moved in a translational manner along the longitudinal axis thereof by means of a guide arrangement in the body in such a manner that the longitudinal axis of the surgical instrument is variably adjustable relative to the telescopic arrangement.Type: GrantFiled: December 12, 2013Date of Patent: October 24, 2017Assignee: avateramedical GmbHInventors: Marcel Seeber, Andreas Karguth, Christian Trommer
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Publication number: 20160361122Abstract: The invention relates to an apparatus for robot-assisted surgery as well as a method for assisting the positioning of a manipulator arm of an apparatus for robot-assisted surgery. An instrument unit is connected to a coupling unit of the manipulator arm. The instrument unit has a surgical instrument with an instrument shaft, the proximal end of which is passable through a body orifice of a patient to a target area. When connecting the instrument unit to the coupling unit the distance vector (V), which is orthogonal to the longitudinal axis of the instrument shaft of the surgical instrument, between the longitudinal axis and the target area defined by the coordinates (xz, yz, zz) is determined. A first control information is generated when the amount of the determined distance vector (V) has and/or falls below a first preset value. An output unit outputs a signal dependent on the first control information.Type: ApplicationFiled: June 3, 2016Publication date: December 15, 2016Inventor: Marcel SEEBER
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Publication number: 20160361128Abstract: The invention relates to an apparatus for robot-assisted surgery, a positioning device (600, 700) as well as a method for assisting in the positioning of a manipulator arm (16) of an apparatus for robot-assisted surgery. The apparatus comprises a positioning device (600, 700) which is connected to a coupling unit (100) of the manipulator arm (16) instead of an instrument unit (300). The instrument unit (300) has a surgical instrument (500) with an instrument shaft (512), the proximal end (514) of which is passable through a body orifice of a patient (18) to a target area (30).Type: ApplicationFiled: June 3, 2016Publication date: December 15, 2016Inventor: Marcel SEEBER
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Publication number: 20160192827Abstract: The present invention concerns an endoscope for minimally invasive surgery, especially for use within a surgical robotic system, which comprises a main support device (4), which basically extends over the entire length of the endoscope from the outside to the interior of the body, and which comprises at its distal end at least one illumination unit (15, 16) and two imaging devices (12a, 13a, 14a, 12b, 13b, 14b; 12c), wherein each of the imaging devices (12a, 13a, 14a, 12b, 13b, 14b; 12c) is basically arranged in such a way that it can be rotated to the outside on the same level as the main support device (4), a trocar (1), by means of which the endoscope can enter the body, and an additional support device (3), which is provided at the trocar (1) and/or the main support device (4), wherein the additional support device (3) comprises at its distal end an additional imaging device (8, 9, 10, 11), which can be rotated from the additional support device (3) to the outside and wherein the additional imaging deviceType: ApplicationFiled: March 10, 2016Publication date: July 7, 2016Inventors: Hubertus von Grünberg, Marcel Seeber, Jens-Uwe Stolzenburg
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Publication number: 20160184030Abstract: The invention describes a retaining and positioning device of a surgical instrument and/or of an endoscope for minimally invasive surgery, more particularly for use within a surgical robot system, including a first axis of rotation, around which a retaining element can be rotated. The first axis of rotation always intersects with a longitudinal axis of at least one surgical instrument and/or of an endoscope in a pivotal point by means of a thrust drive being attached to the retaining element, to which thrust drive an instrument drive unit can be rotatably arranged around the pivotal point. The instrument drive unit has a telescopic arrangement via which the surgical instrument can be moved in a translational manner along the longitudinal axis thereof by means of a guide arrangement in the body in such a manner that the longitudinal axis of the surgical instrument is variably adjustable relative to the telescopic arrangement.Type: ApplicationFiled: December 12, 2013Publication date: June 30, 2016Inventors: Marcel SEEBER, Andreas KARGUTH, Christian TROMMER
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Publication number: 20160151115Abstract: A device for robot-assisted surgery, comprising at least one non-sterile manipulator arm (12) having a coupling unit (100) with drive elements. The device further has an instrument unit (300) which comprises a surgical instrument (500) and a sterile sterile unit (400) for coupling the surgical instrument (500) to the drive elements of the coupling unit (100). The coupling unit (100) comprises a translatory drive element (110, 112) for generating a translatory drive movement and a rotatory drive element (114, 116) for generating a rotatory drive movement. The sterile unit (400) has a translationally driven element (408, 410) couplable to the translatory drive element (110, 112) and a rotationally driven element (412, 414) couplable to the rotatory drive element (114, 116). The device has a sterile lock (200) which is capable of being coupled to the coupling unit (100) and to the sterile unit (400).Type: ApplicationFiled: November 25, 2015Publication date: June 2, 2016Inventors: Andreas KARGUTH, Christian TROMMER, Marcel SEEBER
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Patent number: 9307894Abstract: The present invention concerns an endoscope for minimally invasive surgery, especially for use within a surgical robotic system, which comprises a main support device (4), which basically extends over the entire length of the endoscope from the outside to the interior of the body, and which comprises at its distal end at least one illumination unit (15, 16) and two imaging devices (12a, 13a, 14a, 12b, 13b, 14b; 12c), wherein each of the imaging devices (12a, 13a, 14a, 12b, 13b, 14b; 12c) is basically arranged in such a way that it can be rotated to the outside on the same level as the main support device (4), a trocar (1), by means of which the endoscope can enter the body, and an additional support device (3), which is provided at the trocar (1) and/or the main support device (4), wherein the additional support device (3) comprises at its distal end an additional imaging device (8, 9, 10, 11), which can be rotated from the additional support device (3) to the outside and wherein the additional imaging deviceType: GrantFiled: March 14, 2013Date of Patent: April 12, 2016Assignee: Avateramedical GmbHInventors: Hubertus von Grünberg, Marcel Seeber, Jens-Uwe Stolzenburg
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Publication number: 20150005784Abstract: The invention describes a mounting and positioning device of a surgical instrument and/or an endoscope for minimally-invasive surgery, in particular for use within a surgical robot system, comprising a first axis of rotation (3), around which a support element (4) is rotatably arranged, wherein the first axis of rotation (3) intersects with the longitudinal axis (11) of at least one surgical instrument (9; 17A, 17b) and/or an endoscope (9; 17A, 17b) in a pivot point (13), as the result of a deviation drive (5) being fixed on the support element (4), said deviation drive arranging an instrument drive unit (15) in rotatable fashion around a pivot point (13), and wherein a telescopic device (8) is provided at an instrument drive unit (15), which allows for the translatory movement of the surgical instrument (9; 17A, 17b) and/or the endoscope (9; 17A, 17B) into the body, along its longitudinal axis (11) using a guide device (10, 10s) in such fashion that the longitudinal axis (11) of the surgical instrument (9; 1Type: ApplicationFiled: March 14, 2013Publication date: January 1, 2015Inventors: Marcel Seeber, Andreas Karguth, Christian Trommer
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Publication number: 20140180001Abstract: The present invention concerns an endoscope for minimally invasive surgery, especially for use within a surgical robotic system, which comprises a main support device (4), which basically extends over the entire length of the endoscope from the outside to the interior of the body, and which comprises at its distal end at least one illumination unit (15, 16) and two imaging devices (12a, 13a, 14a, 12b, 13b, 14b; 12c), wherein each of the imaging devices (12a, 13a, 14a, 12b, 13b, 14b; 12c) is basically arranged in such a way that it can be rotated to the outside on the same level as the main support device (4), a trocar (1), by means of which the endoscope can enter the body, and an additional support device (3), which is provided at the trocar (1) and/or the main support device (4), wherein the additional support device (3) comprises at its distal end an additional imaging device (8, 9, 10, 11), which can be rotated from the additional support device (3) to the outside and wherein the additional imaging deviceType: ApplicationFiled: March 14, 2013Publication date: June 26, 2014Applicant: avanteramedical GmBHInventors: Hubertus von Grünberg, Marcel Seeber
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Publication number: 20140180309Abstract: The invention describes a mounting and positioning device of a surgical instrument and/or an endoscope for minimally-invasive surgery, in particular for use within a surgical robot system, comprising a first axis of rotation (3), around which a support element (4) is rotatably arranged, wherein the first axis of rotation (3) intersects with the longitudinal axis (11) of at least one surgical instrument (9; 17A, 17b) and/or an endoscope (9; 17A, 17b) in a pivot point (13), as the result of a deviation drive (5) being fixed on the support element (4), said deviation drive arranging an instrument drive unit (15) in rotatable fashion around a pivot point (13), and wherein a telescopic device (8) is provided at an instrument drive unit (15), which allows for the translatory movement of the surgical instrument (9; 17A, 17b) and/or the endoscope (9; 17A, 17B) into the body, along its longitudinal axis (11) using a guide device (10, 10s) in such fashion that the longitudinal axis (11) of the surgical instrument (9; 1Type: ApplicationFiled: March 14, 2013Publication date: June 26, 2014Applicant: avateramedical GmBHInventors: Marcel Seeber, Andreas Karguth, Christian Trommer
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Publication number: 20140179997Abstract: The present invention relates to a surgical robot system with at least two robot arms (45, 47, 49, 51), on each of which is arranged at least one endoscope for a minimally invasive surgery, wherein the first endoscope on the first robot arm (47) comprises a main support means (4b) and which comprises at the distal end at least one lighting unit (23, 24) and two image-taking devices (20a, 21a, 22a, 20b, 21b, 22b), and a trocar (1b), and wherein the second endoscope on to the second robot arm (45) comprises a main support means (4a), a trocar (1a), and an auxiliary support means (3).Type: ApplicationFiled: March 14, 2013Publication date: June 26, 2014Applicant: avateramedical GmBHInventors: Hubertus von Grünberg, Marcel Seeber