Patents by Inventor Juergen Erwin Rahmer
Juergen Erwin Rahmer 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: 11976985Abstract: The invention relates to a marker device and a tracking system for tracking the marker device, wherein the marker device comprises a rotationally oscillatable magnetic object and wherein the rotational oscillation is excitable by an external magnetic field, i.e. a magnetic field which is generated by a magnetic field providing unit 20, 31 that is located outside of the marker device. The rotational oscillation of the magnetic object induces a current in coils, wherein based on these induced currents the position and optionally also the orientation of the marker device is determined. This wireless kind of tracking can be carried out with relatively small marker devices, which can be placed, for instance, in a guidewire, the marker devices can be read out over a relatively large distance and it is possible to use a single marker device for six degrees of freedom localization.Type: GrantFiled: December 10, 2019Date of Patent: May 7, 2024Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Bernhard Gleich, Juergen Erwin Rahmer, Michael Grass
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Publication number: 20240115243Abstract: Disclosed in some embodiments are microdevices, medical devices and a registration apparatuses that allow for tracking of medical device(s) in an ultrasound image while maintaining the quality of the ultrasound image. The microdevice comprises a casing and a magneto mechanical resonator. The magneto mechanical resonator comprises at least two magnetic objects providing a permanent magnetic moment. The magneto mechanical resonator is adapted to transduce an external excitation field into a mechanical movement of the at least two magnetic objects relative to each other such that a changing magnetic response field is generated. A pressure sensor is arranged such that an external ultrasound signal induces an additional movement of the magnetic objects such that the changing magnetic response field is changed in dependency of the external ultrasound signal.Type: ApplicationFiled: December 2, 2022Publication date: April 11, 2024Inventors: BERNHARD GLEICH, JUERGEN ERWIN RAHMER
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Publication number: 20240049978Abstract: A wireless passive marker device (1) to be tracked and a respective tracking system (3) are provided which make use of a sensing unit (10) comprising a resonator element (11) with piezoelectric properties and a coil element (13), whereby an externally applied excitation field having a particular frequency is applied to act on the sensing unit (10) and wherein the sensing unit (10) responds to the externally applied excitation field by the resonator element (11) performing persisting mechanical oscillations in resonant mode, the persisting mechanical oscillations resulting in a piezoelectric voltage causing the coil element (13) to generate a magnetic field that may then be detected by the tracking system (3) and used for determining the position of the marker device (1) and/or sensing a physical property in the surrounding environment of the marker device (1).Type: ApplicationFiled: December 16, 2021Publication date: February 15, 2024Inventors: BERNHARD GLEICH, JÜRGEN ERWIN RAHMER, INGO SCHMALE, TIM NIELSEN, RICHARD MOESSEL
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Patent number: 11883248Abstract: The invention relates to a passive medical identification device 1 to be used for identifying a medical tool such as, for example, a surgical instrument, if the medical tool is equipped with the identification device. The identification device comprises a casing 2, a magnetic object 3 arranged within the casing such that it is rotatable out of an equilibrium orientation by an external magnetic torque, and a restoring torque provider 4 such as, for example, a further magnetic object providing a restoring torque forcing the magnetic object back into the equilibrium orientation. The magnetic object 3 rotationally oscillates upon excitation by an external magnetic torque, thereby generating a response magnetic signal which is transduced into an induction signal that can provide a fingerprint specific for the respective identification device. Accordingly, the identity of the identification device and hence of the medical tool equipped with the identification device can be determined based on the induction signal.Type: GrantFiled: December 3, 2021Date of Patent: January 30, 2024Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Bernhard Gleich, Jürgen Erwin Rahmer
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Publication number: 20240016409Abstract: The invention relates to a medical microdevice (100) for insertion into a human body, wherein the microdevice allows for measuring at least one of a localization of the microdevice in a space and/or a physical parameter in the environment of the microdevice, wherein the microdevice comprises a casing (111) and within the casing a magneto mechanical rotator (110), wherein the magneto mechanical rotator comprises a magnetic object (113) providing a permanent magnetic moment and a rotary bearing (112) that is adapted to stabilize a rotational motion of the magnetic object, wherein the magneto mechanical rotator is adapted to transduce an external magnetic or electromagnetic excitation field into a mechanical rotation of the magnetic object relative to the rotary bearing such that a periodically changing magnetic response field is generated. The microdevice thus allows for an improved signal transmission and for a further miniaturization.Type: ApplicationFiled: November 23, 2021Publication date: January 18, 2024Inventors: BERNHARD GLEICH, JÜRGEN ERWIN RAHMER
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Publication number: 20230404432Abstract: A medical device for treating an associated patient includes a bronchial sensor device configured to measure fluid pressure in a bronchus of the associated patient; and an electronic controller configured to: receive the fluid pressure data from the bronchial sensor device; and calculate a fluid flow measurement through the bronchus based on the measured fluid pressure.Type: ApplicationFiled: February 21, 2023Publication date: December 21, 2023Inventors: Joerg Sabczynski, Bernhard Gleich, Juergen Erwin Rahmer, Thomas Koehler, Rafael Wiemker, Roberto Buizza, Cornelis Petrus Hendriks, Jaap Roger Haartsen, Nataly Wieberneit
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Publication number: 20230400362Abstract: The application describes devices, systems and methods related to an implantable device that is a stent or a heart valve. The implantable device includes a pressure sensor. The implantable device is for being introduced into a subject and for being wirelessly read out by an outside reading system. The pressure sensor comprises a casing with a diffusion blocking layer for maintaining a predetermined pressure within the casing and a magneto-mechanical oscillator with a magnetic object providing a permanent magnetic moment. The magneto-mechanical oscillator transduces an external magnetic or electromagnetic excitation field into a mechanical oscillation of the magnetic object, wherein at least a part of the casing is flexible for allowing to transduce external pressure changes into changes of the mechanical oscillation of the magnetic object.Type: ApplicationFiled: August 25, 2023Publication date: December 14, 2023Inventors: BERNHARD GLEICH, JUERGEN ERWIN RAHMER
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Patent number: 11774300Abstract: The invention relates to a passive pressure sensor (501) for being introduced into the circulatory system of a human being and for being wirelessly read out by an outside reading system. The pressure sensor comprises a casing (502) with a diffusion blocking layer for maintaining a predetermined pressure within the casing and a magneto-mechanical oscillator with a magnetic object (508) providing a permanent magnetic moment. The magneto-mechanical oscillator transduces an external magnetic or electromagnetic excitation field into a mechanical oscillation of the magnetic object, wherein at least a part of the casing is flexible for allowing to transduce external pressure changes into changes of the mechanical oscillation of the magnetic object. The pressure sensor can be very small and nevertheless provide high quality pressure sensing.Type: GrantFiled: December 10, 2019Date of Patent: October 3, 2023Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Bernhard Gleich, Juergen Erwin Rahmer
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Patent number: 11598677Abstract: A tracking system for tracking a marker device for being attached to a medical device is provided, whereby the marker device includes a sensing unit comprising a magnetic object which may be excited by an external magnetic or electromagnetic excitation field into a mechanical oscillation of the magnetic object, and the tracking system comprises a field generator for generating a predetermined magnetic or electromagnetic excitation field for inducing mechanical oscillations of the magnetic object, a transducer for transducing a magnetic or electromagnetic field generated by the induced mechanical oscillations of the magnetic object into one or more electrical response signals, and a position determination unit for determining the position of the marker device on the basis of the one or more electrical response signals.Type: GrantFiled: December 10, 2019Date of Patent: March 7, 2023Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Bernhard Gleich, Juergen Erwin Rahmer, Michael Grass
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Patent number: 11592341Abstract: The invention relates to a measurement device 1 comprising a rotatable magnetic object 4 which can oscillate with a resonant frequency if excited by an external magnetic torque. The measurement device 1 is adapted such that the resonant frequency depends on the temperature or on another physical or chemical quantity like pressure, in order to allow for a wireless temperature measurement or measurement of the other physical or chemical quantity via an external magnetic field providing the external magnetic torque. This measurement device can be relatively small, can be read-out over a relatively larger distance and allows for a very accurate measurement.Type: GrantFiled: December 10, 2019Date of Patent: February 28, 2023Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Bernhard Gleich, Juergen Erwin Rahmer
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Publication number: 20220257138Abstract: A tracking system for tracking a marker device for being attached to a medical device is provided, whereby the marker device includes a sensing unit comprising a magnetic object which may be excited by an external magnetic or electromagnetic excitation field into a mechanical oscillation of the magnetic object, and the tracking system comprises a field generator for generating a predetermined magnetic or electromagnetic excitation field for inducing mechanical oscillations of the magnetic object, a transducer for transducing a magnetic or electromagnetic field generated by the induced mechanical oscillations of the magnetic object into one or more electrical response signals, and a position determination unit for determining the position of the marker device on the basis of the one or more electrical response signals.Type: ApplicationFiled: December 20, 2021Publication date: August 18, 2022Inventors: BERNHARD GLEICH, JUERGEN ERWIN RAHMER, MICHAEL GRASS, MARCO VERSTEGE, DIRK SCHAEFER, WIM CROOIJMANS
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Publication number: 20220238011Abstract: A system for receiving signals from a magneto-mechanical oscillator includes a main coil array adapted to receive a response signal of the magneto-mechanical oscillator and to transmit an excitation signal to the magneto-mechanical oscillator, and an additional coil for receiving a signal of the magneto-mechanical oscillator. A localizer is adapted to localize the additional coil and comprises a controller for controlling the main coil array and the additional coil such that a received localization signal is generated, a sensitivity provider for providing sensitivity information, and a processor for determining a position and/or orientation of the additional coil based on the provided sensitivity information and based on the received localization signal. A kit is provided for upgrading a system with a main coil array, by adding one or more additional coils and providing software for locating the one or more additional coils with the use of a pilot tone transmission.Type: ApplicationFiled: January 25, 2022Publication date: July 28, 2022Inventors: BERNHARD GLEICH, JÜRGEN ERWIN RAHMER, INGO SCHMALE, TIM NIELSEN, RICHARD MOESSEL
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Publication number: 20220175487Abstract: The invention relates to a passive medical identification device 1 to be used for identifying a medical tool such as, for example, a surgical instrument, if the medical tool is equipped with the identification device. The identification device comprises a casing 2, a magnetic object 3 arranged within the casing such that it is rotatable out of an equilibrium orientation by an external magnetic torque, and a restoring torque provider 4 such as, for example, a further magnetic object providing a restoring torque forcing the magnetic object back into the equilibrium orientation. The magnetic object 3 rotationally oscillates upon excitation by an external magnetic torque, thereby generating a response magnetic signal which is transduced into an induction signal that can provide a fingerprint specific for the respective identification device. Accordingly, the identity of the identification device and hence of the medical tool equipped with the identification device can be determined based on the induction signal.Type: ApplicationFiled: December 3, 2021Publication date: June 9, 2022Inventors: BERNHARD GLEICH, JÜRGEN ERWIN RAHMER
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Publication number: 20210244305Abstract: A wireless pressure sensing unit (20) comprises a membrane (25) forming an outer wall portion of a cavity and two permanent magnets (26,28) inside the cavity. One magnet is coupled to the membrane, and at least one magnet is free to oscillate with a rotational movement. At least one is free to oscillate with a rotational movement. The oscillation takes place at a resonance frequency, which is a function of the sensed pressure, which pressure influences the spacing between the two permanent magnets. This oscillation frequency can be sensed remotely by measuring a magnetic field altered by the oscillation. The wireless pressure sensing unit may be provided on a catheter (21) or guidewire.Type: ApplicationFiled: June 11, 2019Publication date: August 12, 2021Inventors: Bernhard GLEICH, Jürgen Erwin RAHMER
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Publication number: 20200397510Abstract: A tracking system for tracking a marker device for being attached to a medical device is provided, whereby the marker device includes a sensing unit comprising a magnetic object which may be excited by an external magnetic or electromagnetic excitation field into a mechanical oscillation of the magnetic object, and the tracking system comprises a field generator for generating a predetermined magnetic or electromagnetic excitation field for inducing mechanical oscillations of the magnetic object, a transducer for transducing a magnetic or electromagnetic field generated by the induced mechanical oscillations of the magnetic object into one or more electrical response signals, and a position determination unit for determining the position of the marker device on the basis of the one or more electrical response signals.Type: ApplicationFiled: December 10, 2019Publication date: December 24, 2020Inventors: BERNHARD GLEICH, Juergen Erwin Rahmer, Michael Grass
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Publication number: 20200397320Abstract: The invention relates to a passive pressure sensor (501) for being introduced into the circulatory system of a human being and for being wirelessly read out by an outside reading system. The pressure sensor comprises a casing (502) with a diffusion blocking layer for maintaining a predetermined pressure within the casing and a magneto-mechanical oscillator with a magnetic object (508) providing a permanent magnetic moment. The magneto-mechanical oscillator transduces an external magnetic or electromagnetic excitation field into a mechanical oscillation of the magnetic object, wherein at least a part of the casing is flexible for allowing to transduce external pressure changes into changes of the mechanical oscillation of the magnetic object. The pressure sensor can be very small and nevertheless provide high quality pressure sensing.Type: ApplicationFiled: December 10, 2019Publication date: December 24, 2020Inventors: BERNHARD GLEICH, Juergen Erwin Rahmer
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Publication number: 20200400509Abstract: The invention relates to a measurement device 1 comprising a rotatable magnetic object 4 which can oscillate with a resonant frequency if excited by an external magnetic torque. The measurement device 1 is adapted such that the resonant frequency depends on the temperature or on another physical or chemical quantity like pressure, in order to allow for a wireless temperature measurement or measurement of the other physical or chemical quantity via an external magnetic field providing the external magnetic torque. This measurement device can be relatively small, can be read-out over a relatively larger distance and allows for a very accurate measurement.Type: ApplicationFiled: December 10, 2019Publication date: December 24, 2020Inventors: BERNHARD GLEICH, Juergen Erwin Rahmer
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Publication number: 20200397530Abstract: The invention relates to a marker device and a tracking system for tracking the marker device, wherein the marker device comprises a rotationally oscillatable magnetic object and wherein the rotational oscillation is excitable by an external magnetic field, i.e. a magnetic field which is generated by a magnetic field providing unit 20, 31 that is located outside of the marker device. The rotational oscillation of the magnetic object induces a current in coils, wherein based on these induced currents the position and optionally also the orientation of the marker device is determined. This wireless kind of tracking can be carried out with relatively small marker devices, which can be placed, for instance, in a guidewire, the marker devices can be read out over a relatively large distance and it is possible to use a single marker device for six degrees of freedom localization.Type: ApplicationFiled: December 10, 2019Publication date: December 24, 2020Inventors: BERNHARD GLEICH, Juergen Erwin Rahmer, Michael Grass
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Patent number: 10267873Abstract: An apparatus for operation in a magnetic particle imaging mode for influencing and/or detecting magnetic particles in a field of view, and for operation in a magnetic resonance imaging mode, includes a selector having a selection field signal generator and selection field coils, a driver having a drive field signal generator and drive field coils for changing the position in space of the two sub-zones in the field of view by a magnetic drive field so that the magnetization of magnetic particles changes locally, and a focuser having a focus field signal generator and a focus field coil unit for changing the position in space of the field of view by a magnetic focus field.Type: GrantFiled: November 29, 2011Date of Patent: April 23, 2019Assignee: Koninklijke Philips N.V.Inventors: Bernhard Gleich, Juergen Erwin Rahmer
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Patent number: 9820672Abstract: A method for colon screening and collecting data by using Magnetic Particle Imaging wherein an imaging magnetic field is generated with a spatial distribution of the magnetic field strength such that the area of examination in the colon consists of a first sub-area with lower magnetic field strength, where the magnetization of a magnetic particle which was pre-delivered to the colon is not saturated, and a second sub-area with a higher magnetic field strength, where the magnetization of said magnetic particle is saturated. The spatial location of both sub-areas in the area of examination is modified so that the magnetization of said particles changes locally. Signals are acquired and are evaluated to obtain information about the spatial distribution of the signals in the area of examination. The method may be carried out during an entire peristaltic cycle in a colon portion or segment.Type: GrantFiled: November 7, 2011Date of Patent: November 21, 2017Assignee: Koninklijke Philips N.V.Inventors: Jörn Borgert, Ingo Schmale, Jürgen Erwin Rahmer, Bernhard Gleich, Michael Harald Kuhn