Patents Assigned to NVision Imaging Technologies GmbH
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Patent number: 12265886Abstract: The present disclosure describes non-classical (e.g., quantum) computing systems and methods that utilize dopant molecules contained in host materials as qubits.Type: GrantFiled: May 9, 2023Date of Patent: April 1, 2025Assignee: NVision Imaging Technologies GmbHInventors: Ilai Schwartz, Matthias Pfender, Tobias Schaub, Philipp Neumann
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Publication number: 20250091980Abstract: The present disclosure describes hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes methods for producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes precursor compounds for use in producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications.Type: ApplicationFiled: September 6, 2024Publication date: March 20, 2025Applicant: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai SCHWARTZ, Michael KEIM, Stephan KNECHT
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Patent number: 12216185Abstract: Systems and methods are disclosed for increasing a nuclear spin polarization in a target compound. Nuclear spin polarization can be increased by obtaining the target compound or a precursor of the target compound. The target compound or precursor can include a first proton and a second proton sharing a singlet spin order and a third proton coupled at least to one of the first proton or the second proton. A target atom can be coupled to at least the third proton. The precursor can be placed within a mean magnetic field strength below 500 mT. A magnetic resonance (MR) pulse sequence can be applied to the precursor. the MR pulse sequence configured to transfer population from the first and second protons to the target atom, thereby imparting a non-equilibrium nuclear spin polarization of at least 1%, 2%, 5%, 10%, or 20% to the target atom.Type: GrantFiled: December 7, 2021Date of Patent: February 4, 2025Assignee: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai Schwartz, Michael Keim, Stephan Knecht
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Publication number: 20240361407Abstract: Systems and methods are disclosed for increasing a nuclear spin polarization of a target compound. In accordance with such systems and methods, a first non-thermal equilibrium nuclear spin polarization can be imparted to at least one source atom of a source compound, the source atom having a nuclear gyromagnetic ratio of at least 12 megahertz per tesla (MHz/T). A first solution can be obtained that includes the source compound and a target compound. The at least one source atom can be present in a source concentration of at least 0.1 molar (M) in the first solution. A second non-thermal equilibrium nuclear spin polarization of at least 0.01% can be imparted to the at least one target atom of the target compound via a nuclear Overhauser effect (NOE) transfer of the first non-thermal equilibrium nuclear spin polarization to the at least one target atom.Type: ApplicationFiled: July 5, 2024Publication date: October 31, 2024Applicant: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai SCHWARTZ, Anna PARKER, Stephan KNECHT, Tim EICHHORN, John BLANCHARD
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Publication number: 20240350678Abstract: The present disclosure describes hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes methods for producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes precursor compounds for use in producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications.Type: ApplicationFiled: August 26, 2022Publication date: October 24, 2024Applicant: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai SCHWARTZ, Michael KEIM, Stephan KNECHT
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Patent number: 12110270Abstract: The present disclosure describes hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes methods for producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes precursor compounds for use in producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications.Type: GrantFiled: September 23, 2023Date of Patent: October 8, 2024Assignee: NVision Imaging Technologies GmbHInventors: Ilai Schwartz, Michael Keim, Stephan Knecht
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Publication number: 20240299593Abstract: The present disclosure describes hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes methods for producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes precursor compounds for use in producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications.Type: ApplicationFiled: June 22, 2022Publication date: September 12, 2024Applicant: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai SCHWARTZ, Michael KEIM, Stephan KNECHT, Christophoros VASSILIOU, Felix JOSTEN, Senay KARAALI
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Publication number: 20240272252Abstract: Systems and methods are disclosed for increasing a nuclear spin polarization in a target compound. Nuclear spin polarization can be increased by obtaining the target compound or a precursor of the target compound. The target compound or precursor can include a first proton and a second proton sharing a singlet spin order and a third proton coupled at least to one of the first proton or the second proton. A target atom can be coupled to at least the third proton. The precursor can be placed within a mean magnetic field strength below 500 mT. A magnetic resonance (MR) pulse sequence can be applied to the precursor. the MR pulse sequence configured to transfer population from the first and second protons to the target atom, thereby imparting a non-equilibrium nuclear spin polarization of at least 1 %, 2%, 5%, 10%, or 20% to the target atom.Type: ApplicationFiled: December 7, 2021Publication date: August 15, 2024Applicant: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai SCHWARTZ, Michael KEIM, Stephan KNECHT
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Publication number: 20240241195Abstract: A method for preparing an NMR material, comprising generating parahydrogen in gas or liquid form at a first location; transporting the parahydrogen away from the first location; mixing a precursor compound including a metabolite component with a catalyst for hydrogenation; hydrogenating the precursor compound using the parahydrogen; transferring polarization in the precursor compound to a nuclear spin of the metabolite component; cleaving a side arm of the precursor compound in a chemical reaction, with the metabolite molecule being one of the products of the reaction; separating the metabolite molecule from the catalyst for hydrogenation and other products of the reaction; and generating metabolite molecules for use in an MRI scanner by extracting a sample of the metabolite molecule having at least 5% polarization.Type: ApplicationFiled: February 20, 2024Publication date: July 18, 2024Applicants: NVISION IMAGING TECHNOLOGIES GMBH, UNIVERSITÄT ULMInventors: Ilai SCHWARTZ, Michael KEIM, Martin PLENIO, Benedikt TRATZMILLER
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Patent number: 11940510Abstract: A method for preparing an NMR material, comprising generating parahydrogen in gas or liquid form at a first location; transporting the parahydrogen away from the first location; mixing a precursor compound including a metabolite component with a catalyst for hydrogenation; hydrogenating the precursor compound using the parahydrogen; transferring polarization in the precursor compound to a nuclear spin of the metabolite component; cleaving a side arm of the precursor compound in a chemical reaction, with the metabolite molecule being one of the products of the reaction; separating the metabolite molecule from the catalyst for hydrogenation and other products of the reaction; and generating metabolite molecules for use in an MRI scanner by extracting a sample of the metabolite molecule having at least 5% polarization.Type: GrantFiled: March 31, 2021Date of Patent: March 26, 2024Assignees: NVision Imaging Technologies Gmbh, Universität UlmInventors: Ilai Schwartz, Michael Keim, Martin Plenio, Benedikt Tratzmiller
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Publication number: 20240077552Abstract: Systems and methods are disclosed for increasing a nuclear spin polarization of a target compound. In accordance with such systems and methods, a first non-thermal equilibrium nuclear spin polarization can be imparted to at least one source atom of a source compound, the source atom having a nuclear gyromagnetic ratio of at least 12 megahertz per tesla (MHz/T). A first solution can be obtained that includes the source compound and a target compound. The at least one source atom can be present in a source concentration of at least 0.1 molar (M) in the first solution. A second non-thermal equilibrium nuclear spin polarization of at least 0.01% can be imparted to the at least one target atom of the target compound via a nuclear Overhauser effect (NOE) transfer of the first non-thermal equilibrium nuclear spin polarization to the at least one target atom.Type: ApplicationFiled: July 27, 2023Publication date: March 7, 2024Applicant: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai SCHWARTZ, Anna PARKER, Stephan KNECHT, Tim EICHHORN, John BLANCHARD
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Publication number: 20240018087Abstract: The present disclosure describes hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes methods for producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications. The present disclosure describes precursor compounds for use in producing hyperpolarized materials for use in nuclear magnetic resonance, magnetic resonance imaging, or similar applications.Type: ApplicationFiled: September 23, 2023Publication date: January 18, 2024Applicant: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai SCHWARTZ, Michael KEIM, Stephan KNECHT
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Publication number: 20230394349Abstract: The present disclosure describes non-classical (e.g., quantum) computing systems and methods that utilize dopant molecules contained in host materials as qubits.Type: ApplicationFiled: May 9, 2023Publication date: December 7, 2023Applicant: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai SCHWARTZ, Matthias PFENDER, Tobias SCHAUB, Philipp NEUMANN
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Publication number: 20230295058Abstract: Systems and methods are disclosed for generation of hyperpolarized target compounds. Generation of a hyperpolarized target compound can include application of a sequence of microwave pulses to a solution containing the target compound or a precursor of the target compound; or modulation of a magnetic field applied to the solution. When the precursor is hyperpolarized, the precursor can be cleaved to generate the hyperpolarized target compound. The hyperpolarized target compound can then be induced to precipitate out of the solution. The precipitate can be redissolved in a specified volume of solvent to form a solution having a desired concentration of the hyperpolarized target compound.Type: ApplicationFiled: July 23, 2021Publication date: September 21, 2023Applicant: NVISION IMAGING TECHNOLOGIES GMBHInventors: Ilai SCHWARTZ, Michael KEIM
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Patent number: 11681941Abstract: The present disclosure describes non-classical (e.g., quantum) computing systems and methods that utilize dopant molecules contained in host materials as qubits.Type: GrantFiled: May 11, 2022Date of Patent: June 20, 2023Assignee: NVision Imaging Technologies GmbHInventors: Ilai Schwartz, Matthias Pfender, Tobias Schaub, Philipp Neumann
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Publication number: 20230152399Abstract: A method for preparing an NMR material, comprising generating parahydrogen in gas or liquid form at a first location; transporting the parahydrogen away from the first location; mixing a precursor compound including a metabolite component with a catalyst for hydrogenation; hydrogenating the precursor compound using the parahydrogen; transferring polarization in the precursor compound to a nuclear spin of the metabolite component; cleaving a side arm of the precursor compound in a chemical reaction, with the metabolite molecule being one of the products of the reaction; separating the metabolite molecule from the catalyst for hydrogenation and other products of the reaction; and generating metabolite molecules for use in an MRI scanner by extracting a sample of the metabolite molecule having at least 5% polarization.Type: ApplicationFiled: March 31, 2021Publication date: May 18, 2023Applicants: NVISION IMAGING TECHNOLOGIES GMBH, UNIVERSITÄT ULMInventors: Ilai SCHWARTZ, Michael KEIM, Martin PLENIO, Benedikt TRATZMILLER
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Publication number: 20220018915Abstract: Systems and methods for generating hyperpolarized target materials are disclosed. The disclosed systems and methods can include hyperpolarizing a compound then transferring polarization to a target material. The compound can be selected to have nuclear spins. The compound can be further selected to have electron spins that, when exposed to certain electromagnetic radiation, exceed a predetermined level of polarization. The compound can be exposed to such electromagnetic radiation, optically hyperpolarizing the electron spins of the compound. Polarization can then be transferred from the electron spins of the compound to nuclear spins of the compound, at least in part by exposing the compound to a magnetic field. The compound can be exposed to the target material before or after pulverizing the compound to increase the surface area of the compound, thereby facilitating transfer of polarization from the compound to the target material.Type: ApplicationFiled: November 20, 2019Publication date: January 20, 2022Applicant: Nvision Imaging Technologies GmbHInventors: Ilai SCHWARTZ, Tim Rolf EICHHORN, Christophoros VASSILIOU, Michael KEIM
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Publication number: 20190369175Abstract: Embodiments of the present disclosure include a hyperpolarizing system, comprising a hyperpolarization reaction chamber having a location therein for supporting a solid catalyst with a sample in contact therewith, a cooler configured to lower a temperature of the sample and the solid catalyst to a temperature in a range of about 70K and about 250K, and an optical light source configured to direct light energy toward the solid catalyst to thereby hyperpolarize electrons in the solid catalyst and facilitate transfer of hyperpolarization to nuclei of the sample.Type: ApplicationFiled: May 31, 2019Publication date: December 5, 2019Applicant: NVision Imaging Technologies GmbHInventors: Ilai SCHWARTZ, Christoph MUELLER
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Publication number: 20190346527Abstract: The invention relates to a method for the hyperpolarization of a material sample (4), which hits a number of first spin moments (10) of a first spin moment type, wherein the number of first spin moments (10) is brought into interaction with a second spin moment (16) of a second spin moment type, wherein the first spin moments (10) are nuclear spin moments and the second spin moment (16) is an election spin moment, wherein the first and second spin moments (10, 16) are exposed to a homogeneous magnetic field (B), wherein the second spin moment (16) is polarized along the magnetic field (B), wherein the second spin moment (16) is coherently manipulated by means of a, preferably repeated, sequence (S) having a number of successive high-frequency pulses (Pki, Pk?i) temporally offset to each by durations (Tki, Tk?i, T), in such a way that a polarization transfer from the second spin moment (16) to the first spin moments (10) occurs, and wherein durations (Tki, Tk?i, T) inversely proportional to a Lamor frequency (Type: ApplicationFiled: December 21, 2017Publication date: November 14, 2019Applicant: NVision Imaging Technologies GmbHInventors: Ilai Schwartz, Martin Plenio, Qiong Chen, Zhenyu Wang