Patents by Inventor Sven Martin
Sven Martin 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: 11964415Abstract: An injection molding apparatus comprises a support base and a mold carrier removably mounted to the support base. The mold carrier includes a mounting plate with attachment features for engaging the support base. A mold with two mold plates is slidably mounted to the mounting 5 plate. A clamp is operable to move the plates between open and closed positions. In the closed position, the plates abut one another. In the open position, the plates are spaced apart for removing molded articles.Type: GrantFiled: August 29, 2019Date of Patent: April 23, 2024Assignee: HUSKY INJECTION MOLDING SYSTEMS LTDInventors: Joaquim Martins Nogueira, Adam Christopher Ulemek, Ralf Walter Fisch, Sven Kmoch, Alex Teng
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Patent number: 11951085Abstract: The present technology is related to reducing or treating neurological swelling and related conditions with SUR1-TRPM4 channel inhibitors. In some embodiments, the methods include: reducing late neurological deterioration or preventing death, reducing cerebral midline shift, reducing the degree of disability in a subject, counteracting blood glucose levels in a subject receiving a SUR1-TRPM4 channel inhibitor, preventing brain swelling, monitoring liver enzyme activity along with treating injury or conditions related to CNS edema, or monitoring cardiac activity along with treating injury or conditions related to CNS edema.Type: GrantFiled: September 29, 2021Date of Patent: April 9, 2024Assignee: REMEDY PHARMACEUTICALS, INC.Inventor: Sven Martin Jacobson
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Publication number: 20240095645Abstract: A method of generating customizable goal representation is disclosed. A request from a user to view a goal representation is received. A flexible goal ontology is accessed that comprises one or more goal entities, one or more goal relationships between the goal entities, or one or more goal properties, the one or more goal properties including one or more metadata attributes relating to the one or more goal entities. A set of mapping rules is obtained that defines mappings between one or more goals. The set of mapping rules is evaluated to assemble a customized goal representation tailored to the user. The customized goal representation is updated based on a revaluation of the mapping rules affected by changes to the one or more goal entities, the one or more goal relationships, or the one or more properties.Type: ApplicationFiled: September 21, 2023Publication date: March 21, 2024Inventors: Sven Martin Andreas Elfgren, Friedrich I. Riha, Elliot Piersa Dahl, Eric Koslow, Nicole Jensen McMullin, Natasha Hede, Connie Lynn Chen, Alexa Jean Kriebel, Chije Wang'ati, JR., Megan McGowan, Ami Tushar Bhatt, Jeffrey Ryan Gurr, Tyler Kowalewski, Rahul Rangnekar, Byron Sha Yang, Jerry Wu, Ricky Rizal Zein, Romain Beauxis, Adnan Chowdhury, Priya Balasubramanian, Gilles Yvetot, Shaylan Hawthorne, Adnan Pirzada, Matthew Michael Parides, Jenna Nicole Soojin Lee, Ian William Richard, Laura Elizabeth Pearson, Christian Nguyen, Tovin Thomas, Adam Carter, David Achee, David Christopher Sally, Miranda Howitt, Vincent Yao, Seth Goldenberg, Aimee Jin Peng, William Qingdong Yan, Matthew Stephen Wysocki, Michael Ryan Shohoney, Ryan Maas, Asha Camper Singh, Leonardo Faria, Elliot Piersa Dahl
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Publication number: 20240077438Abstract: An apparatus and method for an inspection apparatus for inspecting a component. The inspection apparatus including a robotic arm. A micro-XRF instrument having an instrument head coupled to the robotic arm. A seat supporting the component within a scanning area during inspection; and a computer in communication with the robotic arm and the micro-XRF instrument.Type: ApplicationFiled: November 10, 2023Publication date: March 7, 2024Inventors: Richard DiDomizio, Michael Christopher Andersen, Walter Vincent Dixon, III, Timothy Hanlon, Wayne Lee Lawrence, Ramkumar Kashyap Oruganti, Jonathan Rutherford Owens, Daniel M. Ruscitto, Adarsh Shukla, Eric John Telfeyan, Gregory Donald Crim, Michael Wylie Krauss, André Dziurla, Sven Martin Joachim Larisch, Falk Reinhardt, Roald Alberto Tagle Berdan, Henning Schroeder
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Patent number: 11880145Abstract: A method for measuring a substrate for semiconductor lithography using a measuring device, wherein the measuring device comprises a recording device for capturing at least a partial region of the substrate and, wherein the distance between the substrate and an imaging optical unit of the recording device is varied while the partial region is captured by the recording device.Type: GrantFiled: October 26, 2022Date of Patent: January 23, 2024Assignee: Carl Zeiss SMT GmbHInventors: Sven Martin, Oliver Jaeckel
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Publication number: 20230414489Abstract: The present disclosure is drawn to a method of treating a patient in need of treatment, comprising identifying a patient in need of treatment for stroke, traumatic brain injury, spinal cord injury, myocardial infarction, shock, organ ischemia, ventricular arrhythmias, ischemic injury, or hypoxia/ischemia; administering a bolus of glyburide to the patient; and administering a continuous infusion of glyburide to the patient at from about 15 ?g/hr and about 300 ?g/hr, wherein the continuous infusion glyburide is administered for a period of time more than about 20 hours.Type: ApplicationFiled: January 20, 2023Publication date: December 28, 2023Inventor: Sven Martin JACOBSON
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Patent number: 11806185Abstract: A computer-implemented method is for determining at least one main acquisition parameter determining a dose of x-rays to be emitted from an x-ray emitter during image acquisition using an x-ray emitter and an x-ray detector. A first image data of a first preparatory image is evaluated to determine if a repeat condition is fulfilled and/or to determine the main acquisition parameter and/or at least one second preparatory acquisition parameter. The first preparatory image is acquired by the x-ray detector using at least one first preparatory acquisition parameter to control the x-ray emitter. In all cases or when the repeat condition is fulfilled, the main acquisition parameter is determined depending on second image data of a second preparatory image, acquired by the x-ray detector after the first preparatory image while at least one second preparatory acquisition parameter is used to control the x-ray emitter.Type: GrantFiled: January 7, 2021Date of Patent: November 7, 2023Assignee: Siemens Healthcare GmbHInventors: Andre Gebhardt, Sebastian Glawion, Thilo Hannemann, Carsten Illenseer, Daniel Lerch, Thomas Pfeiffer, Stefan Schaffert, Peter Scheuering, Bastian Schmidt, Thomas Weber, Wei He, Sven-Martin Sutter, Zhi Ming Yang
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Publication number: 20230136478Abstract: A method for measuring a substrate for semiconductor lithography using a measuring device, wherein the measuring device comprises a recording device for capturing at least a partial region of the substrate and, wherein the distance between the substrate and an imaging optical unit of the recording device is varied while the partial region is captured by the recording device.Type: ApplicationFiled: October 26, 2022Publication date: May 4, 2023Inventors: Sven Martin, Oliver Jaeckel
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Publication number: 20230098022Abstract: A method for automatically analysing 2D medical image data, including an additional object comprises acquiring the 2D medical image data from an examination portion of a patient using a first modality; acquiring additional image data from the examination portion using a different modality; and performing an automatic image analysis based on the acquired 2D medical image data and the acquired additional image data, the image analysis being adapted to the additional object.Type: ApplicationFiled: September 22, 2022Publication date: March 30, 2023Applicant: Siemens Healthcare GmbHInventors: Christian HUEMMER, Sven-Martin SUTTER, Sailesh CONJETI
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Publication number: 20230031744Abstract: One or more example embodiments relates to a computer-implemented a method for providing a label of a body part on an X-ray image, comprising receiving input data, wherein the input data is based on a red, green and blue (RGB) image of the body part, a depth image of the body part and an X-ray image of the body part; applying at least one trained function to the input data to generate output data, wherein the output data is the label of the body part, the label indicating a right body part or a left body part; and providing the output data.Type: ApplicationFiled: July 26, 2022Publication date: February 2, 2023Applicant: Siemens Healthcare GmbHInventors: Clemens JOERGER, Sven-Martin SUTTER, Jing Tai CAO, Xi Shuai PENG
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Patent number: 11559481Abstract: The present disclosure is drawn to a method of treating a patient in need of treatment, comprising identifying a patient in need of treatment for stroke, traumatic brain injury, spinal cord injury, myocardial infarction, shock, organ ischemia, ventricular arrhythmias, ischemic injury, or hypoxia/ischemia; administering a bolus of glyburide to the patient; and administering a continuous infusion of glyburide to the patient at from about 15 ?g/hr and about 300 ?g/hr, wherein the continuous infusion glyburide is administered for a period of time more than about 20 hours.Type: GrantFiled: September 24, 2020Date of Patent: January 24, 2023Assignee: BIOGEN CHESAPEAKE LLCInventor: Sven Martin Jacobson
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Publication number: 20220202574Abstract: The disclosure relates to a system comprising a foam structure and a surgical fixation device for attaching the foam structure to bone, the foam structure comprising: a porous body made of at least one biocompatible implant material, wherein the porous body is coated with a coating, which is capable of stimulating bone ingrowth.Type: ApplicationFiled: December 30, 2021Publication date: June 30, 2022Inventors: Sven Martin Kuhn, Tobias Stark, Miriam Ruhr, Stefan Gutzeit
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Patent number: 11337669Abstract: At least one example embodiment provides a method for automatic positioning of an X-ray source of a medical X-ray system with a mobile X-ray detector. The method includes determining an examination region of the examination object, acquiring a position and a location of the examination object and the examination region by way of an optical position determining system, localizing the examination region, ascertaining a field point of the central ray of the X-ray source and a collimator size of the X-ray source based on the localized examination region, and automatic positioning of the X-ray source based on the field point and the collimator size.Type: GrantFiled: September 29, 2020Date of Patent: May 24, 2022Assignee: SIEMENS HEALTHCARE GMBHInventors: Sven-Martin Sutter, Daniel Lerch
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Publication number: 20220125750Abstract: The present technology is related to reducing or treating neurological swelling and related conditions with SUR1-TRPM4 channel inhibitors. In some embodiments, the methods include: reducing late neurological deterioration or preventing death, reducing cerebral midline shift, reducing the degree of disability in a subject, counteracting blood glucose levels in a subject receiving a SUR1-TRPM4 channel inhibitor, preventing brain swelling, monitoring liver enzyme activity along with treating injury or conditions related to CNS edema, or monitoring cardiac activity along with treating injury or conditions related to CNS edema.Type: ApplicationFiled: September 29, 2021Publication date: April 28, 2022Applicant: BIOGEN CHESAPEAKE LLCInventor: Sven Martin JACOBSON
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Patent number: 11207038Abstract: A method is for collimator element adjustment of an x-ray system with a central x-ray axis and an optical axis of an optical imaging device differing therefrom. In an embodiment, the method includes displaying a first recorded optical image of the examination object; marking a target region as a region to be shown in the displayed first recorded optical image; determination of at least one first collimator element position value based on the marked target region in the first recorded optical image; and adjustment of the collimator element position with the at least one first collimator element position value determined.Type: GrantFiled: March 16, 2020Date of Patent: December 28, 2021Assignee: Siemens Healthcare GmbHInventor: Sven-Martin Sutter
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Patent number: 11135064Abstract: An implant to fill a hole in tissue, such as bone tissue, comprising a first portion that is insertable through the hole when in a first compressed position, wherein the first portion cannot pass through the hole when in a first deployed position; and a second portion that cannot pass through the hole when in the second deployed position. The first and second portions of the implant can be deployed independently. Therefore, in operation, it is possible to insert the first portion of the implant through the hole when in the first compressed position, deploying the first portion to transition it to the first deployed position while the second portion remains in the second compressed position, and then deploying the second portion to transition it to the second deployed position. The devices and methods may be used, for example, in transsphenoidal or other orthopedic surgeries involving bone tissue.Type: GrantFiled: September 12, 2018Date of Patent: October 5, 2021Assignee: Stryker European Operations Holdings LLCInventors: Sven Martin Kuhn, Stefan Gutzeit, Greg Swords, Levi Ruthardt
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Patent number: 11112702Abstract: The invention relates to a device and a method for characterizing a microlithographic mask. A device according to the invention has an illumination optical unit for illuminating structures of a mask intended for use in a lithography process in a microlithographic projection exposure apparatus, a detector unit, and an evaluation unit for evaluating the data recorded by the detector unit, wherein the detector unit is configured for the spatially resolved determination of both the intensity and the polarization state of the respectively impinging light emanating from the mask.Type: GrantFiled: August 31, 2020Date of Patent: September 7, 2021Assignee: Carl Zeiss SMT GmbHInventors: Sven Martin, Thomas Frank, Ulrich Matejka
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Publication number: 20210244669Abstract: The present invention provides compositions, methods for lyophilizing compounds and making pharmaceutical compositions, and kits providing solutions and lyophilized formulations of compounds. The compositions, methods, and kits are particularly useful in pharmaceutical applications involving therapeutic agents that have low solubility at low pH and medium pH values. Certain embodiments provide methods for lyophilizing compounds in liquid solutions, which include the steps of a) preparing aqueous solutions of a compound of interest in the absence of buffer; b) adjusting the pH to high values of pH in order to increase the solubility of the compound of interest; and c) freeze-drying the solution to provide a lyophilized solid composition. Aqueous solutions including buffer are also disclosed. Lyophilized formulations, including micronized and non-micronized powders, are provided.Type: ApplicationFiled: December 18, 2020Publication date: August 12, 2021Applicant: BIOGEN CHESAPEAKE LLCInventor: Sven Martin Jacobson
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Patent number: 11083508Abstract: A cranial burr hole plate is provided, the burr hole plate comprising a plate body and a plurality of spikes extending from the plate body. The spikes are configured to engage cranial bone, wherein the burr hole plate is deformable to enable movement of the spikes from a burr hole disengaging configuration to a burr hole engaging configuration upon deformation of the burr hole plate. Also provided is a deformation instrument for moving the spikes of a cranial burr hole plate into the burr hole engaging configuration is provided. Moreover, a cranial burr hole plating system is provided that comprises the cranial burr hole plate and the deformation instrument.Type: GrantFiled: August 7, 2018Date of Patent: August 10, 2021Assignee: Stryker European Holdings I, LLCInventor: Sven Martin Kuhn
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Publication number: 20210236081Abstract: A computer-implemented method is for determining at least one main acquisition parameter determining a dose of x-rays to be emitted from an x-ray emitter during image acquisition using an x-ray emitter and an x-ray detector. A first image data of a first preparatory image is evaluated to determine if a repeat condition is fulfilled and/or to determine the main acquisition parameter and/or at least one second preparatory acquisition parameter. The first preparatory image is acquired by the x-ray detector using at least one first preparatory acquisition parameter to control the x-ray emitter. In all cases or when the repeat condition is fulfilled, the main acquisition parameter is determined depending on second image data of a second preparatory image, acquired by the x-ray detector after the first preparatory image while at least one second preparatory acquisition parameter is used to control the x-ray emitter.Type: ApplicationFiled: January 7, 2021Publication date: August 5, 2021Applicant: Siemens Healthcare GmbHInventors: Andre GEBHARDT, Sebastian GLAWION, Thilo HANNEMANN, Carsten ILLENSEER, Daniel LERCH, Thomas PFEIFFER, Stefan SCHAFFERT, Peter SCHEUERING, Bastian SCHMIDT, Thomas WEBER, Wei HE, Sven-Martin SUTTER, Zhi Ming YANG