Patents by Inventor Sara Lindroth
Sara Lindroth 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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Publication number: 20240065935Abstract: Techniques for pairing medical devices are described. An example method includes detecting a signal indicating a physiological parameter of a subject and determining, by analyzing the signal, that a second medical device is administering a treatment to the subject. In response to determining that the second medical device is administering the treatment to the subject, the method further includes pairing a first medical device with the second medical device. In response to pairing the first medical device with the second medical device, the method further includes transmitting data to the second medical device over a wireless channel.Type: ApplicationFiled: August 31, 2023Publication date: February 29, 2024Applicant: Stryker CorporationInventors: Robert Greenewald, Ryan W. Apperson, Fred W. Chapman, Jonas Lagerstrom, Sara Lindroth, Mark Rutzer, Eric Sandrup, Tobias Svahn
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Publication number: 20240065934Abstract: In embodiments, a CPR chest compression system includes a retention structure that can retain the patient's body, and a compression mechanism that can perform automatically CPR compressions and releases to the patient's chest. The compression mechanism can pause the performing of the CPR compressions for a short time, so that an attendant can check the patient. The CPR system can include a user interface that can output a human-perceptible check patient prompt, to alert an attendant to check the patient during the pause. The compression mechanism can during a CPR session retreat a distance away from the patient's chest whereby the patient's chest can expand without active decompression of the patient's chest beyond the chest's natural resting position.Type: ApplicationFiled: November 8, 2023Publication date: February 29, 2024Applicant: PHYSIO-CONTROL, INC.Inventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Jonas Lagerström, Bjarne Madsen Härdig, Thomas Falk
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Publication number: 20240066309Abstract: Techniques for administering therapy and monitoring a subject based on communication between medical devices are described. An example method includes receiving, by an external defibrillator, data from a mechanical chest compression device that is administering chest compressions to a subject, determining, by the external defibrillator analyzing the data, a control parameter for controlling administration of a therapy to the subject by the external defibrillator, and administering, by the external defibrillator, the therapy to the subject in accordance with the control parameter.Type: ApplicationFiled: August 31, 2023Publication date: February 29, 2024Inventors: Robert Greenewald, Ryan W. Apperson, Fred W. Chapman, Jonas Lagerstrom, Sara Lindroth, Mark Rutzer, Eric Sandrup, Tobias Svahn
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Patent number: 11896546Abstract: A CPR chest compression system includes a retention structure that retains the body of a patient, and a motor and a compressor that can perform CPR compressions to the chest of the patient. The motor is powered by a battery that is located on the retention structure but away from the motor, and is electrically connected to the motor via one or more wires. Accordingly the weight and volume of the battery can be located away from a top portion of the retention structure. This renders the CPR system is less heavy at the top, and therefore less likely to tilt and start compressing the chest at a different point. Moreover, this permits X-Rays of a larger footprint to go through the CPR system and reach the patient, in example configurations where the components are transparent to X-Rays.Type: GrantFiled: October 3, 2022Date of Patent: February 13, 2024Assignee: JOLIFE ABInventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Gregory T. Kavounas
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Patent number: 11850208Abstract: In embodiments, a CPR chest compression system includes a retention structure that can retain the patient's body, and a compression mechanism that can perform automatically CPR compressions and releases to the patient's chest. The compression mechanism can pause the performing of the CPR compressions for a short time, so that an attendant can check the patient. The CPR system can include a user interface that can output a human-perceptible check patient prompt, to alert an attendant to check the patient during the pause. The compression mechanism can during a CPR session retreat a distance away from the patient's chest whereby the patient's chest can expand without active decompression of the patient's chest beyond the chest's natural resting position.Type: GrantFiled: December 5, 2022Date of Patent: December 26, 2023Assignee: PHYSIO-CONTROL, INC.Inventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Jonas Lagerström, Bjarne Madsen Härdig, Thomas Falk
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Publication number: 20230355468Abstract: A CPR machine (100) is configured to perform, on a patient's (182) chest, compressions that alternate with releases. The CPR machine includes a compression mechanism (148), and a driver system (141) configured to drive the compression mechanism. A force sensing system (149) may sense a compression force, and the driving can be adjusted accordingly if there is a surprise. For instance, driving may have been automatic according to a motion-time profile, which is adjusted if the compression force is not as expected (850). An optional chest-lifting device (152) may lift the chest between the compressions, to assist actively the decompression of the chest. A lifting force may be sensed, and the motion-time profile can be adjusted if the compression force or the lifting force is not as expected.Type: ApplicationFiled: July 13, 2023Publication date: November 9, 2023Applicant: PHYSIO-CONTROL, INC.Inventors: Anders Nilsson, Jonas Lagerstrom, Bo Mellberg, Anders Jeppsson, Marcus Ehrstedt, Bjarne Madsen Hardig, Fredrik Arnwald, Erik von Schenck, Paul Rasmusson, Sara Lindroth, Fred Chapman, Ryan Landon, Mitchell A. Smith, Steven B. Duke, Krystyna Szul, Gregory T. Kavounas
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Patent number: 11723834Abstract: A CPR machine (100) is configured to perform, on a patient's (182) chest, compressions that alternate with releases. The CPR machine includes a compression mechanism (148), and a driver system (141) configured to drive the compression mechanism. A force sensing system (149) may sense a compression force, and the driving can be adjusted accordingly if there is a surprise. For instance, driving may have been automatic according to a motion-time profile, which is adjusted if the compression force is not as expected (850). An optional chest-lifting device (152) may lift the chest between the compressions, to assist actively the decompression of the chest. A lifting force may be sensed, and the motion-time profile can be adjusted if the compression force or the lifting force is not as expected.Type: GrantFiled: April 23, 2021Date of Patent: August 15, 2023Assignee: PHYSIO-CONTROL, INC.Inventors: Anders Nilsson, Jonas Lagerstrom, Bo Mellberg, Anders Jeppsson, Marcus Ehrstedt, Bjarne Madsen Hardig, Fredrik Arnwald, Erik von Schenck, Paul Rasmusson, Sara Lindroth, Fred Chapman, Ryan Landon, Mitchell A. Smith, Steven B. Duke, Krystyna Szul, Gregory T. Kavounas
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Publication number: 20230107980Abstract: In embodiments, a CPR chest compression system includes a retention structure that can retain the patient's body, and a compression mechanism that can perform automatically CPR compressions and releases to the patient's chest. The compression mechanism can pause the performing of the CPR compressions for a short time, so that an attendant can check the patient. The CPR system can include a user interface that can output a human-perceptible check patient prompt, to alert an attendant to check the patient during the pause. The compression mechanism can during a CPR session retreat a distance away from the patient's chest whereby the patient's chest can expand without active decompression of the patient's chest beyond the chest's natural resting position.Type: ApplicationFiled: December 5, 2022Publication date: April 6, 2023Applicant: PHYSIO-CONTROL, INC.Inventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Jonas Lagerström, Bjarne Madsen Härdig, Thomas Falk
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Publication number: 20230061886Abstract: An active backboard that can assist with adjusting a patient on the backboard to ensure that the backboard is correctly aligned for a compression mechanism of an upper portion of a mechanical cardiopulmonary resuscitation (CPR) device to perform compressions. The active backboard can also include multiple layers that can slide or move relative to each other to move the patient relative to the backboard. The active backboard can include roller bars, a wheel, and/or projections to assist with moving a patient relative to the backboard.Type: ApplicationFiled: August 29, 2022Publication date: March 2, 2023Applicant: PHYSIO-CONTROL, INC.Inventors: Tyson Taylor, Sara Lindroth, Alexey Titov, Anders Nilsson, Fred W. Chapman, Steven Chester, Robert G. Walker, Steven B. Duke, Marcus Ehrstedt, Lars Anders Jörgen Segerstein, Wiktor Kocula, Anders Jeppsson, Tobias Svahn, Per Axelsson, Jonas Lagerstrom
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Publication number: 20230063583Abstract: An alignment device for assisting a rescuer for correctly aligning a mechanical cardiopulmonary resuscitation (CPR) device. The alignment device can guide positioning of the backboard so that the backboard is correctly positioned prior to connecting an upper portion of the mechanical CPR device to the backboard. The alignment device can also include positioning the mechanical CPR device without a backboard or positioning the backboard and the upper portion of the mechanical CPR device nearly simultaneously.Type: ApplicationFiled: August 29, 2022Publication date: March 2, 2023Applicant: PHYSIO-CONTROL, INC.Inventors: Tyson Taylor, Sara Lindroth, Alexey Titov, Anders Nilsson, Fred W. Chapman, Steven Chester, Robert G. Walker, Steven B. Duke
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Publication number: 20230023087Abstract: A CPR chest compression system includes a retention structure that retains the body of a patient, and a motor and a compressor that can perform CPR compressions to the chest of the patient. The motor is powered by a battery that is located on the retention structure but away from the motor, and is electrically connected to the motor via one or more wires. Accordingly the weight and volume of the battery can be located away from a top portion of the retention structure. This renders the CPR system is less heavy at the top, and therefore less likely to tilt and start compressing the chest at a different point. Moreover, this permits X-Rays of a larger footprint to go through the CPR system and reach the patient, in example configurations where the components are transparent to X-Rays.Type: ApplicationFiled: October 3, 2022Publication date: January 26, 2023Applicant: JOLIFE ABInventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Gregory T. Kavounas
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Patent number: 11523966Abstract: In embodiments, a CPR chest compression system includes a retention structure that can retain the patient's body, and a compression mechanism that can perform automatically CPR compressions and releases to the patient's chest. The compression mechanism can pause the performing of the CPR compressions for a short time, so that an attendant can check the patient. The CPR system can include a user interface that can output a human-perceptible check patient prompt, to alert an attendant to check the patient during the pause. The compression mechanism can during a CPR session retreat a distance away from the patient's chest whereby the patient's chest can expand without active decompression of the patient's chest beyond the chest's natural resting position.Type: GrantFiled: October 19, 2018Date of Patent: December 13, 2022Assignee: PHYSIO-CONTROL, INC.Inventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Jonas Lagerström, Bjarne Madsen Härdig, Thomas Falk
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Patent number: 11478402Abstract: A CPR chest compression system includes a retention structure that retains the body of a patient, and a motor and a compressor that can perform CPR compressions to the chest of the patient. The motor is powered by a battery that is located on the retention structure but away from the motor, and is electrically connected to the motor via one or more wires. Accordingly the weight and volume of the battery can be located away from a top portion of the retention structure. This renders the CPR system is less heavy at the top, and therefore less likely to tilt and start compressing the chest at a different point. Moreover, this permits X-Rays of a larger footprint to go through the CPR system and reach the patient, in embodiments where the components are transparent to X-Rays.Type: GrantFiled: October 29, 2019Date of Patent: October 25, 2022Assignee: JOLIFE ABInventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Gregory T. Kavounas
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Publication number: 20220133587Abstract: Examples of the disclosure are directed to adjustable back plates or backboards for a mechanical compression device to accommodate different patient sizes and/or for ease of storage. Examples of the disclosure includes back plates that can be folded, pieced together, or otherwise have a variable distance between connectors that attach to legs of a chest compression device. Examples also include back plates which may have two sides, such as an adult patient side and a pediatric patient side, to accommodate different patient sizes.Type: ApplicationFiled: October 28, 2021Publication date: May 5, 2022Applicant: Physio-Control, Inc.Inventors: Marcus Ehrstedt, Thomas Falk, Anders Nilsson, Tyson Taylor, David Linville, Eric Sandrup, Jonas Lagerstrom, Anders Jeppsson, Sara Lindroth, Fredrik Arnwald
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Publication number: 20210236382Abstract: A CPR machine (100) is configured to perform, on a patient's (182) chest, compressions that alternate with releases. The CPR machine includes a compression mechanism (148), and a driver system (141) configured to drive the compression mechanism. A force sensing system (149) may sense a compression force, and the driving can be adjusted accordingly if there is a surprise. For instance, driving may have been automatic according to a motion-time profile, which is adjusted if the compression force is not as expected (850). An optional chest-lifting device (152) may lift the chest between the compressions, to assist actively the decompression of the chest. A lifting force may be sensed, and the motion-time profile can be adjusted if the compression force or the lifting force is not as expected.Type: ApplicationFiled: April 23, 2021Publication date: August 5, 2021Applicant: PHYSIO-CONTROL, INC.Inventors: Anders Nilsson, Jonas Lagerstrom, Bo Mellberg, Anders Jeppsson, Marcus Ehrstedt, Bjarne Madsen Hardig, Fredrik Arnwald, Erik von Schenck, Paul Rasmusson, Sara Lindroth, Fred Chapman, Ryan Landon, Mitchell A. Smith, Steven B. Duke, Krystyna Szul, Gregory T. Kavounas
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Patent number: 11013660Abstract: A CPR machine (100) is configured to perform, on a patient's (182) chest, compressions that alternate with releases. The CPR machine includes a compression mechanism (148), and a driver system (141) configured to drive the compression mechanism. A force sensing system (149) may sense a compression force, and the driving can be adjusted accordingly if there is a surprise. For instance, driving may have been automatic according to a motion-time profile, which is adjusted if the compression force is not as expected (850). An optional chest-lifting device (152) may lift the chest between the compressions, to assist actively the decompression of the chest. A lifting force may be sensed, and the motion-time profile can be adjusted if the compression force or the lifting force is not as expected.Type: GrantFiled: November 16, 2015Date of Patent: May 25, 2021Assignee: PHYSIO-CONTROL, INC.Inventors: Anders Nilsson, Jonas Lagerstrom, Bo Mellberg, Anders Jeppsson, Marcus Ehrstedt, Bjarne Madsen Hardig, Fredrik Arnwald, Erik Von Schenck, Paul Rasmusson, Sara Lindroth, Fred Chapman, Ryan Landon, Mitchell A. Smith, Steven B. Duke, Krystyna Szul, Gregory T. Kavounas
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Publication number: 20210000684Abstract: In embodiments, a CPR chest compression system includes a retention structure that can retain the patient's body, and a compression mechanism that can perform automatically CPR compressions and releases to the patient's chest. The compression mechanism can pause the performing of the CPR compressions for a short time, so that an attendant can check the patient. The CPR system also includes a user interface that can output a human-perceptible check patient prompt, to alert an attendant to check the patient during the pause. An advantage can be when the attendant checks in situations where the condition of the patient might have changed, and an adjustment is needed. Or in situations where the patient may have improved enough to where the compressions are no longer needed.Type: ApplicationFiled: September 21, 2020Publication date: January 7, 2021Applicants: STRYKER CORPORATION, JOLIFE AB, PHYSIO-CONTROL, INC.Inventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Robert Walker, Fred Chapman, Krystyna Szul, Gregory T. Kavounas
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Patent number: 10835450Abstract: In embodiments, a CPR chest compression system includes a retention structure that can retain the patient's body, and a compression mechanism that can perform automatically CPR compressions and releases to the patient's chest. The compression mechanism can pause the performing of the CPR compressions for a short time, so that an attendant can check the patient. The CPR system also includes a user interface that can output a human-perceptible check patient prompt, to alert an attendant to check the patient during the pause. An advantage can be when the attendant checks in situations where the condition of the patient might have changed, and an adjustment is needed. Or in situations where the patient may have improved enough to where the compressions are no longer needed.Type: GrantFiled: June 7, 2017Date of Patent: November 17, 2020Assignees: STRYKER CORPORATION, JOLIFE AB, PHYSIO-CONTROL, INC.Inventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Robert G. Walker, Fred W. Chapman, Krystyna Szul, Gregory T. Kavounas
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Publication number: 20200060929Abstract: A CPR chest compression system includes a retention structure that retains the body of a patient, and a motor and a compressor that can perform CPR compressions to the chest of the patient. The motor is powered by a battery that is located on the retention structure but away from the motor, and is electrically connected to the motor via one or more wires. Accordingly the weight and volume of the battery can be located away from a top portion of the retention structure. This renders the CPR system is less heavy at the top, and therefore less likely to tilt and start compressing the chest at a different point. Moreover, this permits X-Rays of a larger footprint to go through the CPR system and reach the patient, in embodiments where the components are transparent to X-Rays.Type: ApplicationFiled: October 29, 2019Publication date: February 27, 2020Applicant: JOLIFE ABInventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Gregory T. Kavounas
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Patent number: 10517792Abstract: A CPR chest compression system includes a retention structure that retains the body of a patient, and a motor and a compressor that can perform CPR compressions to the chest of the patient. The motor is powered by a battery that is located on the retention structure but away from the motor, and is electrically connected to the motor via one or more wires. Accordingly the weight and volume of the battery can be located away from a top portion of the retention structure. This renders the CPR system is less heavy at the top, and therefore less likely to tilt and start compressing the chest at a different point. Moreover, this permits X-Rays of a larger footprint to go through the CPR system and reach the patient, in embodiments where the components are transparent to X-Rays.Type: GrantFiled: October 21, 2016Date of Patent: December 31, 2019Assignee: Jolife ABInventors: Erik von Schenck, Anders Nilsson, Sara Lindroth, Gregory T. Kavounas