Patents Examined by Eric F. Winakur
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Patent number: 11564630Abstract: Methods and systems are provided for lowering power consumption in an optical sensor, such as a pulse oximeter. In one example, a method for an optical sensor includes illuminating a light emitter of the optical sensor according to set sensor parameters, the sensor parameters set based on hardware noise or external interference characterization and light transmission or reflection of a tissue contributing to a signal output by the optical sensor, the sensor parameters including current drive parameters of the light emitter, and adjusting the current drive parameters of the light emitter to maintain a target signal to noise ratio of the signal output by the optical sensor.Type: GrantFiled: November 16, 2020Date of Patent: January 31, 2023Assignee: GE Precision Healthcare LLCInventors: Matti VeliTapani Huiku, Sakari Matias Lamminmaki, Kari Vaino Piipponen
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Patent number: 11547356Abstract: A wearable device for healthcare and a method thereof, wherein the device is worn on a finger for measuring the health data of the user, including but not limited to, the heart rate, blood oxygen saturation, etc. The wearing size of the device is adjustable for different sizes of fingers. In one embodiment, the device includes a main body at least partially worn on a digit of a user; at least one physiological sensor attached to the main body for detecting physiological information; and at least two branches coupled to the main body for holding the digit while reducing the movement of the device. At least a part of at least one branch is changeable such that the wearing size of the device is adjustable for different sizes of digits. In another embodiment, at least a part of at least one branch is movable such that the wearing size of the device is adjustable for different sizes of digits.Type: GrantFiled: May 29, 2020Date of Patent: January 10, 2023Assignee: BELUN Technology (IP) Company LimitedInventors: Ka Cheung Kwok, Wang Kin Fung, Luis Ng, Ngok Man Sze, Kwan Wai To
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Patent number: 11547358Abstract: An oxygen sensor for sensing dissolved oxygen concentration in tissue includes an electrochemical sensor comprising first and second conductive threads having proximal sections connected to a potentiostat. The first thread forms a cathode, and the second thread forms an anode.Type: GrantFiled: December 8, 2021Date of Patent: January 10, 2023Assignees: Trustees of Tufts College, DTAMedicalInventors: Sameer Sonkusale, Junfei Xia, Francois Dufay
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Patent number: 11547329Abstract: The invention comprises a method for noninvasively determining a sample property, comprising controlling photon generation from a source and analyzing signal from a set of detectors; irradiating an illumination zone of skin with the photons; and detecting diffusely reflected photons from the skin, the set of detectors respectively optically coupled to a set of detection zones of the skin positioned along a spiral path between a first and second radial distance from the illumination zone, where a first detection zone of a first detector of the set of detectors extends radially outward from the illumination zone to at least an inward radial distance, from the illumination zone, of a second detection zone of a second detector of the set of detectors, where at least one detection zone of the set of detection zones has a central radial distance from the illumination zone between the first and second radial distances.Type: GrantFiled: November 22, 2019Date of Patent: January 10, 2023Inventors: Alodeep Sanyal, Benjamin Mbouombouo, Roxanne Abul-Haj, Alan Abul-Haj, Christopher Slawinski, Kevin Hazen
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Patent number: 11540755Abstract: Methods and systems are provided for a light-emitting diode (LED) drive circuit of an optical probe. As an example, a method for an optical probe including an LED in an LED drive circuit comprises reducing power consumption of the LED drive circuit by adjusting a drive voltage of the LED drive circuit based on one or more LED drive circuit characteristics and one or more LED drive circuit operating parameters. In this way, the LED drive circuit may be efficiently operated.Type: GrantFiled: January 6, 2021Date of Patent: January 3, 2023Assignee: GE Precision Healthcare LLCInventors: Sakari Matias Lamminmaki, Kari Piipponen
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Patent number: 11540751Abstract: Systems, methods, and devices of a health device network may include: a non-invasive glucometer that non-invasively measures analyte levels; an invasive glucometer communicatively coupled directly to the non-invasive glucometer; a cloud-based server communicatively coupled to the non-invasive glucometer or the invasive glucometer; a user device communicatively coupled to the cloud-based server; and/or a user interface that displays the invasive glucose measurement, the non-invasive glucose measurement, a data batch, and/or processed data to the user. The non-invasive glucometer and/or the invasive glucometer may aggregate an invasive glucose measurement and a non-invasive glucose measurement into the data batch.Type: GrantFiled: March 25, 2020Date of Patent: January 3, 2023Assignee: Tula Health, Inc.Inventors: David Miller, Devin Miller, Michael Jones, David Derrick
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Patent number: 11534112Abstract: Implementations described herein disclose an artificial intelligence (AI) based method for generating an oxygen saturation level output signal using the trained neural network. In one implementation, the method includes receiving a photoplethysmographic (PPG) signal, the PPG signal including a red PPG signal and an infrared PPG signal, generating an input feature matrix by performing time-frequency transform of the PPG signal, training a neural network using the input feature matrix and an oxygen saturation level input signal, and generating an oxygen saturation level output signal using the trained neural network.Type: GrantFiled: April 21, 2020Date of Patent: December 27, 2022Assignee: COVIDIEN LPInventors: Paul S. Addison, Dean Montgomery, André Antunes
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Patent number: 11534086Abstract: Wearable medical devices are provided. An exemplary wearable medical device includes a printed circuit board assembly (PCBA) comprising a dielectric layer having a top surface and conductive features on the top surface of the dielectric layer. Further, the exemplary wearable medical device includes a top housing mounted directly to the top surface of the PCBA. Also, the wearable medical device includes a power source located between the top housing and the PCBA. The top housing and the dielectric layer of the PCBA encapsulates the conductive features and power source and define an outer surface of the wearable medical device.Type: GrantFiled: October 30, 2020Date of Patent: December 27, 2022Assignee: Medtronic MiniMed, Inc.Inventors: Ellis Garai, James E. Burgett, Claire F. Ferraro
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Patent number: 11534110Abstract: A patient monitor can noninvasively measure a physiological parameter using sensor data from a nose sensor configured to be secured to a nose of the patient. The nose sensor can include an emitter and a detector. The detector is configured to generate a signal when detecting light attenuated by the nose tissue of the patient. An output measurement of the physiological parameter can be determined based on the signals generated by the detector. The nose sensor can include an inner prong and an outer prong to assist the nose sensor in securing to a patient's nose. The detector can be coupled to an inner post of the inner prong and can be configured to secure to an interior or exterior portion of the patient's nose.Type: GrantFiled: October 23, 2020Date of Patent: December 27, 2022Assignee: MASIMO CORPORATIONInventors: Samir Shreim, Vikrant Sharma, Philip Perea, Jennifer Rines, Clinton Robins, Chad Eichele, Yassir Kamel Abdul-Hafiz, Sean Devlin
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Patent number: 11529091Abstract: Techniques for measuring metabolic tissue state and oxygenation in human or animal models, through optical techniques capable of simultaneous measurement at single region of interest. Simultaneously measuring CCO, oxygenated hemoglobin (HbO), and deoxygenated (HbR) hemoglobin is performed and metabolic activity of the tissue is determined. The methods employ a super-continuum light source and a probe to deliver light to the individual, and reflected light from the individual is analyzed to determine the metabolic function of the individual.Type: GrantFiled: February 1, 2021Date of Patent: December 20, 2022Assignee: THE REGENTS OF THE UNIVERSITY OF MICHIGANInventors: Mohammed N. Islam, Steven P. Broglio, Ioulia Kovelman, Hasan Alam, Rachel M. Russo, Alexander Joseph Rogers
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Patent number: 11523775Abstract: A system for detecting salt ion concentration, comprising a device further comprising a sensor having a carbon printed electrode on a flexible substrate with adhesive on one side (backside) and the circuit electronics to generate pulse signal stimuli and measure salt concentrations to determine hydration level of a person or a living being, wherein the device is a wearable device. The electrode can be made into different shapes changing the area as necessary, since it is a carbon printed electrode and is flexible.Type: GrantFiled: September 25, 2020Date of Patent: December 13, 2022Assignee: hDrop Technologies Inc.Inventor: Adria Abella Villafranca
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Patent number: 11523758Abstract: A sensing device for acquiring data from a finger. The device includes a carrier board having a stacked portion with a finger side and a canopy side. A tip wing extends from the stacked portion and wraps around the finger. Electrical components are coupled to the carrier board, including a first circuit board on the canopy side of the stacked portion, and one or more optical components electrically on the tip wing. The optical components are configured to transmit light towards the finger and to detect the light from the finger. The carrier board electrically couples the electrical components to acquire the data from the finger. A power system is positioned between the canopy side and the finger side of the carrier board, where the power system provides power to the electrical components via the carrier board. A cover secures the carrier board to the finger.Type: GrantFiled: November 10, 2020Date of Patent: December 13, 2022Assignee: GE Precision Healthcare LLCInventors: Juha P. Virtanen, Jukka K. Saari
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Patent number: 11517226Abstract: In some examples, a system includes an oxygen saturation sensing device configured to sense an oxygen saturation level of a patient and processing circuitry. The processing circuitry may be configured to receive a signal indicative of the oxygen saturation level of the patient, determine that the signal indicates the oxygen saturation level is at or below a desaturation threshold, and in response to determining the oxygen saturation level of the patient is at or below the desaturation threshold, predict, using an oxygen saturation prediction model, whether the oxygen saturation level of the patient will increase above the desaturation threshold by the end of a predefined time period. In response to predicting that the oxygen saturation level of the patient will increase above the desaturation threshold by the end of the predefined time period, the processing circuitry refrains from outputting an indication of the patient experiencing an oxygen desaturation event.Type: GrantFiled: October 1, 2020Date of Patent: December 6, 2022Assignee: COVIDIEN LPInventors: Philip C. Smit, Andre Antunes, Dean Montgomery, Paul S. Addison
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Patent number: 11517228Abstract: A device for measuring oxygen saturation includes circuitry configured to determine a measured difference of forward voltage based on a first forward voltage at a first light emitting diode and a second forward voltage a second light emitting diode and determine that the first and second light emitting diodes are valid based on a calibrated difference of forward voltage and the measured difference of forward voltage. In response to the determination that the first and second light emitting diodes are valid, the circuitry is configured to determine an oxygen saturation level.Type: GrantFiled: October 28, 2020Date of Patent: December 6, 2022Assignee: COVIDIEN LPInventors: Christopher J. Meehan, Jacob D. Dove
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Patent number: 11519850Abstract: A device for measuring oxygen saturation includes circuitry configured to determine a series resistance for a light emitting diode based on a first diode voltage at the light emitting diode for a first current, a second diode voltage at the light emitting diode for a second current, and a third diode voltage at the light emitting diode for a third current. The circuitry is further configured to determine an intensity of a received photonic signal corresponding to an output photonic signal output using the light emitting diode. The circuitry is further configured to determine an oxygen saturation level based on the intensity of the received photonic signal and the series resistance.Type: GrantFiled: October 28, 2020Date of Patent: December 6, 2022Assignee: COVIDIEN LPInventor: Christopher J. Meehan
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Patent number: 11517267Abstract: An apparatus with a first photodetector and a second photodetector is provided. The apparatus is configured to receive light, and the first photodetector is configured to detect a first portion of the light. The first photodetector and the second photodetector are in a stacked arrangement and the apparatus is configured to pass a second portion of the light through the first photodetector to the second photodetector. The apparatus further includes an optical blocking filter configured to filter the second portion of the light prior to the second portion of the light arriving at the second photodetector.Type: GrantFiled: November 16, 2018Date of Patent: December 6, 2022Assignee: Nokia Technologies OyInventors: Kim Blomqvist, Leo Karkkainen, David Bitauld
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Patent number: 11517230Abstract: A sensor, system, and method for detecting and correcting for changes to an analyte indicator of an analyte sensor. The analyte indicator may be configured to exhibit a first detectable property that varies in accordance with an analyte concentration and an extent to which the analyte indicator has degraded. The analyte sensor may also include a degradation indicator configured to exhibit a second detectable property that varies in accordance with an extent to which the degradation indicator has degraded. The analyte sensor may generate (i) an analyte measurement based on the first detectable property exhibited by the analyte indicator and (ii) a degradation measurement based on the second detectable property exhibited by the degradation indicator. The analyte sensor may be part of a system that also includes a transceiver. The transceiver may use the analyte and degradation measurements to calculate an analyte level.Type: GrantFiled: November 9, 2020Date of Patent: December 6, 2022Assignee: Senseonics, IncorporatedInventors: Andrew Dehennis, Mark Mortellaro, Abhi Chavan, Venkata Velvadapu, Philip Huffstetler, Tina HyunJung Kim, James Masciotti
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Surgical instruments with sensors for detecting tissue properties, and system using such instruments
Patent number: 11517213Abstract: A system is provided that furnishes expert procedural guidance based upon patient-specific data gained from surgical instruments incorporating sensors on the instrument's working surface, one or more reference sensors placed about the patient, sensors implanted before, during or after the procedure, the patient's personal medical history, and patient status monitoring equipment. Embodiments include a system having a surgical instrument with a sensor for generating a signal indicative of a property of a subject tissue of the patient, which signal is converted into a current dataset and stored. A processor compares the current dataset with other previously stored datasets, and uses the comparison to assess a physical condition of the subject tissue and/or to guide a procedure being performed on the tissue.Type: GrantFiled: May 9, 2022Date of Patent: December 6, 2022Assignee: SURGISENSE CORPORATIONInventors: Jason Matthew Zand, Gregory Scott Fischer -
Patent number: 11510596Abstract: Various analyte sensing apparatuses and associated housings are provided. Some apparatuses comprise one or more caps. Some apparatuses comprise a two-part adhesive patch. Some apparatuses comprise one or more sensor bends configured to locate and/or hold a sensor in place during mounting. Some apparatuses utilize one or more dams and/or wells to retain epoxy for securing a sensor. Some apparatuses utilize a pocket and one or more adjacent areas and various transitions for preventing epoxy from wicking to undesired areas of the apparatus. Some apparatuses include heat-sealable thermoplastic elastomers for welding a cap to the apparatus. Related methods of fabricating such apparatuses and/or housings are also provided.Type: GrantFiled: April 21, 2020Date of Patent: November 29, 2022Assignee: DexCom, Inc.Inventors: John Charles Barry, Patrick John Castagna
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Patent number: 11504074Abstract: A system and method for automatically requesting assistance for a user experiencing a medical emergency is disclosed. The system includes a user device with a sensor to detect sensed information. Based on the sensed information the user device can determine if the user is experiencing a medical emergency. The user device can communicate with nearby devices over one or more networks and send information about the medical emergency to the nearby devices. The information can include the type of medical emergency, the location of the user experiencing the medical emergency, and any instructions for providing the user with assistance.Type: GrantFiled: July 30, 2020Date of Patent: November 22, 2022Assignee: United Services Automobile Association (USAA)Inventors: Gregory Brian Meyer, Mark Anthony Lopez, Ravi Durairaj, Nolan Serrao, Victor Kwak, Ryan Thomas Russell, Christopher Russell, Ruthie D. Lyle