Patents by Inventor Todd Whitehurst
Todd Whitehurst 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).
-
Publication number: 20200298264Abstract: Systems and methods for determining the identity of a liquid within a liquid dispenser are provided. A device includes a holder having an opening that is configured to retain the liquid dispenser. A surface of the liquid dispenser is configured to affix a label identifying a liquid within the liquid dispenser. A plurality of lenses are mounted on the holder. Each lens has a respective field of view that includes a respective portion of the surface of the liquid dispenser. In addition, the device includes a plurality of fiber bundles. Each fiber bundle includes an input that is configured to receive a respective signal from a respective one of the plurality of lenses. Further, the device includes an imaging sensor that is configured to receive the respective signals from the plurality of fiber bundles and to form a plurality of images of the surface of the liquid dispenser.Type: ApplicationFiled: March 16, 2020Publication date: September 24, 2020Applicant: Verily Life Sciences LLCInventors: Supriyo Sinha, Michael Allen, Todd Whitehurst, Dimitri Azar
-
Patent number: 10772503Abstract: A computing device receives analyte data produced by an analyte monitoring sensor over a communications link from at least one first device. Health data, comprising at least part of the analyte data, may be communicated over a communications link to at least one second device in response to a request. The first device may be positioned over the analyte monitoring sensor using signal strength and location information. External analyte data may be employed to calibrate the analyte monitoring sensor.Type: GrantFiled: May 27, 2016Date of Patent: September 15, 2020Assignee: Senseonics, IncorporatedInventors: Barkha Raisoni, David Lerner, Christina Long, Xiaoxiao Chen, Todd Whitehurst, Ravi Rastogi, Andrew Dehennis
-
Patent number: 10769245Abstract: A medication packet bundle includes one or more beacons. Each beacon may transmit a signal representing an event related to patient compliance with a medication regimen, such as removal of a packet of medication from a bundle or opening of a packet. The transmitted beacon signals can be monitored and processed to track patient compliance and adherence.Type: GrantFiled: April 13, 2016Date of Patent: September 8, 2020Assignee: Verily Life Sciences LLCInventors: James Etzkorn, Todd Whitehurst, Brian Marc Pepin, Robert Francis Wiser
-
Publication number: 20200237214Abstract: Introduced here are retinal cameras having optical stops whose size and/or position can be modified to increase the size of the space in which an eye can move while being imaged. In some embodiments, an optical stop is mechanically moved to recover retinal image quality as the subject shifts their eye. In some embodiments, an optical stop is digitally created using a pixelated liquid crystal display (LCD) layer having multiple pixels that are individually controllably. In some embodiments, multiple non-pixelated LCD layers are connected to one another to form a variable transmission stack, and each LCD layer within the variable transmission stack may be offset from the other LCD layers. In such embodiments, the optical stop can be moved by changing which LCD layer is active at a given point in time.Type: ApplicationFiled: September 19, 2018Publication date: July 30, 2020Inventors: Eliezer GLIK, Sam KAVUSI, Ryan KRAMER, Todd WHITEHURST
-
Publication number: 20200206023Abstract: Ophthalmic devices and systems for treating dry eye are described. An ophthalmic device includes a housing having a convex anterior surface and a concave posterior surface and a thermal regulator disposed therein. In an example, the thermal regulator includes a heating element positioned to heat the convex anterior surface. In an example, the thermal regulator includes a cooling element positioned to cool the concave posterior surface. The convex anterior surface is shaped to contact a portion of conjunctiva of an eye adjacent to Meibomian glands of the eye, such as the palpebral conjunctiva, when the ophthalmic device is mounted to the eye. The concave posterior surface is shaped to contact a portion of the conjunctiva adjacent to scleral nerves of the eye, such as the bulbar conjunctiva, when the ophthalmic device is mounted to the eye.Type: ApplicationFiled: November 26, 2019Publication date: July 2, 2020Inventors: Anupam Pathak, Dimitri Azar, Todd Whitehurst
-
Publication number: 20200100675Abstract: Methods, sensors, and systems that prevent or reduce data loss when more than one external sensor transceiver is used with a sensor. A sensor may receive a transceiver identification (ID) of an external transceiver conveyed from the external transceiver and determine whether the received transceiver ID is a new transceiver ID. If sensor determines the received transceiver ID to be a new transceiver ID, the sensor may store the received transceiver ID in a nonvolatile storage medium of the sensor and convey, using the sensor, measurement information stored in the nonvolatile storage medium to the external transceiver.Type: ApplicationFiled: November 29, 2019Publication date: April 2, 2020Applicant: Senseonics, IncorporatedInventors: Jeremy Emken, Philip Huffstetler, Todd Whitehurst
-
Patent number: 10575731Abstract: Methods, sensors, and systems that prevent or reduce data loss when more than one external sensor transceiver is used with a sensor. A sensor may receive a transceiver identification (ID) of an external transceiver conveyed from the external transceiver and determine whether the received transceiver ID is a new transceiver ID. If sensor determines the received transceiver ID to be a new transceiver ID, the sensor may store the received transceiver ID in a nonvolatile storage medium of the sensor and convey, using the sensor, measurement information stored in the nonvolatile storage medium to the external transceiver.Type: GrantFiled: February 26, 2018Date of Patent: March 3, 2020Assignee: Senseonics, IncorporatedInventors: Jeremy Emken, Philip Huffstetler, Todd Whitehurst
-
Patent number: 10551316Abstract: An analyte indicator may include a porous base and may be included in an analyte sensor. The analyte indicator may retain its physical, chemical, and optical properties in the presence of compression. The porous base may not vary in opacity. The analyte indicator may include (i) a polymer unit attached or polymerized onto or out of the porous base and (ii) an analyte sensing element attached to the polymer unit or copolymerized with the polymer unit. The analyte sensing element may include one or more indicator molecule. The analyte sensing element may include one or more indicator polymer chains. The analyte indicator may include (i) an indicator polymer chain attached or polymerized onto or out of the porous base and (ii) indicator molecules attached to the indicator polymer chain.Type: GrantFiled: November 5, 2018Date of Patent: February 4, 2020Assignee: Senseonics, IncorporatedInventors: Philip Huffstetler, Jeremy Emken, Todd Whitehurst
-
Patent number: 10524660Abstract: A system and method for detecting the amount or concentration of an analyte in a medium in living organism. The system may include an analyte sensor module and a transmitter module, which may be separate and distinct components. The analyte sensor module and transmitter module may be at different locations but connected by one or more transmission elements. The analyte sensor may include indicator elements configured to exhibit a detectable property based on the amount or concentration of the analyte in proximity to the indicator elements. The analyte sensor may include sensor elements configured to generate a data signal based on the detectable property exhibited by the indicator elements. The transmission elements may be configured to convey data signals generated by the sensor elements from the analyte sensor module to the transmitter module. The transmitter module may include an antenna.Type: GrantFiled: July 9, 2018Date of Patent: January 7, 2020Assignee: Senseonics, IncorporatedInventors: Andrew DeHennis, Todd Whitehurst
-
Publication number: 20190328295Abstract: One example device includes a housing attachable to a wearer's skin; a electrode assembly holder disposed within the housing, the electrode assembly holder comprising: a substrate; a plurality of electrical contacts formed on the substrate; and an electrode assembly electrically coupled to the plurality of electrical contacts, the electrode assembly having a planar surface and comprising: a first screen-printed electrode having first and second ends; a chemical sensing material disposed on the first end of the electrode; and a polymer coating applied to the electrode; and wherein the first end of the screen-printed electrode extends outside of the housing and wherein a second end of each electrode is electrically coupled to one electrical contact of the plurality of electrical contacts.Type: ApplicationFiled: April 22, 2019Publication date: October 31, 2019Applicant: Verily Life Sciences LLCInventors: Zenghe Liu, Todd Whitehurst, Aurang Zeb
-
Patent number: 10352858Abstract: An analyte indicator may include a porous base and may be included in an analyte sensor. The analyte indicator may retain its physical, chemical, and optical properties in the presence of compression. The porous base may not vary in opacity. The analyte indicator may include (i) a polymer unit attached or polymerized onto or out of the porous base and (ii) an analyte sensing element attached to the polymer unit or copolymerized with the polymer unit. The analyte sensing element may include one or more indicator molecule. The analyte sensing element may include one or more indicator polymer chains. The analyte indicator may include (i) an indicator polymer chain attached or polymerized onto or out of the porous base and (ii) indicator molecules attached to the indicator polymer chain.Type: GrantFiled: January 12, 2018Date of Patent: July 16, 2019Assignee: Senseonics, IncorporatedInventors: Philip Huffstetler, Jeremy Emken, Todd Whitehurst
-
Patent number: 10350420Abstract: Improved external chargers for charging an implantable medical device, and particularly useful in charging a plurality of such devices, are disclosed. Each of the various embodiments include a plurality of field customization coils for customizing the magnetic charging field generated by the external charger such that the magnetic charging field is not radially symmetric. For example, one embodiment includes a primary coil with a plurality of field customization coils distributed radially with respect to the coil. The generated magnetic charging field can be rendered radially asymmetric by selectively activating or disabling the field customization coils in response to data quantifying the coupling between the various implants and the field customization coils in the charger.Type: GrantFiled: June 6, 2017Date of Patent: July 16, 2019Assignee: Boston Scientific Neuromodulation CorporationInventors: Rafael Carbunaru, Andrew DiGiore, Todd Whitehurst
-
Publication number: 20190150829Abstract: Examples of systems and methods for on-demand CPAP therapy are described herein. One example method of providing on-demand CPAP therapy includes monitoring a physiological parameter of a wearer, the physiological parameter associated with sleep apnea, the wearer wearing an air mask connected to an air supply device; detecting a sleep apnea event based on the physiological parameter; and in response to detecting the sleep apnea event, activating the air supply device.Type: ApplicationFiled: November 13, 2018Publication date: May 23, 2019Applicant: Verily Life Sciences LLCInventors: Brian Pepin, Todd Whitehurst
-
Publication number: 20190079009Abstract: An analyte indicator may include a porous base and may be included in an analyte sensor. The analyte indicator may retain its physical, chemical, and optical properties in the presence of compression. The porous base may not vary in opacity. The analyte indicator may include (i) a polymer unit attached or polymerized onto or out of the porous base and (ii) an analyte sensing element attached to the polymer unit or copolymerized with the polymer unit. The analyte sensing element may include one or more indicator molecule. The analyte sensing element may include one or more indicator polymer chains. The analyte indicator may include (i) an indicator polymer chain attached or polymerized onto or out of the porous base and (ii) indicator molecules attached to the indicator polymer chain.Type: ApplicationFiled: November 5, 2018Publication date: March 14, 2019Applicant: Senseonics, IncorporatedInventors: Philip Huffstetler, Jeremy Emken, Todd Whitehurst
-
Publication number: 20190076022Abstract: A transceiver for interfacing with an analyte sensor. The transceiver may include an interface device and a notification device. The interface device may be configured to convey a power signal to the analyte sensor and to receive data signals from the analyte sensor. The notification device may be configured to generate one or more of a vibrational, aural, and visual signal based on one or more data signals received from the analyte sensor. The interface device of the transceiver may receive analyte data from the analyte sensor, and the transceiver may comprise a processor configured to calculate an analyte concentration value based on the received analyte data. The notification device may be configured to generate one or more of aural, visual, or vibrational alarm when the calculated analyte concentration value exceeds or falls below a threshold value.Type: ApplicationFiled: November 13, 2018Publication date: March 14, 2019Applicant: Senseonics, IncorporatedInventors: Szymon Tankiewicz, Jeremy Emken, Andrew DeHennis, Todd Whitehurst
-
Publication number: 20190059726Abstract: A transceiver for interfacing with an analyte sensor. The transceiver may include an interface device and a notification device. The interface device may be configured to convey a power signal to the analyte sensor and to receive data signals from the analyte sensor. The notification device may be configured to generate one or more of a vibrational, aural, and visual signal based on one or more data signals received from the analyte sensor. The interface device of the transceiver may receive analyte data from the analyte sensor, and the transceiver may comprise a processor configured to calculate an analyte concentration value based on the received analyte data. The notification device may be configured to generate one or more of aural, visual, or vibrational alarm when the calculated analyte concentration value exceeds or falls below a threshold value.Type: ApplicationFiled: October 29, 2018Publication date: February 28, 2019Applicant: Senseonics, IncorporatedInventors: Szymon Tankiewicz, Jeremy Emken, Andrew DeHennis, Todd Whitehurst
-
Publication number: 20190059727Abstract: A transceiver for interfacing with an analyte sensor. The transceiver may include an interface device and a notification device. The interface device may be configured to convey a power signal to the analyte sensor and to receive data signals from the analyte sensor. The notification device may be configured to generate one or more of a vibrational, aural, and visual signal based on one or more data signals received from the analyte sensor. The interface device of the transceiver may receive analyte data from the analyte sensor, and the transceiver may comprise a processor configured to calculate an analyte concentration value based on the received analyte data. The notification device may be configured to generate one or more of aural, visual, or vibrational alarm when the calculated analyte concentration value exceeds or falls below a threshold value.Type: ApplicationFiled: October 29, 2018Publication date: February 28, 2019Applicant: Senseonics, IncorporatedInventors: Szymon Tankiewicz, Jeremy Emken, Andrew DeHennis, Todd Whitehurst
-
Patent number: 10206624Abstract: A sensor system including an implantable sensor and an external transceiver. Aspects of the sensor system may provide improved implantation and antenna orientation of the implanted sensor. The sensor may include a sensor antenna, the transceiver may include a transceiver antenna. In some embodiments, the sensor antenna and/or transceiver antenna may include a first set of coils oriented in a first plane and a second set of coils oriented in a second plane that is different than the first plane. In some embodiments, the sensor may have a geometry that will prevent or reduce movement and/or rotation of the implanted sensor. For instance, in some embodiments, the sensor may be enclosed in silicon that contains antenna coils and/or include wings, a fluid filled sack, a swelling material, an expansion material, and/or arms.Type: GrantFiled: March 14, 2014Date of Patent: February 19, 2019Assignee: Senseonics, IncorporatedInventors: Szymon Tankiewicz, Todd Whitehurst
-
Publication number: 20190015021Abstract: A system including a sensor and a transceiver and configured to determine a concentration of an analyte in a medium of a living animal. The sensor may include first and second signal photodetectors and first and second reference photodetectors, which may each be covered by an associate filter. The first photodetector may receive light emitted from first and second grafts, respectively. The grafts may receive excitation light from one or more light sources. The transceiver may receive signals from the photodetectors of the sensor and may determine the analyte concentration based on the received signals.Type: ApplicationFiled: September 17, 2018Publication date: January 17, 2019Applicant: Senseonics, IncorporatedInventors: Jeremy Emken, Philip Huffstetler, Todd Whitehurst
-
Publication number: 20190008385Abstract: An inductive sensor system for remote powering and communication with an analyte sensor (e.g., a fully implantable analyte sensor). The system may include an analyte sensor and transceiver. The system may be ferrite-enhanced. The transceiver may implement a passive telemetry for communicating with the analyte sensor via an inductive magnetic link for both power and data transfer. The link may be a co-planar, near field communication telemetry link. The transceiver may include a reflection plate configured to focus flux lines linking the transceiver and the sensor uniformly beneath the transceiver. The transceiver may include an amplifier configured to amplify battery power and provide radio frequency (RF) power to a transceiver antenna.Type: ApplicationFiled: January 15, 2018Publication date: January 10, 2019Applicant: Senseonics, IncorporatedInventors: Szymon Tankiewicz, Joshua C. Schaefer, Andrew DeHennis, Todd Whitehurst