Patents by Inventor Matthew Wightlin
Matthew Wightlin 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: 11918354Abstract: Systems and methods of use involving sensors having a particle-containing domain are provided for continuous analyte measurement in a host. In some embodiments, a continuous analyte measurement system is configured to be wholly, transcutaneously, intravascularly or extracorporeally implanted.Type: GrantFiled: December 31, 2019Date of Patent: March 5, 2024Assignee: DEXCOM, INC.Inventors: Peter C. Simpson, Robert J. Boock, Matthew Wightlin, Mark C. Shults
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Publication number: 20240032826Abstract: The present invention relates generally to systems and methods for processing, transmitting, and displaying data received from continuous analyte sensor, such as a glucose sensor. In some embodiments, the continuous analyte sensor system comprises a sensor electronics module that includes power saving features. One feature includes a low power measurement circuit that can be switched between a measurement mode and a low power mode, in which charging circuitry continues to apply power to electrodes of a sensor during the low power mode. In addition, the sensor electronics module can be switched between in a low power storage mode higher power operational mode via a switch. The switch can include a reed switch or optical switch, for example. A validation routine can also be implemented to ensure an interrupt signal sent from the switch is valid.Type: ApplicationFiled: October 2, 2023Publication date: February 1, 2024Inventors: Sebastian BOHM, Mark DERVAES, Eric JOHNSON, Apurv Ullas KAMATH, Shawn LARVENZ, Jacob S. LEACH, Phong LIEU, Aarthi MAHALINGAM, Tom MILLER, Paul V. NEALE, Jack PRYOR, Thomas A. PEYSER, Daiting RONG, Kenneth SAN VICENTE, Mohammad Ali SHARIATI, Peter C. SIMPSON, Matthew WIGHTLIN
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Publication number: 20230397848Abstract: The present invention relates generally to systems and methods for processing, transmitting, and displaying data received from continuous analyte sensor, such as a glucose sensor. In some embodiments, the continuous analyte sensor system comprises a sensor electronics module that includes power saving features. One feature includes a low power measurement circuit that can be switched between a measurement mode and a low power mode, in which charging circuitry continues to apply power to electrodes of a sensor during the low power mode. In addition, the sensor electronics module can be switched between in a low power storage mode higher power operational mode via a switch. The switch can include a reed switch or optical switch, for example. A validation routine can also be implemented to ensure an interrupt signal sent from the switch is valid.Type: ApplicationFiled: August 16, 2023Publication date: December 14, 2023Inventors: Sebastian BOHM, Mark DERVAES, Eric JOHNSON, Apurv Ullas KAMATH, Shawn LARVENZ, Jacob S. LEACH, Phong LIEU, Aarthi MAHALINGAM, Tom MILLER, Paul V. NEALE, Jack PRYOR, Thomas A. PEYSER, Daiting RONG, Kenneth SAN VICENTE, Mohammad Ali SHARIATI, Peter C. SIMPSON, Matthew WIGHTLIN
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Publication number: 20220322977Abstract: Disclosed herein are systems and methods for a continuous analyte sensor, such as a continuous glucose sensor. One such system utilizes first and second working electrodes to measure additional analyte or non-analyte related signal. Such measurements may provide a background and/or sensitivity measurement(s) for use in processing sensor data and may be used to trigger events such as digital filtering of data or suspending display of data.Type: ApplicationFiled: June 24, 2022Publication date: October 13, 2022Inventors: Peter C. Simpson, Mark Brister, Matthew Wightlin, Jack Pryor
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Patent number: 11399745Abstract: Disclosed herein are systems and methods for a continuous analyte sensor, such as a continuous glucose sensor. One such system utilizes first and second working electrodes to measure additional analyte or non-analyte related signal. Such measurements may provide a background and/or sensitivity measurement(s) for use in processing sensor data and may be used to trigger events such as digital filtering of data or suspending display of data.Type: GrantFiled: October 23, 2018Date of Patent: August 2, 2022Assignee: DexCom, Inc.Inventors: Peter C. Simpson, Mark Brister, Matthew Wightlin, Jack Pryor
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Patent number: 11179069Abstract: The present invention relates generally to systems and methods for processing, transmitting, and displaying data received from continuous analyte sensor, such as a glucose sensor. In some embodiments, the continuous analyte sensor system comprises a sensor electronics module that includes power saving features. One feature includes a low power measurement circuit that can be switched between a measurement mode and a low power mode, in which charging circuitry continues to apply power to electrodes of a sensor during the low power mode. In addition, the sensor electronics module can be switched between in a low power storage mode higher power operational mode via a switch. The switch can include a reed switch or optical switch, for example. A validation routine can also be implemented to ensure an interrupt signal sent from the switch is valid.Type: GrantFiled: July 30, 2019Date of Patent: November 23, 2021Assignee: DexCom, Inc.Inventors: Sebastian Bohm, Mark Dervaes, Eric Johnson, Apurv Ullas Kamath, Shawn Larvenz, Jacob S. Leach, Phong Lieu, Aarthi Mahalingam, Tom Miller, Paul V. Neale, Jack Pryor, Thomas A. Peyser, Daiting Rong, Kenneth San Vicente, Mohammad Ali Shariati, Peter C. Simpson, Matthew Wightlin
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Publication number: 20210251531Abstract: The present invention relates generally to systems and methods for processing, transmitting, and displaying data received from continuous analyte sensor, such as a glucose sensor. In some embodiments, the continuous analyte sensor system comprises a sensor electronics module that includes power saving features. One feature includes a low power measurement circuit that can be switched between a measurement mode and a low power mode, in which charging circuitry continues to apply power to electrodes of a sensor during the low power mode. In addition, the sensor electronics module can be switched between in a low power storage mode higher power operational mode via a switch. The switch can include a reed switch or optical switch, for example. A validation routine can also be implemented to ensure an interrupt signal sent from the switch is valid.Type: ApplicationFiled: April 22, 2021Publication date: August 19, 2021Inventors: Sebastian Bohm, Mark Dervaes, Eric Johnson, Apurv Ullas Kamath, Shawn Larvenz, Jacob S. Leach, Phong Lieu, Aarthi Mahalingam, Tom Miller, Paul V. Neale, Jack Pryor, Thomas A. Peyser, Daiting Rong, Kenneth San Vicente, Mohammad Ali Shariati, Peter C. Simpson, Matthew Wightlin
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Patent number: 10687740Abstract: The present invention relates generally to systems and methods for processing, transmitting, and displaying data received from continuous analyte sensor, such as a glucose sensor. In some embodiments, the continuous analyte sensor system comprises a sensor electronics module that includes power saving features. One feature includes a low power measurement circuit that can be switched between a measurement mode and a low power mode, in which charging circuitry continues to apply power to electrodes of a sensor during the low power mode. In addition, the sensor electronics module can be switched between in a low power storage mode higher power operational mode via a switch. The switch can include a reed switch or optical switch, for example. A validation routine can also be implemented to ensure an interrupt signal sent from the switch is valid.Type: GrantFiled: January 28, 2019Date of Patent: June 23, 2020Assignee: DexCom, Inc.Inventors: Sebastian Bohm, Mark Dervaes, Eric Johnson, Apurv Ullas Kamath, Shawn Larvenz, Jacob S. Leach, Phong Lieu, Aarthi Mahalingam, Tom Miller, Paul V. Neale, Jack Pryor, Thomas A. Peyser, Daiting Rong, Kenneth San Vicente, Mohammad Ali Shariati, Peter C. Simpson, Matthew Wightlin
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Publication number: 20200146595Abstract: Systems and methods of use involving sensors having a particle-containing domain are provided for continuous analyte measurement in a host. In some embodiments, a continuous analyte measurement system is configured to be wholly, transcutaneously, intravascularly or extracorporeally implanted.Type: ApplicationFiled: December 31, 2019Publication date: May 14, 2020Inventors: Peter C. Simpson, Robert J. Boock, Matthew Wightlin, Mark C. Shults
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Publication number: 20190350502Abstract: The present invention relates generally to systems and methods for processing, transmitting, and displaying data received from continuous analyte sensor, such as a glucose sensor. In some embodiments, the continuous analyte sensor system comprises a sensor electronics module that includes power saving features. One feature includes a low power measurement circuit that can be switched between a measurement mode and a low power mode, in which charging circuitry continues to apply power to electrodes of a sensor during the low power mode. In addition, the sensor electronics module can be switched between in a low power storage mode higher power operational mode via a switch. The switch can include a reed switch or optical switch, for example. A validation routine can also be implemented to ensure an interrupt signal sent from the switch is valid.Type: ApplicationFiled: July 30, 2019Publication date: November 21, 2019Inventors: Sebastian Bohm, Mark Dervaes, Eric Johnson, Apurv Ullas Kamath, Shawn Larvenz, Jacob S. Leach, Phong Lieu, Aarthi Mahalingam, Tom Miller, Paul V. Neale, Jack Pryor, Thomas A. Peyser, Daiting Rong, Kenneth San Vicente, Mohammad Ali Shariati, Peter C. Simpson, Matthew Wightlin
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Publication number: 20190167163Abstract: Analyte sensors and methods of manufacturing same are provided, including analyte sensors comprising multi-axis flexibility. For example, a multi-electrode sensor system 800 comprising two working electrodes and at least one reference/counter electrode is provided. The sensor system 800 comprises first and second elongated bodies E1, E2, each formed of a conductive core or of a core with a conductive layer deposited thereon, insulating layer 810 that separates the conductive layer 820 from the elongated body, a membrane layer deposited on top of the elongated bodies E1, E2, and working electrodes 802?, 802? formed by removing portions of the conductive layer 820 and the insulating layer 810, thereby exposing electroactive surface of the elongated bodies E1, E2.Type: ApplicationFiled: January 17, 2019Publication date: June 6, 2019Inventors: Peter C. Simpson, Robert J. Boock, Paul V. Neale, Sebastian Böhm, Matthew Wightlin, Jack Pryor, Jason Mitchell, Jeff Jackson, Kaushik Patel, Antonio C. Llevares
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Publication number: 20190167169Abstract: The present invention relates generally to systems and methods for processing, transmitting, and displaying data received from continuous analyte sensor, such as a glucose sensor. In some embodiments, the continuous analyte sensor system comprises a sensor electronics module that includes power saving features. One feature includes a low power measurement circuit that can be switched between a measurement mode and a low power mode, in which charging circuitry continues to apply power to electrodes of a sensor during the low power mode. In addition, the sensor electronics module can be switched between in a low power storage mode higher power operational mode via a switch. The switch can include a reed switch or optical switch, for example. A validation routine can also be implemented to ensure an interrupt signal sent from the switch is valid.Type: ApplicationFiled: January 28, 2019Publication date: June 6, 2019Inventors: Sebastian Bohm, Mark Dervaes, Eric Johnson, Apurv Ullas Kamath, Shawn Larvenz, Jacob S. Leach, Phong Lieu, Aarthi Mahalingam, Tom Miller, Paul V. Neale, Jack Pryor, Thomas A. Peyser, Daiting Rong, Kenneth San Vicente, Mohammad Ali Shariati, Peter C. Simpson, Matthew Wightlin
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Patent number: 10231653Abstract: Systems and methods for processing, transmitting, and displaying data received from a continuous analyte (e.g., glucose) sensor are provided. A sensor system can comprise a sensor electronics module that includes power saving features, e.g., a low power measurement circuit that can be switched between a measurement mode and a low power mode, wherein charging circuitry continues to apply power to electrodes of a sensor during the low power mode. The sensor electronics module can be switched between a low power storage mode and a higher power operational mode via a switch, e.g., a reed switch or optical switch. A validation routine can be implemented to ensure an interrupt signal sent from the switch is valid. The sensor can be physically connected to the sensor electronics module in direct wireless communication with a plurality of different display devices.Type: GrantFiled: September 28, 2011Date of Patent: March 19, 2019Assignee: DexCom, Inc.Inventors: Sebastian Bohm, Mark Dervaes, Eric Johnson, Apurv Ullas Kamath, Shawn Larvenz, Jacob S. Leach, Phong Lieu, Aarthi Mahalingam, Tom Miller, Paul V. Neale, Jack Pryor, Thomas A. Peyser, Daiting Rong, Kenneth San Vicente, Mohammad Ali Shariati, Peter C. Simpson, Matthew Wightlin
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Publication number: 20190053743Abstract: Disclosed herein are systems and methods for a continuous analyte sensor, such as a continuous glucose sensor. One such system utilizes first and second working electrodes to measure additional analyte or non-analyte related signal. Such measurements may provide a background and/or sensitivity measurement(s) for use in processing sensor data and may be used to trigger events such as digital filtering of data or suspending display of data.Type: ApplicationFiled: October 23, 2018Publication date: February 21, 2019Inventors: Peter C. Simpson, Mark Brister, Matthew Wightlin, Jack Pryor
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Patent number: 10136844Abstract: Disclosed herein are systems and methods for a continuous analyte sensor, such as a continuous glucose sensor. One such system utilizes first and second working electrodes to measure additional analyte or non-analyte related signal. Such measurements may provide a background and/or sensitivity measurement(s) for use in processing sensor data and may be used to trigger events such as digital filtering of data or suspending display of data.Type: GrantFiled: November 18, 2016Date of Patent: November 27, 2018Assignee: DexCom, Inc.Inventors: Peter C. Simpson, Mark Brister, Matthew Wightlin, Jack Pryor
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Publication number: 20180289294Abstract: Systems and methods of use involving sensors having a particle-containing domain are provided for continuous analyte measurement in a host. In some embodiments, a continuous analyte measurement system is configured to be wholly, transcutaneously, intravascularly or extracorporeally implanted.Type: ApplicationFiled: June 14, 2018Publication date: October 11, 2018Inventors: Peter C. Simpson, Robert J. Boock, Matthew Wightlin, Mark C. Shults
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Patent number: 10028684Abstract: Systems and methods of use involving sensors having a particle-containing domain are provided for continuous analyte measurement in a host. In some embodiments, a continuous analyte measurement system is configured to be wholly, transcutaneously, intravascularly or extracorporeally implanted.Type: GrantFiled: September 21, 2017Date of Patent: July 24, 2018Assignee: DexCom, Inc.Inventors: Peter C. Simpson, Robert J. Boock, Matthew Wightlin, Mark C. Shults
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Publication number: 20180008173Abstract: Systems and methods of use involving sensors having a particle-containing domain are provided for continuous analyte measurement in a host. In some embodiments, a continuous analyte measurement system is configured to be wholly, transcutaneously, intravascularly or extracorporeally implanted.Type: ApplicationFiled: September 21, 2017Publication date: January 11, 2018Inventors: Peter C. Simpson, Robert J. Boock, Matthew Wightlin, Mark C. Shults
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Publication number: 20180000388Abstract: Analyte sensors and methods of manufacturing same are provided, including analyte sensors comprising multi-axis flexibility. For example, a multi-electrode sensor system 800 comprising two working electrodes and at least one reference/counter electrode is provided. The sensor system 800 comprises first and second elongated bodies E1, E2, each formed of a conductive core or of a core with a conductive layer deposited thereon, insulating layer 810 that separates the conductive layer 820 from the elongated body, a membrane layer deposited on top of the elongated bodies E1, E2, and working electrodes 802?, 802? formed by removing portions of the conductive layer 820 and the insulating layer 810, thereby exposing electroactive surface of the elongated bodies E1, E2.Type: ApplicationFiled: August 22, 2017Publication date: January 4, 2018Inventors: Peter C. Simpson, Robert J. Boock, Paul V. Neale, Sebastian Böhm, Matthew Wightlin, Jack Pryor, Jason Mitchell, Jeff Jackson, Kaushik Patel, Antonio C. Llevares
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Patent number: 9763608Abstract: Analyte sensors and methods of manufacturing same are provided, including analyte sensors comprising multi-axis flexibility. For example, a multi-electrode sensor system 800 comprising two working electrodes and at least one reference/counter electrode is provided. The sensor system 800 comprises first and second elongated bodies E1, E2, each formed of a conductive core or of a core with a conductive layer deposited thereon, insulating layer 810 that separates the conductive layer 820 from the elongated body, a membrane layer deposited on top of the elongated bodies E1, E2, and working electrodes 802?, 802? formed by removing portions of the conductive layer 820 and the insulating layer 810, thereby exposing electroactive surface of the elongated bodies E1, E2.Type: GrantFiled: December 4, 2015Date of Patent: September 19, 2017Assignee: DexCom, Inc.Inventors: Peter C. Simpson, Robert Boock, Paul V. Neale, Sebastian Böhm, Matthew Wightlin, Jack Pryor, Jason Mitchell, Jeff Jackson, Kaushik Patel, Antonio C. Llevares