Patents by Inventor Mark A. Adler
Mark A. Adler 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: 20260130770Abstract: An implantable sensor assembly for use during spinal fusion. The implantable sensor assembly can include a component of an implantable prosthesis and an implantable cartridge associated with the component. The implantable cartridge can include at least one sensor capable of detecting one or more kinematic measurements associated with a patient and generating sensor data, and an antenna in electrical communication with at least one sensor, wherein the antenna transmits sensor data to a receiver at a remote location.Type: ApplicationFiled: October 5, 2023Publication date: May 14, 2026Inventors: Kevin Gemmell, Jeffrey M. Gross, Peter J. Schiller, Mark A. Adler, Michael Johnson, Steven Cazarez
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Publication number: 20260114838Abstract: Disclosed are devices, systems, and methods for in vivo monitoring of the flow of a biological fluid in an anatomic structure, such as blood flow through a heart valve (e.g., mitral valve, tricuspid valve, and/or aortic valve) or heart chamber. The disclosed devices, systems, and methods can continuously measure and evaluate blood flow forward and backward at an inlet of a heart valve for determination of heart function or dysfunction and/or in compilation with other monitored data that can be used to measure or predict secondary factors.Type: ApplicationFiled: March 22, 2023Publication date: April 30, 2026Inventors: Mark A. Adler, Steven Cazarez, Jeffrey M. Gross
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Publication number: 20250359911Abstract: A smart medical device includes a structure configured to be at least partially implanted in a body, and an electronics cartridge that is configured to be inserted into the structure after the structure is implanted in the body. The structure may be a cannulated screw for use in treating bone fractures. The medical device includes an impedance sensor for monitoring and reporting on the healing state of bone fractures. The sensor includes components of the electronics cartridge and electrodes that are either associated with the cannulated screw or with the insertable electronics cartridge.Type: ApplicationFiled: August 7, 2025Publication date: November 27, 2025Inventors: Mark A. Adler, Steven Cazarez, Paul Charlesbois, Jeffrey M. Gross, Joshua Ben Hayes, Paul Alexander Hulme, Luke Aaron Mills, Tuyen Nguyen, Timothy Park, Aaron Olafur Laurence Philippsen, Peter J. Schiller, Diego Ariel Sorrentino
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Patent number: 12414717Abstract: Disclosed are devices, systems and methods for in vivo monitoring of localized environment conditions within a patient user by measuring analytes, including glucose, oxygen, and/or other analytes. In some aspects, a sensor device includes a wafer-based substrate, at least one electrochemical sensor two-electrode contingent including a working electrode and a reference electrode on the substrate and configured to detect a target analyte in a body fluid when the sensor device is deployed within a subject's body, where the working electrode is functionalized by a chemical layer configured to facilitate a reaction involving the target analyte that produces an electrical signal; and an electronics unit in communication with the electrochemical sensor electrode contingent to transmit the electrical signal to an external processor.Type: GrantFiled: February 21, 2025Date of Patent: September 16, 2025Assignee: Canary Medical Switzerland AGInventor: Mark A. Adler
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Patent number: 12408963Abstract: A smart medical device includes a structure configured to be at least partially implanted in a body, and an electronics cartridge that is configured to be inserted into the structure after the structure is implanted in the body. The structure may be a cannulated screw for use in treating bone fractures. The medical device includes an impedance sensor for monitoring and reporting on the healing state of bone fractures. The sensor includes components of the electronics cartridge and electrodes that are either associated with the cannulated screw or with the insertable electronics cartridge.Type: GrantFiled: February 19, 2021Date of Patent: September 9, 2025Assignee: Canary Medical Switzerland AGInventors: Mark A. Adler, Steven Cazarez, Paul Charlesbois, Jeffrey M. Gross, Joshua Ben Hayes, Paul Alexander Hulme, Luke Aaron Mills, Tuyen Nguyen, Timothy Park, Aaron Olafur Laurence Philippsen, Peter J. Schiller, Diego Ariel Sorrentino
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Publication number: 20250235131Abstract: Disclosed are devices, systems and methods for in vivo monitoring of localized environment conditions within a patient user by measuring analytes, including glucose, oxygen, and/or other analytes. In some aspects, a sensor device includes a wafer-based substrate, at least one electrochemical sensor two-electrode contingent including a working electrode and a reference electrode on the substrate and configured to detect a target analyte in a body fluid when the sensor device is deployed within a subject's body, where the working electrode is functionalized by a chemical layer configured to facilitate a reaction involving the target analyte that produces an electrical signal; and an electronics unit in communication with the electrochemical sensor electrode contingent to transmit the electrical signal to an external processor.Type: ApplicationFiled: February 21, 2025Publication date: July 24, 2025Inventor: Mark A. Adler
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Publication number: 20250228478Abstract: Disclosed are devices, systems and methods for in vivo monitoring of localized environment conditions within a patient user by measuring analytes, including glucose, oxygen, and/or other analytes. In some aspects, a sensor device includes a wafer-based substrate, at least one electrochemical sensor two-electrode contingent including a working electrode and a reference electrode on the substrate and configured to detect a target analyte in a body fluid when the sensor device is deployed within a subject's body, where the working electrode is functionalized by a chemical layer configured to facilitate a reaction involving the target analyte that produces an electrical signal; and an electronics unit in communication with the electrochemical sensor electrode contingent to transmit the electrical signal to an external processor.Type: ApplicationFiled: February 20, 2025Publication date: July 17, 2025Inventor: Mark A. Adler
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Publication number: 20250120654Abstract: An implantable system for monitoring a vascular structure can include a sensor configured to be positioned within the vascular structure and further configured to detect a property of a flow of blood in the vascular structure, a communication circuitry configured to be positioned within the vascular structure, the communication circuitry connected to the sensor and configured to transmit data related to the property of the flow of blood detected by the electronic sensor, and an antenna configured to be positioned within the vascular structure, the antenna connected to the communication circuitry and further configured to facilitate transmission of the data related to the property of the flow of blood detected by the sensor.Type: ApplicationFiled: August 24, 2022Publication date: April 17, 2025Inventors: Kimberly Salant, Mark A. Adler
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Publication number: 20250064359Abstract: Disclosed are devices, systems and methods for in vivo monitoring of localized environment conditions within a patient user by measuring analytes, including glucose, oxygen, and/or other analytes. In some aspects, a sensor device includes a wafer-based substrate, at least one electrochemical sensor two-electrode contingent including a working electrode and a reference electrode on the substrate and configured to detect a target analyte in a body fluid when the sensor device is deployed within a subject's body, where the working electrode is functionalized by a chemical layer configured to facilitate a reaction involving the target analyte that produces an electrical signal; and an electronics unit in communication with the electrochemical sensor electrode contingent to transmit the electrical signal to an external processor.Type: ApplicationFiled: January 13, 2023Publication date: February 27, 2025Inventor: Mark A. Adler
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Publication number: 20240138767Abstract: An implantable sensor assembly for use during spinal fusion. The implantable sensor assembly can include a component of an implantable prosthesis and an implantable cartridge associated with the component. The implantable cartridge can include at least one sensor capable of detecting one or more kinematic measurements associated with a patient and generating sensor data, and an antenna in electrical communication with at least one sensor, wherein the antenna transmits sensor data to a receiver at a remote location.Type: ApplicationFiled: October 5, 2023Publication date: May 2, 2024Inventors: Jeffrey M. Gross, Peter J. Schiller, Mark A. Adler, Kevin Gemmell
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Publication number: 20230346440Abstract: A smart medical device includes a structure configured to be at least partially implanted in a body, and an electronics cartridge that is configured to be inserted into the structure after the structure is implanted in the body. The structure may be a cannulated screw for use in treating bone fractures. The medical device includes an impedance sensor for monitoring and reporting on the healing state of bone fractures. The sensor includes components of the electronics cartridge and electrodes that are either associated with the cannulated screw or with the insertable electronics cartridge.Type: ApplicationFiled: February 19, 2021Publication date: November 2, 2023Inventors: Mark A. Adler, Steven Cazarez, Paul Charlesbois, Jeffrey M. Gross, Joshua Ben Hayes, Paul Alexander Hulme, Luke Aaron Mills, Tuyen Nguyen, Timothy Park, Aaron Olafur Laurence Philippsen, Peter J. Schiller, Diego Ariel Sorrentino
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Publication number: 20230346538Abstract: Auxiliary components for medical devices, and more specifically, sensing constructs that may be added to a medical device such as an implantable medical device to provide the medical device with sensing functionality. The auxiliary component is not a part of the medical device, but rather is associated with an existing medical device in a secure manner, and provides information about the medical device and/or the environment around the medical device when the device is implanted in a patient, and then transmits that information to a location outside of the patient for evaluation. Delivery systems for delivering the auxiliary components.Type: ApplicationFiled: October 7, 2021Publication date: November 2, 2023Inventors: Mark A. Adler, Jeffrey M. Gross, William L. Hunter, Kimberly Salant, Peter J. Schiller, David Zarbatany
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Publication number: 20230060479Abstract: A system that provides an independent and agnostic cardiovascular sensing ability that can be deployed prior to the standard treatment methods for blocked cardiovascular arteries, and placed in the zone of a vascular lesion for treatment, placing sensors that can monitor blood and vessel specificity to manage the acute and long term biologic reaction to the treatment zone communicating information for analytical management and decision processing to an external or internal receiving station.Type: ApplicationFiled: February 17, 2021Publication date: March 2, 2023Inventor: Mark A. Adler
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Publication number: 20220167922Abstract: Auxiliary components for medical devices, and more specifically, sensing constructs that may be added to a medical device such as an implantable medical device to provide the medical device with sensing functionality. The auxiliary component is nota part of the medical device, but rather is associated with an existing medical device in a secure manner, and provides information about the medical device and/or the environment around the medical device when the device is implanted in a patient, and then transmits that information to a location outside of the patient for evaluation.Type: ApplicationFiled: April 3, 2020Publication date: June 2, 2022Inventors: Jeffrey M. Gross, Mark A. Adler, Peter J. Schiller
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Publication number: 20220061679Abstract: Systems and methods for delivering an implantable sensor assembly into a vascular structure. The sensor assembly is capable of detecting one or more physiological parameters of a patient and generating sensor data. The one or more physiological parameters may be indicative of blood flow through the vascular structure. The sensor assembly may wirelessly transmit the sensor data to a receiver.Type: ApplicationFiled: August 24, 2021Publication date: March 3, 2022Inventors: Mark A. Adler, Jeffrey M. Gross, Peter J. Schiller