WEARABLE BLOOD ANALYTE MEASUREMENT DEVICE AND METHOD FOR MEASURING BLOOD ANALYTE CONCENTRATION

Organization Name

Synex Medical Inc.

Inventor(s)

Benjamin Nashman of Toronto (CA)

Sunrose Billing of Brampton (CA)

WEARABLE BLOOD ANALYTE MEASUREMENT DEVICE AND METHOD FOR MEASURING BLOOD ANALYTE CONCENTRATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240008773 titled 'WEARABLE BLOOD ANALYTE MEASUREMENT DEVICE AND METHOD FOR MEASURING BLOOD ANALYTE CONCENTRATION

Simplified Explanation

The abstract describes a wearable device that can measure blood analytes. The device includes a casing with an interior volume that can receive an appendage. Within the interior volume, there are multiple magnets that create a magnetic field in a bore. A nuclear magnetic resonance (NMR) transceiver is supported by the casing and emits radiofrequency (RF) pulses and receives NMR signals from the bore. An electronics assembly within the interior volume communicates with the NMR transceiver, and a power source within the interior volume powers both the NMR transceiver and the electronics assembly.

• The device is a wearable blood analyte measurement device.
• It includes magnets that create a magnetic field in a bore.
• A NMR transceiver emits RF pulses and receives NMR signals.
• An electronics assembly communicates with the NMR transceiver.
• A power source powers the NMR transceiver and electronics assembly.

Potential applications of this technology:

• Continuous monitoring of blood analytes in real-time.
• Non-invasive measurement of blood analytes.
• Personalized healthcare and disease management.
• Remote monitoring of patients' health conditions.

Problems solved by this technology:

• Eliminates the need for invasive blood sampling.
• Provides real-time data on blood analyte levels.
• Enables continuous monitoring of analytes without the need for frequent blood tests.

Benefits of this technology:

• Improved convenience and comfort for patients.
• Early detection of abnormal analyte levels.
• Enhanced disease management and treatment optimization.
• Potential for personalized healthcare interventions.

Original Abstract Submitted

a wearable blood analyte measurement device includes a casing defining an appendage-receiving bore and having an interior volume. a plurality of magnets is within interior volume. the magnets produce a magnetic field in the bore. a nuclear magnetic resonance (nmr) transceiver is supported by the casing and positioned to emit radiofrequency (rf) pulses to and receive nmr signals from the bore. an electronics assembly is within the interior volume and in communication with the nmr transceiver. a power source is in the interior volume and powers the nmr transceiver and the electronics assembly.