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MODULATING INSULIN UNDER CONDITIONS OF GASTROPARESIS

Resumen de: US2025082849A1

In an aspect, an apparatus for generating a temporal element of a medication is presented. The apparatus includes a display device and a processor in electronic communication with the display device. The apparatus includes a memory communicatively connected to the processor. The memory includes instructions configuring the processor to generate a user interface through the display device and receive user input from a user through the user interface. The processor is configured to receive biological data from a user through a biological sensor in communication with the processor. The biological data includes a gastric metric. The processor is configured to calculate a temporal element of a delivery of an amount of medication to the user based on the biological data and the user input. The processor is configured to communicate the temporal element of the delivery of the amount of medication to a wearable medication delivery device.

SECURE WIRELESS COMMUNICATIONS BETWEEN A GLUCOSE MONITOR AND OTHER DEVICES

Resumen de: US2025082850A1

The exemplary embodiments may provide a secure framework for devices in a drug delivery system to wirelessly communicate. The secure framework may use encrypted keys to carry credentials and to specify the rights of the devices presenting the credentials. The devices in the drug delivery system present the keys at the time that they wish to wirelessly communicate with other devices in the drug delivery system. The devices receiving such keys, decrypt the keys and verify if the credentials are valid. If the credentials are valid, a wireless communication session between devices may be established.

GLUCOSE LEVEL CONTROL SYSTEM SMART CHARGING STATION

Resumen de: US2025082840A1

A smart charging station may be capable of accessing data from an ambulatory medicament device at particular times, such as when the ambulatory medicament device is charging or connected to the charging station. The smart charging station may then communicate the data to another electronic system, such as a remote system. Advantageously, the charging station enables an ambulatory medicament device that may not be capable of communicating with a remote system to transfer ambulatory medicament device data to the remote system. Further, the remote system may communicate with the ambulatory medicament device via the charging station enabling, for example, control parameter updates, software updates, or permission modifications, among other communications with the ambulatory medicament device regardless of whether direct communication with the ambulatory medicament device is possible.

Minimization of Noise in Optical Data Capture for Liquids By Light Modulation Means

Resumen de: US2025085219A1

A process and sensor system with particular control of polarization of the interrogating light beams useful for determining a concentration of a targeted molecule M (such as glucose) within a given time period in a liquid sampling matrix through use of a Direct Infrared Laser Absorption Spectroscopy Technique.

SYSTEMS, DEVICES, AND METHODS FOR ANALYTE MONITORING AND BENEFITS THEREOF

Resumen de: US2025087348A1

A method of treatment of a type 2 diabetic patient includes selecting a type 2 diabetic patient having a predetermined comorbidity for treatment, initiating a continuous glucose monitor regimen for the selected type 2 diabetic patient, wherein after six months of initiation of the continuous glucose monitor regimen, a rate of hospitalization for a predetermined diagnostic category of the selected patient having the predetermined comorbidity is reduced by at least 12% relative to an average rate of hospitalization for the predetermined diagnostic category of selected patients having the predetermined comorbidity without the continuous glucose monitor regimen.

SYSTEMS, DEVICES AND METHODS FOR PREDICTING DIABETIC STATUS USING VOICE

Resumen de: US2025087350A1

Provided are computer-implemented methods, systems and devices for generating a type-II (T2DM) diabetic status prediction, including: extracting voice biomarker feature values from the voice sample for predetermined voice biomarker features; determining the T2DM diabetic status prediction for the subject based on the biomarker feature values and the diabetic status prediction model; and outputting the T2DM diabetic status prediction for the subject.Provided are computer-implemented methods, systems and devices for generating a diabetic status model for predicting a T2DM diabetic status, including: diabetic status labels identifying a corresponding diabetic status for training subjects; and voice samples collected from the training subjects at different time points, each of the voice samples associated with a corresponding diabetic status label; determining voice feature values for corresponding voice features for each of the voice samples in the voice samples; and generating the diabetic status model based on the voice samples and the voice feature values.

APPLICATOR FOR CONTINUOUS BLOOD GLUCOSE MEASUREMENT DEVICE

Resumen de: EP4520266A2

The present disclosure relates to a continuous blood glucose measurement device and an applicator, wherein the continuous blood glucose measurement device is produced in a state in which a body attachment unit has been assembled inside an applicator, so as to minimize a user's additional work of attaching the body attachment unit to the body, thereby enabling the body attachment unit to be attached to the body only by simply activating the applicator. Particularly, the present invention provides a continuous blood glucose measurement device and an applicator, wherein the continuous blood glucose measurement device: includes a wireless communication chip in a body attachment unit so as to enable communication with an external terminal, thereby enabling simple and convenient use thereof, without additional work for connecting a separate transmitter, and easier maintenance; and is activated by a user's operation after the body attachment unit is attached to the body, so as to enable the operation start time to be adjusted to an appropriate time according to user's needs, and to enable the operation to start in a stabilized state so that blood glucose can be measured more accurately.

MEASURING DEVICE FOR DETERMINING BLOOD SUGAR CONTENT

Resumen de: US2022151520A1

A measuring device for determining an estimated value for the blood sugar content of a person using a non-invasive impedance measurement is provided. The measuring device includes a measurement transducer for determining a blood sugar content from a measured value and a sensor unit for detecting the measured value. The sensor unit has at least two tetrapolar electrode assemblies, which each have at least two electrode pairs arranged along a first linear axis. The axes of the two tetrapolar electrode assemblies are aligned perpendicularly to one another. A first electrode pair is provided for transmitting and receiving a current signal, and a second electrode pair is provided for tapping a potential on contact with the skin of the person. At least one of the electrodes of the sensor unit has a contact surface for contacting the skin, which contact surface consists of a metal or a metal alloy having a conductivity of more than 1*107 S/m.

TRANSPORT ELEMENT FOR TRANSPORTING A SUBSTANCE CONTAINED IN A RESERVOIR, INFUSION SET AND GLUCOSE REGULATING SYSTEM COMPRISING THE FORMER AND METHOD OF CONNECTING SUCH A TRANSPORT ELEMENT TO A RESERVOIR

Resumen de: US2025073440A1

A transport element for transporting a substance in a reservoir includes a transport means, such as a conduit, tube, hose or the like, and a connector arranged at an inlet end of the transport means for connecting to the reservoir such that in a connected condition in which the connector is connected to said reservoir a medium through flow connection is provided between said reservoir and the inlet end of the transport means for receiving said substance from said reservoir. The connector includes aligning and holding means for aligning and holding the reservoir in a predetermined orientation with respect to and/or position along a longitudinal axis of the connector. An infusion set, system or combination including transport element, and a method of at least fluidly connecting such a transport element to a reservoir.

PRESSURE SENSOR FOR A DEVICE FOR DELIVERING INSULIN TO A USER

Resumen de: US2025073386A1

A device for delivering insulin to a user, the device configured as a wearable apparatus or system in which continuous glucose monitoring (CGM), insulin delivery and control functionality are provided to ensure insulin is delivered to the user, the device comprising: a reservoir for storing insulin; a catheter configured to deliver insulin to a subcutaneous layer of the user; an introducer needle movable with respect to the catheter, the introducer needle configured to facilitate (a) insertion of the catheter into the subcutaneous layer of the user and (b) removal of the introducer needle to enable delivery of insulin through the catheter; a micropump, in fluid communication with the reservoir and catheter, for pumping insulin from the reservoir through the catheter; and a pressure sensor separate from and in fluid communication with an outlet port of the micropump, the sensor comprising: a first wafer defining an inlet port, and outlet port and fluid channel communicating with the inlet and outlet ports; a second wafer covering the fluid channel and including a pressure sensing mechanism; and a piezoelectric device layered on the first wafer and configured to generate a signal in response to the pressure sensing mechanism that is representative of pressure within channel.

USE OF LOGARITHMIC TRANSFORM/FILTER TO IMPROVE OPERATION OF MEDICAMENT DELIVERY DEVICE

Resumen de: AU2023333103A1

Exemplary embodiments may apply a transform or filter to analyte level values of the users to make the analyte level values conform with a normal distribution that is symmetric relative to the mean. The transformed or filtered analyte level values may be used by the control system of a medicament delivery device in determining medicament delivery doses. In some embodiments, the medicament is insulin, and the analyte level is a glucose level of a user. In such instances, a logarithmic filter or transform may be applied to the glucose level readings of the user.

SENSOR FOR DETECTING GLUCOSE AND LACTATE AND METHODS FOR DETERMINING AEROBIC AND ANAEROBIC THRESHOLDS

Resumen de: WO2025050007A1

The present disclosure describes lactate-responsive sensors, sensing systems incorporating a lactate-responsive sensor, and methods of use thereof that would be beneficial for continuously monitoring lactate levels and determining lactate thresholds (both aerobic and anaerobic thresholds). The present disclosure also relates to an analyte sensor for continuously detecting glucose and lactate levels.

USER-WORN DEVICE FOR NONINVASIVELY MEASURING A PHYSIOLOGICAL PARAMETER OF A USER

Resumen de: US2025072774A1

The present disclosure relates to noninvasive methods, devices, and systems for measuring various blood constituents or analytes, such as glucose. In an embodiment, a light source comprises LEDs and super-luminescent LEDs. The light source emits light at at least wavelengths of about 1610 nm, about 1640 nm, and about 1665 nm. In an embodiment, the detector comprises a plurality of photodetectors arranged in a special geometry comprising one of a substantially linear substantially equal spaced geometry, a substantially linear substantially non-equal spaced geometry, and a substantially grid geometry.

System and Method for Identifying Clinically-Similar Clusters of Daily Continuous Glucose Monitoring (CGM) Profiles

Resumen de: US2025072793A1

Embodiments relate to a system for processing glucose data by efficient glucose database management. The system includes a physical data store containing glucose measurement data and a representation for at least one cluster of the glucose measurement data, wherein the representation approximates a glycemic profile vector array for a cluster of multiple glucose profiles segmented by plural time ranges. The system includes a processor and computer memory configured with instructions stored thereon that when executed will cause the processor to: 1) receive glucose measurements; 2) convert the glucose measurements into vectorial form; 3) search the physical data store by comparing a newly received glucose measurement to a centroid of a cluster using a similarity metric; 3) classify the newly received glucose measurement with a cluster having a matched similarity metric based on the comparing; and 4) ascribe a treatment to the newly received glucose measurement.

DEPLOYMENT AND USE OF A CONTINUOUS ANALYTE MONITORING SYSTEM FOR IMPROVED PATIENT TREATMENT

Resumen de: US2025079008A1

Disclosed herein are system, method, and computer program product embodiments for improving detection and treatment of patient conditions based on continuous analyte data. The disclosed techniques utilize analyte data, such as lactate, glucose, and creatinine, provided from a continuous analyte sensor to predict patient outcomes. The prediction may also take into account other medical information associated with the patient, such as patient vital signs and medical history. The disclosed system allows for early and non-invasive prediction of patient outcomes in various settings including a hospital setting, a home setting, disease (e.g., heart failure, sepsis) detection, and high risk surgery monitoring. The disclosed system also is configured to monitor patient conditions and generating alerts and/or notifications based on the predicted patient outcomes to provide preemptive treatment of patient conditions.

SENSOR STRIP STORAGE-TYPE APPARATUS FOR MEASURING URINE GLUCOSE LEVELS AND VASCULAR ELASTICITY

Resumen de: WO2025048045A1

The present invention relates to a sensor strip storage-type device for measuring urine glucose levels and vascular elasticity, wherein the sensor strip storage-type device is capable of measuring urine glucose levels in a non-invasive manner, quantitatively measuring glucose levels through a digitized sensor, being capable of being conveniently carried by means of sealing and storing a plurality of sensor strips that can be used multiple times, and measuring vascular elasticity during use.

METHOD FOR CONTROLLING BLOOD GLUCOSE AND ARTIFICIAL PANCREAS SYSTEM FOR CARRYING OUT THE METHOD

Resumen de: WO2025046158A1

The invention relates to a method for controlling glucose in a flexible-structure bihormonal artificial pancreas that manages optional meal and/or exercise alerts by means of coordinated control actions, comprising: measuring a plasma glucose signal; calculating an incremental plasma glucose measurement (y); defining a model for incremental plasma glucose; defining a carbohydrate ingestion as dependent on a carbohydrate content estimated by the patient; defining an expected postprandial incremental plasma glucose y*(s) according to an insulin bolus that has been administered; defining a corrected incremental plasma glucose y̅(s), a corrected insulin infusion ū(s) and a corrected carbohydrate ingestion d̅(s); defining a virtual control action μ(s), divided between regulatory actions μ r and counterregulatory actions μ cr ; and calculating the control actions using a 2-DOF feedback controller with a prefilter having a nominal value F r (s).

CLOSED-LOOP ARTIFICIAL PANCREAS SYSTEM FOR SAFE INFUSION

Resumen de: WO2025044331A1

Disclosed in the present invention is a closed-loop artificial pancreas system for safe infusion. During long-time missing of real-time blood glucose value data, on the basis of historical blood glucose values and blood glucose values of fingertips, the closed-loop artificial pancreas system can continue to calculate the infusion amount of insulin required by a patient and infuse a proper amount of insulin into the patient, and will not infuse an improper amount of insulin due to missing of real-time blood glucose value data and even interrupt the infusion of insulin, avoiding the life risk of the patient, and facilitating treatment of the patient.

Systems, devices, and methods to compensate for temperature effects on sensors

Resumen de: AU2025201073A1

This document discusses, among other things, systems and methods to compensate for the effects of temperature on sensors, such as analyte sensor. An example method may include determining a temperature-compensated glucose concentration level by receiving a temperature signal indicative of a temperature parameter of an external component, receiving a glucose signal indicative of an in vivo glucose concentration level, and determining a compensated glucose concentration level based on the glucose signal, the temperature signal, and a delay parameter.

SYSTEM AND METHOD FOR MANAGING BLOOD GLUCOSE LEVEL

Resumen de: US2025072792A1

The present invention discloses a system and method for managing blood glucose level. The system comprises a computing device in communication with a continuous glucose monitoring (CGM) device attached to a user and a wearable device configured to be worn by the user. The computing device is configured to receive the blood glucose level of the user from the continuous glucose monitoring device, or its associated app. The computing device is further configured to enable the user to set one or more predetermined ranges of blood glucose level and set an alert for each predefined range. The computing device is further configured to determine whether the blood glucose level is within one or more predetermined ranges. The computing device is further configured to determine at least one alert corresponding to the blood glucose level and enable the wearable device to provide the determined alert until the user disables the alert.

SYSTEMS AND METHODS FOR MEAL BOLUSES IN DIABETES THERAPY

Resumen de: WO2023211879A1

Disclosed herein are apparatuses and methods that can simplify delivery of meal boluses in diabetes therapy. Rather than requiring a user to enter a number of carbohydrates for a given meal, the system can automatically provide a predetermined amount of insulin when the user indicates that a meal is going to be consumed. Providing such predetermined, fixed meal boluses provides a lower cognitive burden alternative for the mealtime experience.

MACHINE-LEARNING-BASED MEAL DETECTION AND SIZE ESTIMATION USING CONTINUOUS GLUCOSE MONITORING (CGM) AND INSULIN DATA

Resumen de: WO2023212738A1

Disclosed is a meal detection and meal size estimation machine learning technology. In some embodiments, the techniques entail applying to a trained multioutput neural network model a set of input features, the set of input features representing glucoregulatory management data, insulin on board, and time of day, the trained multioutput neural network model representing multiple fully connected layers and an output layer formed from first and second branches, the first branch providing a meal detection output and the second branch providing a carbohydrate estimation output; receiving from the meal detection output a meal detection indication; and receiving from the carbohydrate estimation output a meal size estimation.

CONTINUOUS GLUCOSE MONITOR

Resumen de: US2025064350A1

A continuous glucose monitor, comprising a housing and a circuit board arranged in the housing, wherein an electronic component is carried on the circuit board; a probe assembly configured to penetrate skin and connected to the circuit board; and an auxiliary sensor connected to the circuit board and configured to detect a compressed state of the continuous glucose monitor. The continuous glucose monitor provided in the present disclosure can identify its own compressed state, thereby improving the accuracy of glucose measurement.

METHOD FOR CALIBRATING SENSITIVITY FOR GLUCOSE MEASUREMENT

Resumen de: US2025064351A1

An embodiment may provide a method for calibrating sensitivity for glucose measurement including: obtaining an offset value for determining sensitivity; determining a first sensitivity from a sensor data and a reference glucose value, based on the offset value; and determining sensitivity by adjusting the first sensitivity, wherein the determining of the sensitivity includes obtaining the first sensitivity, and determining sensitivity A by adjusting the first sensitivity according to an elapsed period of time after a sensor is inserted into a body; obtaining the first sensitivity, and determining sensitivity B by adjusting the first sensitivity by reflecting an average sensor data obtained by averaging a plurality of sensor data and an average glucose value obtained by averaging a plurality of glucose values to the first sensitivity; and determining any one of the sensitivity A and the sensitivity B as the sensitivity.

BIOSENSOR SYSTEM AND METHOD FOR NON-INVASIVE MEASUREMENT AND PREDICTION OF BLOOD GLUCOSE AND BLOOD PRESSURE

Nº publicación: US2025064327A1 27/02/2025

Solicitante:

MAVOIX TECH SOLUTIONS PRIVATE LIMITED [IN]
MAVOIX TECHNOLOGY SOLUTIONS PRIVATE LIMITED