Alerta

Time averaged basal rate optimizer

Resumen de: AU2025205479A1

Systems and methods for integrating a continuous glucose sensor 12, including a receiver 14, a medicament delivery device 16, a controller module, and optionally a single point glucose monitor 18 are provided. Integration may be manual, semi-automated and/or fully automated. Systems and methods for integrating a continuous glucose sensor 12, including a receiver 14, a medicament delivery device 16, a controller module, and optionally a single point glucose monitor 18 are provided. Integration may be manual, semi-automated and/or fully automated. ul y s t e m s a n d m e t h o d s f o r i n t e g r a t i n g a c o n t i n u o u s g l u c o s e s e n s o r , i n c l u d i n g a u l r e c e i v e r , a m e d i c a m e n t d e l i v e r y d e v i c e , a c o n t r o l l e r m o d u l e , a n d o p t i o n a l l y a s i n g l e p o i n t g l u c o s e m o n i t o r a r e p r o v i d e d n t e g r a t i o n m a y b e m a n u a l , s e m i - a u t o m a t e d a n d o r f u l l y a u t o m a t e d

SENSING SYSTEMS AND METHODS FOR HYBRID GLUCOSE AND KETONE MONITORING

Resumen de: AU2023415722A1

Certain aspects of the present disclosure relate to a monitoring system comprising a continuous analyte sensor configured to generate analyte measurements associated with analyte levels of a patient, and a sensor electronics module coupled to the continuous analyte sensor and configured to receive and process the analyte measurements.

APPARATUS FOR GLYCEMIC CONTROL

Resumen de: US2025246285A1

Techniques, systems and devices for glycemic control are presented. An apparatus may include 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 through the user interface. The processor is configured to implement an activity mode of a plurality of activity modes of a wearable medical device based on the user input. The activity mode is indicative of temporary conditions affecting blood glucose levels of the user. The processor is configured to receive biological data from a user through a biological sensor in communication with the processor and calculate an amount of medication to deliver to a user based on the biological data and the implemented activity mode.

SENSOR, SYSTEM AND METHOD FOR NON-INVASIVE BLOOD ANALYSIS

Resumen de: US2025241561A1

A non-invasive glucose sensor used for glucose detection in a subject is provided. The sensor includes a long channel source to excite a first location of a skin and a long channel detector to detect near infrared (NIR) energy emitted from the first location of the skin. A short channel source excites a second location of the skin and a short channel detector detects NIR energy emitted from the second location of the skin. The sensor further includes a long channel processor to process a long channel electrical signal into a glucose spectroscopic data and a short channel processor to process a short channel electrical signal into a background spectroscopic data. The sensor includes a spectroscopic processor to subtract the background spectroscopic data from the glucose spectroscopic data, and thereby to produce data indicative of a quantity of glucose present in the subject's blood.

ANALYTE SENSOR SENSITIVITY ATTENUATION MITIGATION

Resumen de: US2025241598A1

Method and apparatus for receiving a first signal indicative of first glucose levels measured by a first working electrode, receiving a second signal indicative of second glucose levels measured by a second working electrode, detecting a first decrease in an amplitude of the first signal measured by the first working electrode that exceeds a first threshold, detecting a second decrease in an amplitude of the second signal measured by the second working electrode that exceeds the first threshold, selecting the first signal based on determining that the first decrease in the amplitude of the first signal is less than the second decrease in the amplitude of the second signal, determining a rate of change corresponding to the first decrease in the amplitude of the first signal, comparing the rate of change to a second threshold, confirming, based on the comparison, that the first signal is valid.

CONTINUOUS GLUCOSE MONITORING DEVICE

Resumen de: EP4592427A2

An apparatus includes a body and an actuator is coupled to the body. A needle is mounted to the actuator. The needle comprises a slot along a length to a tip. A sensor is coupled to a plurality of wires. A base is configured to be moveable by the actuator and includes a cutout, a circuit board having a microprocessor, and a plurality of contacts. Each contact is coupled to a wire of the plurality of wires. A power source is connected to the circuit board and to the base. A bracket is coupled to the bottom surface of the body and configured to receive the base. A patch is coupled to the bracket and has an adhesive. A needle is configured to be moveable by the actuator. The plurality of wires extend from the circuit board of the base, through the needle and out of the slot.

CONTINUOUS GLUCOSE MONITORING DEVICE

Resumen de: EP4591791A2

The present disclosure relates to a continuous glucose monitoring device. The present disclosure provides a continuous glucose monitoring device wherein: a body attachment unit is manufactured in the state in which the body attachment unit is assembled in an applicator, and thus a user's additional work for attaching the body attachment unit to the body is minimized and the body attachment unit can be attached to the body by simply operating the applicator; in particular, a wireless communication chip is disposed in the body attachment unit so as to communicate with an external terminal, and thus simple and convenient use can be achieved without any additional work for connection of a separate transmitter and maintenance and management can also be easily performed; and the monitoring operation is started by the user's manipulation after the body attachment unit is attached to the body, and thus the user can adjust the operation start time to an appropriate point as necessary and the operation can be started in a stabilized state so as to enable more accurate glucose monitoring.

CLOSED-LOOP ARTIFICIAL PANCREAS INSULIN INFUSION CONTROL SYSTEM

Resumen de: US2025235614A1

A closed-loop artificial pancreas insulin infusion control system is provided. The system includes a detection module configured to detect the current blood glucose level G continuously, a program module connected to the detection module and preset with a hybrid artificial pancreas algorithm, used for calculating the insulin infusion amount required by the user, the hybrid artificial pancreas algorithm includes a cPID algorithm and/or a cMPC algorithm, where the input of the cPID algorithm is the intermediate value of the MPC algorithm, and the input of the cMPC algorithm is the output value of the PID algorithm, and an infusion module connected to the program module and controlled by the program module to infuse insulin according to the insulin infusion amount calculated by the hybrid artificial pancreas algorithm.

Systems and methods for distributing continuous glucose data

Resumen de: AU2025205069A1

MARKED-UP COPY The present disclosure relates to systems, devices and methods for receiving biosensor data acquired by a medical device, e.g., relating to glucose concentration values, and controlling the access and distribution of that data. In some embodiments, systems and methods are disclosed for monitoring glucose levels, displaying data relating to glucose values and metabolic health information, and controlling distribution of glucose data between applications executing on a computer, such as a smart phone. In some embodiments, systems and methods are disclosed for controlling access to medical data such as continuously monitored glucose levels, synchronizing health data relating to glucose levels between multiple applications executing on a computer, and/or encrypting data. The present disclosure relates to systems, devices and methods for receiving biosensor data acquired by a medical device, e.g., relating to glucose concentration values, and controlling the access and distribution of that data. In some embodiments, systems and methods are disclosed for monitoring glucose levels, displaying data relating to glucose values and metabolic health information, and controlling distribution of glucose data between applications executing on a computer, such as a smart phone. In some embodiments, systems and methods are disclosed for controlling access to medical data such as continuously monitored glucose levels, synchronizing health data relating to glucose levels between

NEUROMODULATION SYSTEM TO INDUCE CHANGES IN GLYCEMIC REGULATORY SYSTEM PLASTICITY

Resumen de: AU2023420510A1

Current Type 2 Diabetes Mellitus treatments include life-style management, pharmaceuticals and may include bariatric surgery for the morbidly obese. However, issues with compliance, side effects and permanent anatomical alterations provide a need for an alternative therapy to modulate a peripheral nerve, such as the vagus nerve, in a manner that causes a plastic change in the glycemic regulatory system, with or without the involvement of the central nervous system (CNS), that changes the activity of an organ and thereby changing the activity of that organ. Low energy vagus nerve neuromodulation has potential as a new treatment for type 2 diabetes mellitus by inducing plasticity of the body's glycemic regulatory system with low energy transient stimulation. This will allow for effective use of a small implantable pulse generator that requires infrequent, or no, charging during the life of the device.

SELF-INSERTING TROCARLESS ANALYTE-SENSING CANNULA

Resumen de: AU2024209583A1

The disclosure describes devices and methods for insertion and delivery of insulin or an insulin analog formulation and measurement of subcutaneous glucose concentration. A device for delivery of insulin or an insulin analog formulation and measurement of subcutaneous glucose concentration, may comprise: (a) a tube comprising a proximal end and a distal end, wherein the proximal end is in fluid communication with a source of the insulin or insulin analog formulation, and wherein the distal end is configured to deliver the insulin or insulin analog formulation subcutaneously; (b) a glucose sensor disposed along a central axis of the tube; and (c) a penetrating body disposed along the central axis of the tube, wherein the penetrating body comprises a cross-sectional area no more than a cross-sectional area of the glucose sensor.

INSULIN DOSAGE DETERMINATION SYSTEM BASED ON PERSONALIZED ARTIFICIAL INTELLIGENCE

Resumen de: US2025239350A1

Provided is a personalized artificial intelligence-based insulin dose determination system includes an interface layer capable of communicating with the insulin pump and the continuous blood glucose system, and signal-processing information from the insulin pump and the continuous blood glucose system, a control layer receiving the signal-processed information from the interface layer and generating output information associated with an insulin infusion amount, an outer safety layer determining whether or not the output information generated from the control layer satisfies a preset threshold condition, and delivering the output information to the interface layer when the output information satisfies the preset threshold condition, and a personalized safety layer receiving prescription information including Total Daily Dose of Insulin (TDD) information of the user from the outside to determine a personalized safety control variable, and transmitting the determined control variable as an input variable of the control layer.

GLUCOSE SENSOR FOR GLYCEMIC ASSESSMENT

Resumen de: US2025235100A1

An analyte assessment system includes an analyte sensor, a remote device, and a software application. The remote device is configured to retrieve sensor data of a patient from the analyte sensor. The software application is configured to receive an order for analyte assessment associated with an electronic medical record (EMR) of the patient, generate or retrieve a unique identifier associated with the order, authenticate the unique identifier with the remote device, activate the analyte sensor based on the unique identifier, retrieve sensor data from the remote device, generate a report, and upload the report to the EMR of the patient. Advantageously the system can streamline requests and delivery of analyte reports for third parties, reduce in-person patient interactions and time delays, reduce third party effort, increase security and integrity of patient data, update an EMR of the patient, and operate in a blinded mode for unbiased patient analyte assessment.

SIGNAL QUALITY ASSESSEMENT SYSTEM AND BLOOD GLUCOSE LEVEL PREDICTION SYSTEM BASED ON PHOTOPLETHYSMOGRAPHY

Resumen de: US2025235127A1

The present invention relates to a signal quality assessment system and a blood glucose level prediction system based on photoplethysmography. The signal quality assessment system comprises a near-infrared light photoplethysmography sensor, a Bluetooth module, an AI acceleration platform, and an electronic device. The AI acceleration platform serves as the central analysis unit, receiving PPG signals from the front-end sensing unit via an interface. Signal processing, including bandpass filtering composed of high-pass and low-pass filters and data normalization, is executed by the processor. Configurable AI chips are used to evaluate the quality of PPG signals, facilitating the discard of unwanted signals and subsequent reconstruction for blood glucose assessment. Processed PPG signals and the corresponding assessed blood glucose values are transmitted to a display. The display provides a comprehensive and real-time view of the monitored data, enabling efficient and timely interpretation of blood glucose values.

UNIFIED PLATFORM FOR MONITORING AND CONTROL OF BLOOD GLUCOSE LEVELS IN DIABETIC PATIENTS

Resumen de: US2025235155A1

A flexible system for utilizing data from different monitoring techniques and capable of providing assistance to patients with diabetes at several scalable levels, ranging from advice about long-term trends and prognosis to real-time automated closed-loop control (artificial pancreas). These scalable monitoring and treatment strategies are delivered by a unified system called the Diabetes Assistant (DiAs) platform. The system provides a foundation for implementation of various monitoring, advisory, and automated diabetes treatment algorithms or methods. The DiAs recommendations are tailored to the specifics of an individual patient, and to the patient risk assessment at any given moment.

ANALYTE AND ENVIRONMENT SENSORS

Resumen de: US2025235131A1

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.

CLOSED-LOOP ARTIFICIAL PANCREAS INSULIN INFUSION CONTROL SYSTEM

Resumen de: US2025235609A1

A closed-loop artificial pancreas insulin infusion control system is provided. The system includes a detection module configured to detect the current blood glucose level G continuously, a program module configured to preset with an rPID algorithm that converts the asymmetric blood glucose in the original physical space to the approximately symmetric blood glucose risk in the risk space and target blood glucose level, and an infusion module which is connected to and controlled by the program module and is configured to infuse insulin according to the corresponding output instructions calculated by the rPID algorithm. The simple and robust characteristics of PID algorithm can be retained, and giving the rPID algorithm the advantages of precision and flexibility, realizing precise control for closed-loop artificial pancreas insulin infusion system.

CLOSED-LOOP ARTIFICIAL PANCREAS INSULIN INFUSION CONTROL SYSTEM

Resumen de: US2025235606A1

The invention discloses a closed-loop artificial pancreas insulin infusion control system, including: a detection module and an infusion module, a detection control unit is set in the detection module, an infusion control unit is set in the infusion module, and at least one calculation control unit is set in the detection module and the infusion module for calculating insulin infusion information and/or further processing of different insulin infusion information. Therefore, the closed-loop artificial pancreas insulin infusion control system can automatically switch the control unit according to different situations to avoid affecting the user experience due to the failure of a module or even bringing safety risks to the user, and to avoid replacing the whole device when only part of the function of some components fails, and to improve the utilization rate of each component of the closed-loop artificial pancreas.

SYSTEMS AND METHODS OF MONITORING A CATHETER OR SHUNT DEVICE AND FLUID OF THE SYSTEM

Resumen de: US2025235675A1

A monitoring system is provided. The monitoring system includes a controller and either a shunt device, an externally-communicating catheter, and/or a fluid retention device. The shunt device and catheter are configured to address fluid movement such as ascites and pleural effusions. Each of the shunt device and catheter include a plurality of sensors that communicate with the controller positioned external to a body of a subject. The plurality of sensors are configured to output a signal indicative of a total volume, a glucose amount, or an oxygenation within a fluid flowing in contact within or surrounding the shunt device or the catheter.

METHOD FOR INCREASING ACCURACY AND PRECISION OF NON-INVASIVE BLOOD GLUCOSE MEASUREMENT APPARATUS

Resumen de: WO2025154863A1

The present invention relates to a method for increasing the accuracy and precision of a non-invasive blood glucose measurement apparatus and, more specifically, to a method for increasing the accuracy and precision of a non-invasive blood glucose measurement apparatus, wherein, in order to increase the accuracy and precision of quantitative analysis of the non-invasive blood glucose measurement apparatus, an algorithm having a qualitative analysis and an algorithm of quantitative analysis are combined to enhance blood glucose prediction values. To this end, the present invention comprises: a step of starting measurement after making contact with the capillary system in the skin of the body by using a selected wavelength band related to blood glucose; a skin irradiation step of sequentially irradiating the blood vessels in the skin with monochromatic light corresponding to each of visible light and near-infrared light; and a detector signal step of a detector receiving signals from the monochromatic light in the skin irradiation step, wherein the detector signal step is completed, and the accuracy and precision of the non-invasive blood glucose measurement apparatus are increased.

PERSONALIZED ARTIFICIAL INTELLIGENCE-BASED INSULIN DOSE DETERMINATION SYSTEM

Resumen de: WO2025154971A1

Provided is a personalized artificial intelligence-based insulin dose determination system for a terminal which can communicate with an insulin pump and a continuous blood glucose meter used by a user, the personalized artificial intelligence-based insulin dose determination system comprising: an interface layer which can communicate with the insulin pump and the continuous blood glucose meter, and signal-processes information from the insulin pump and the continuous blood glucose meter; a control layer which receives the signal-processed information from the interface layer and generates output information associated with an insulin injection amount; an outer safety layer which determines whether the output information generated from the control layer satisfies a preset threshold value condition, and if the output information satisfies the preset threshold value condition, transfers the output information to the interface layer; and a personalized safety layer which determines a safety control variable per individual by receiving, from the outside, prescription information including the total daily dose (TDD) of insulin information of a user, and transmits the determined control variable as an input variable of the control layer.

LASER BLOOD COLLECTION AND BLOOD GLUCOSE MEASUREMENT DEVICE

Resumen de: WO2025155053A1

The present invention relates to a laser blood collection and blood glucose measurement device. The laser blood collection and blood glucose measurement device comprises: an examinee identification unit for outputting identification information about examinees; a storage unit for storing examinee information corresponding to each piece of identification information and the laser intensity levels corresponding to the respective examinees; an operation control unit connected to the examinee identification unit and the storage unit; a capacitor module unit connected to the operation control unit and including a capacitor; and a laser output module unit that is connected to the capacitor module unit and outputs a laser of a corresponding intensity to the skin of the current examinee according to the charging voltage applied from the capacitor module unit, thereby causing bleeding. The operation control unit is connected to the examinee identification unit, identifies the examinee corresponding to the identification information applied from the examinee identification unit among the examinees stored in the storage unit and stores the examinee as the current examinee in the storage unit, determines the laser intensity level corresponding to the current examinee among the laser intensity levels stored in the storage unit, and controls the charging voltage of the capacitor according to the determined laser intensity level.

MANAGEMENT DEVICE AND METHOD FOR DISPLAYING GLUCOSE INFORMATION

Resumen de: WO2024055249A1

A management device for displaying glucose information. The screen of the management device is divided into the plurality of display areas, at least comprising a first display area for displaying the status of the management device, a second display area for displaying real-time glucose information, and a third display area for displaying historical glucose concentration information. The user can intuitively and easily get the glucose information in the body.

DRUG INFUSION SYSTEM WITH GRAPHICAL USER INTERFACE

Resumen de: EP4588494A1

The invention discloses a drug delivery system with graphical user interface comprises detection device, for detecting the blood glucose level of the user; an infusion device, for infusing a drug into the user's body; and a control device, wirelessly communicated with the detection device and the infusion device, the control device controlling the drug delivery of the infusion device, and the control device provided with a graphical user interface, the graphical user interface comprising a main screen, the main screen comprising an insulin information display area and a blood glucose information display area, wherein the insulin information display area comprising insulin infusion status information, the graphical user interface displays the insulin infusion status information in a graphical and/or textual manner, to facilitate the user to intuitively know the insulin infusion status information and blood glucose information at that time.

SYSTEMS AND METHODS FOR DIABETES MANAGEMENT

Nº publicación: EP4587927A1 23/07/2025

Solicitante:

ABBOTT DIABETES CARE INC [US]
Abbott Diabetes Care Inc

Resumen de: CN119856162A

Systems, devices, and methods are provided for incorporating a drug delivery device into an integrated management system. The integrated management system may be an integrated diabetes management system and may include a glucose monitor, a connected insulin pen, and software. An integrated management system may generate a plurality of reports, which may include data related to analyte levels (e.g., glucose levels) and delivered drugs (e.g., delivered insulin). The integrated system may also include a mode in which certain types of data are no longer shared and/or stored if the user does not log in the account. The type of data shared and/or stored when the user does not log in the account may be different from the type of data shared and/or stored when the user logs in the account.