Feedback
Settings

Settings

Goto Application

25,985 results
Offices all Languages Stemming false Single Family Member true Include NPL false
RSS feed can only be generated if you have a WIPO account

Save query

A private query is only visible to you when you are logged-in and can not be used in RSS feeds

Query Tree

Refine Options

Offices
All
Specify the language of your search keywords
Stemming reduces inflected words to their stem or root form.
For example the words fishing, fished,fish, and fisher are reduced to the root word,fish,
so a search for fisher returns all the different variations
Returns only one member of a family of patents
Include Non-Patent literature in results

Full Query

IC:A61B5/01

Side-by-side view shortcuts

General
Go to Search input
CTRL + SHIFT +
Go to Results (selected record)
CTRL + SHIFT +
Go to Detail (selected tab)
CTRL + SHIFT +
Go to Next page
CTRL +
Go to Previous page
CTRL +
Results (First, do 'Go to Results')
Go to Next record / image
/
Go to Previous record / image
/
Scroll Up
Page Up
Scroll Down
Page Down
Scroll to Top
CTRL + Home
Scroll to Bottom
CTRL + End
Detail (First, do 'Go to Detail')
Go to Next tab
Go to Previous tab

Analysis

1 / 2,599
1.WO/2026/099892METHOD AND SYSTEM FOR PREDICTING FERTILITY CYCLE OF A USER
WO 15.05.2026
Int.Class A61B 5/00
AHUMAN NECESSITIES
61MEDICAL OR VETERINARY SCIENCE; HYGIENE
BDIAGNOSIS; SURGERY; IDENTIFICATION
5Measuring for diagnostic purposes ; Identification of persons
 Appl.No PCT/IN2025/051747 Applicant ULTRAHUMAN HEALTHCARE PRIVATE LIMITED Inventor BHATTACHARYA, Aditi
A method (400) and system (100) for predicting a fertility cycle of a user is disclosed A processor (302) acquires physiological biomarker data comprising at least one of a heart rate, a heart-rate variability, a skin temperature, and a skin perfusion. A rolling baseline is computed by processing the physiological biomarker data using a rolling-average technique. A stress-rhythm score that decays from a predefined value in response to non-fitness-related heart-rate elevations detected as deviations from the rolling baseline. Lifestyle-biomarker data of the user comprising at least one of a body-mass index (BMI), and an age is received. Historical fertility cycle data of the user is retrieved. A fertility cycle comprising an ovulation day and a fertile window of the user is predicted based on a weighted probabilistic analysis of the physiological biomarker data, the stress-rhythm score, the lifestyle-biomarker data, and the historical fertility cycle data of the user.
2.WO/2026/101946WEARABLE WIRELESS TEMPERATURE MONITORING DEVICE UTILIZING A MICROMACHINED MEMS THERMOCOUPLE FOR LABORATORY ANIMALS AND HUMAN ICU PATIENTS
WO 15.05.2026
Int.Class A61B 5/01
AHUMAN NECESSITIES
61MEDICAL OR VETERINARY SCIENCE; HYGIENE
BDIAGNOSIS; SURGERY; IDENTIFICATION
5Measuring for diagnostic purposes ; Identification of persons
01Measuring temperature of body parts
 Appl.No PCT/US2025/054088 Applicant ICAHN SCHOOL OF MEDICINE AT MOUNT SINAI Inventor GAITAS, Angelo
A wearable wireless temperature monitoring device includes a micromachined thermocouple probe fabricated on a Silicon-On-Insulator (SOI) substrate, including an electrically insulated housing and a microneedle probe. A doped silicon (Si)Zchrome (Cr)Zgold (Au) junction on the microneedle probe provides a Seebeck coefficient of approximately 447 μV/°C. The device further includes a wireless data communication transceiver positioned in the housing for continuous real-time temperature monitoring. The microneedle has a diameter of less than 100 microns and a submicron sharp tip for minimally invasive temperature measurements.
3.20260123847FLEXIBLE HYBRID ELECTRONIC SYSTEM FOR INTRAOPERATIVE INTRACRANIAL MONITORING
US 07.05.2026
Int.Class A61B 5/03
AHUMAN NECESSITIES
61MEDICAL OR VETERINARY SCIENCE; HYGIENE
BDIAGNOSIS; SURGERY; IDENTIFICATION
5Measuring for diagnostic purposes ; Identification of persons
03Measuring fluid pressure within the body other than blood pressure, e.g. cerebral pressure
 Appl.No 19438631 Applicant HUAZHONG UNIVERSITY OF SCIENCE AND TECHNOLOGY Inventor Hao WU

Disclosed is a flexible hybrid electronic system for intraoperative intracranial monitoring. The system includes a flexible front-end signal collection circuit, a back-end signal processing circuit and a computer system, wherein the front-end signal collection circuit includes a flexible substrate, an electroencephalogram layer, a flexible sensor array, a temperature-controlled hydrogel interface layer, and an electrothermal film. The flexible sensor array is used for collecting pressure, temperature, electroencephalographic and cerebral tissue oxygen saturation signals, and the electrothermal film regulating the adhesion and peeling of the temperature-controlled hydrogel interface layer and cerebral tissue. The signal processing circuit is electrically connected to the signal collection circuit, so as to receive signals collected by the flexible sensor array and the electroencephalographic layer, analyze then transmit to the computer system. When the pressure data exceed a preset normal threshold, the alarm module is triggered to alert the surgeon to the cranial status.

4.20260123838WEARABLE DEVICE FOR NONINVASIVE BODY TEMPERATURE MEASUREMENT
US 07.05.2026
Int.Class A61B 5/01
AHUMAN NECESSITIES
61MEDICAL OR VETERINARY SCIENCE; HYGIENE
BDIAGNOSIS; SURGERY; IDENTIFICATION
5Measuring for diagnostic purposes ; Identification of persons
01Measuring temperature of body parts
 Appl.No 19420511 Applicant Masimo Corporation Inventor Ammar Al-Ali

A wearable device configured to secure to skin of a user and noninvasively measure body temperature of the user can include first and second pairs of temperature sensors configured to generate one or more signals responsive to detected thermal energy, a thermally conductive element positioned at least partially between the second pair of temperature sensors, and one or more hardware processors configured to receive the one or more signals generated by each of said first and second pairs of temperature sensors and determine one or more body temperature values of the user based on at least comparisons between different ones of the first and second pairs of temperature sensors. In some implementations, the wearable device includes thermally conductive probes for transmitting thermal energy toward ones of the first and second pairs of temperature sensors and a substrate positioned between the probes and the skin.

5.WO/2026/096201SYSTEM FOR MONITORING HEALTH STATUS USING A THERMAL IMAGING SYSTEM
WO 07.05.2026
Int.Class A61B 5/01
AHUMAN NECESSITIES
61MEDICAL OR VETERINARY SCIENCE; HYGIENE
BDIAGNOSIS; SURGERY; IDENTIFICATION
5Measuring for diagnostic purposes ; Identification of persons
01Measuring temperature of body parts
 Appl.No PCT/US2025/051040 Applicant EMERJA CORPORATION Inventor MILLER, Guy
The disclosed technology relates to systems for monitoring a health status of a mother and/or infant by monitoring heat flux patterns of the mother/infant dyad, and methods of detecting health anomalies in the mother and/or infant using heat flux patterns of the mother/infant dyad. The disclosed technology also relates to methods of monitoring thermoregulation transitions comprising obtaining a plurality of thermal images of a subject with a thermal imaging device.
6.20260123885MULTIMODAL, MULTILAYERED SOFT ELECTRONICS IN ADVANCED DEVICES AND APPLICATIONS OF SAME
US 07.05.2026
Int.Class A61B 5/00
AHUMAN NECESSITIES
61MEDICAL OR VETERINARY SCIENCE; HYGIENE
BDIAGNOSIS; SURGERY; IDENTIFICATION
5Measuring for diagnostic purposes ; Identification of persons
 Appl.No 19424908 Applicant NORTHWESTERN UNIVERSITY Inventor John A. Rogers

A method of fabricating an electronic system for multimodal diagnostic measurements and therapeutic interventions includes forming each of a plurality of element network layers, each element network layer being biaxial stretchable and comprising a plurality of elements configured in an addressable, interconnected array formed in a multilayered structure and operably performing a distinct function; and integrating the plurality of element network layers in a vertical stack of one with another on a flexible substrate.

7.WO/2026/096464DROPLET TRACKER SYSTEM AND METHOD FOR OPHTHALMIC MEDICINE DELIVERY CONFIRMATION
WO 07.05.2026
Int.Class A61B 3/10
AHUMAN NECESSITIES
61MEDICAL OR VETERINARY SCIENCE; HYGIENE
BDIAGNOSIS; SURGERY; IDENTIFICATION
3Apparatus for testing the eyes; Instruments for examining the eyes
10Objective types, i.e. instruments for examining the eyes independent of the patients perceptions or reactions
 Appl.No PCT/US2025/052843 Applicant NANODROPPER, INC. Inventor BAKER, Elias Lee
A system (10) for tracking delivery of a medication to a user's eye and a method of use. The system (10) comprises at least one camera (12) for capturing one or more images of an eye surface of the user's eye before, during, and after a time when the medication is applied to the user's eye. The images captured are visual or thermal images, and for example, a temperature of the eye, eyelid, and periocular surfaces may be captured as well as visualization of the location of the eyelid or iris. If a second camera is used, it may be the same or different type of camera as the first camera and may capture one or more second images of the user's eye before, during, and after the time when the droplets of the medication are applied to the user's eye. A processor is provided for comparing the first images captures and/or comparing the first images to the second images, in order to determine when to deploy the droplets and/or if the droplets of the medication were successfully applied to the user's eye.
8.3167845Procédé de détermination d’états physiologiques d’un opérateur, et programme d’ordinateur et système de détermination associés
FR 01.05.2026
Int.Class A61B 5/00
AHUMAN NECESSITIES
61MEDICAL OR VETERINARY SCIENCE; HYGIENE
BDIAGNOSIS; SURGERY; IDENTIFICATION
5Measuring for diagnostic purposes ; Identification of persons
 Appl.No 2411755 Applicant THALES Inventor NIAUSSAT VICTOR
Procédé de détermination d’états physiologiques d’un opérateur, et programme d’ordinateur et système de détermination associés La présente invention concerne un procédé de détermination d’états physiologiques d’un operateur une première étape préliminaire (110) de détermination d’une matrice de correspondance entre un modèle mathématique permettant de déterminer un état physiologique de l’opérateur et un ensemble de types de données nécessaires à la mise en œuvre du modèle mathématique. Le procédé comprenant en outre les étapes suivantes : - vérification (220) de la disponibilité de chaque capteur (12) ; - lorsqu’un capteur (12) est indisponible, exclusion (240) de considération de chaque modèle mathématique utilisant le type de données correspondant à ce capteur (12), conformément à la matrice de correspondance ; - détermination (260) des états physiologiques de l’opérateur à partir des modèles mathématiques non-exclus de considération. Figure pour l'abrégé : Figure 2
9.WO/2026/090307MEDICAL DEVICE FOR TARGETED TRANS-URETHRAL MUSCLE STIMULATION AND RESPONSE
WO 30.04.2026
Int.Class A61N 1/36
AHUMAN NECESSITIES
61MEDICAL OR VETERINARY SCIENCE; HYGIENE
NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
1Electrotherapy; Circuits therefor
18Applying electric currents by contact electrodes
32alternating or intermittent currents
36for stimulation, e.g. heart pace-makers
 Appl.No PCT/US2025/052094 Applicant GENEVI TECHNOLOGIES, INC. Inventor ACCARDI, Tracy
A transvaginal stimulation device incorporates various securing mechanisms configured to maintain secure engagement between the treatment portion of a transvaginal stimulation device and target tissue to increase the efficacy of therapeutic stimulation treatment. The device includes a concave portion configured with a stimulation array of electrodes, and the securing mechanism maximizes engagement between the stimulation array and the tissue to be treated. The device includes a flexible mechanism that increases the ability of the device to conform to the vaginal canal to maximize electrode contact. The securing mechanisms may be manually controlled or automatically controlled using predictive models trained using patient data. The predictive models may include machine learning models trained to dynamically modify device position and/or therapy in response to receipt of real-time information.
10.20260118675SYSTEMS AND METHODS FOR MULTIDIRECTIONAL SENSORS
US 30.04.2026
Int.Class G02B 27/01
GPHYSICS
02OPTICS
BOPTICAL ELEMENTS, SYSTEMS OR APPARATUS
27Optical systems or apparatus not provided for by any of the groups G02B1/-G02B26/119
01Head-up displays
 Appl.No 19003452 Applicant Apple Inc. Inventor Thilaka S. SUMANAWEERA

A system including a wearable device designed for real-time breath monitoring of a user, featuring multidirectional sensors capable of receiving light signals from subsections of a target area at a user of the wearable device. In some examples, the wearable device includes one or more multidirectional sensors positioned to capture light signals from a first field of view and a second field of view via an integrated lens focusing the received light signals to be detected by one or more pixels of the multidirectional sensor. In some examples, a breathing signal is calculated using processed light signals from the distinct subsections of the user's face.

# -