Absstract of: AU2026203530A1
22656533_1 (GHMatters) P121004.AU.3 Various embodiments of implant systems and related apparatus, and methods of operating the same are described herein. In various embodiments, an implant for interfacing with a bone structure includes a web structure, including a space truss, configured to interface with human bone tissue. The space truss includes two or more planar truss units having a plurality of struts joined at nodes. Implants may include biodegradable polymer particles contained within biocompatible fibers. The biodegradable polymer particles may include bone growth promoting agents that are released as the particles degrade over time. ay a y a y
Absstract of: US20260165468A1
A secure receptacle includes within it a vertically-aligned carousel having a plurality of securable containers horizontally disposed around the carousel. Each container includes a securable lid preventing access to the contents of the container, and the vertically-aligned carousel is configured to lock in a secured position. A sensor within the secure receptacle determines a position of the carousel, and a motorized controller rotates the carousel to a requested position. On determining a requested container, the carousel is rotated so that the requested container is moved from a current position to the opening of the secure receptacle, and the securable lid of the requested container is actuated to provide access to its contents.
Absstract of: US20260171251A1
0000 Techniques are described herein for using time series data such as vital signs data and laboratory data or other time series data as input across machine learning models to predict a change in stage of a medical condition of a patient. In various embodiments, patient data comprising vital signs data of a patient and laboratory data or other time series data of the patient corresponding to an observation window may be received. A time series model may be used to predict a change in stage of a medical condition in the patient in a prediction window based on the patient data. The predicted change in stage of the medical condition may be output.
Absstract of: US20260166114A1
0000 Compositions and methods for delivery of therapeutic agents to an individual in need thereof, for prevention/reduction of tissue adhesion, and for 3D printing are disclosed herein. In some embodiments, the composition comprises octadecyl modified hydroxypropyl methylcellulose (HPMC-C18) and a surfactant or cyclic polysaccharide, wherein the composition is a hydrogel that exhibits dynamic properties.
Absstract of: US20260170326A1
An automated image processing method for assessing facially-expressed emotions of an individual, the facially-expressed emotions being caused by operation of a vehicle, machinery, or robot by the individual, including operating a vehicle, machinery, or robot by the individual and thereby expose a vision of the individual to a stimulus, detecting non-verbal communication from a physiognomical expression of the individual based on image data by a first computer algorithm, the image data of the physiognomical expression of the individual being caused in response to the stimulus, assigning features of the non-verbal communication to different types of emotions by a second computer algorithm, analyzing the different types of emotions to determine an emotional state of mind of the individual, and generating at least one of a prompt, an alert, or a change in a setting of an operational parameter of the vehicle, based on the emotional state of mind of the individual.
Absstract of: AU2026204294A1
22674988_2 (GHMatters) P119087.AU.1 An indicating device includes a mechanical dose counter adapted to count the number of doses that have been dispensed from or remain in a container and an electronic module coupled to the mechanical dose counter and adapted to record when the doses have been dispensed from the container. Methods of using and assembling the device are also provided. un u n
Absstract of: US20260165598A1
0000 The present invention relates to the technical field of generating artificial contrast-enhanced radiological images.
Absstract of: US20260166231A1
0000 A method is provided for filtering a signal output from a sensor of a medication delivery device. In some embodiments, the sensor is operable to transition between an engaged state and a disengaged state. In some embodiments, the method includes detecting a first transition of the signal to a first logic state from a second logic state, the first transition occurring at a first time point; determining whether, within a first time period beginning at the first time point, the signal is in the first logic state for a cumulative time period that equals or exceeds a first threshold duration; and determining that the sensor of the medication delivery device transitioned from said disengaged state to said engaged state at the first time point when the cumulative time period equals or exceeds the first threshold duration.
Absstract of: US20260171250A1
The present application discloses a dental system and software configured to obtain facial measurement data associated with a patient and create a patient removable dental prothesis based on the facial measurement data by using Artificial Intelligence (AI).
Absstract of: WO2026128180A1
The present disclosure regards an infusion system that includes an infusion device, an imaging device, and a processor. The processor is configured to pump a fluid, and the imaging device is configured to convert a received image signal into image data. The processor is configured to receive an identifier for the fluid and determine that the fluid is associated with an imaging-based infusion protocol based on the fluid identifier. The processor is also configured to detect whether the imaging device is connected to the imaging probe and, responsive to detecting that it is connected, operate the infusion device at a first operating speed. Additionally, the processor is configured to receive the image data from the imaging device and determine a second operating speed based on the image data. Further, the processor is configured to operate the infusion device at the second operating speed.
Absstract of: WO2026128116A1
Certain aspects of the disclosure provide techniques for personalized chronotherapy. An example method includes obtaining sensor data associated with one or more sensors; determining a circadian rhythm based on the sensor data; determining a control schedule, for a device configured to deliver a therapeutic, based on the circadian rhythm and pharmacological data associated with the therapeutic; and controlling the device in accordance with the control schedule.
Absstract of: US20260167829A1
0000 Disclosed herein are a light sensitive composition comprising a photocurable composition and a photoinitiator comprising an aryl-diazirine, wherein the diazirine bears an electron withdrawing group, and a cured composition obtained by curing the light sensitive composition. Also disclosed herein is a cured composition comprising a cured polymeric resin, and a reaction product formed between an aryl-diazoalkane and a dipolarophile, wherein the diazoalkane bears an electron withdrawing group. Also disclosed herein is a method of forming a cured polymeric resin, the method comprising the steps of (a) providing the light sensitive composition as aforementioned above, and (b) exposing it to a light source for a period of time to provide a cured polymeric resin.
Absstract of: JP2026098945A
【課題】お薬カレンダーに一包化分包が正しくセットされていないときにそれを正確に伝える。【解決手段】お薬カレンダーは,薬剤が服用される曜日ごとおよび服用タイミングごとに間仕切りされた複数のポケットを備え,そのそれぞれに,収納されている薬剤が服用される日付および曜日と服用タイミングが印刷されている一包化分包がセットされる。お薬カレンダーを含む画像データが受信され(ステップ40),お薬カレンダー画像に含まれる文字およびその位置がOCR処理によって認識される(ステップ44)。認識された文字およびその位置に基づいて,お薬カレンダーのポケットにセットされている一包化分包のそれぞれについて,一包化分包がセットされるべき正しい位置のポケットにセットされているかどうかが判断される(ステップ45)。【選択図】図10
Absstract of: WO2026127899A1
The Pediatric Invasive Pictorial Shield is a device designed to reduce negative emotions such as pain, stress, and fear experienced by children during clinical procedures, including blood sampling and other invasive interventions. The device is designed to be worn around the upper arm, produced using 3D printing technology, and features pictorial illustrations on its front surface. During the procedure, the child's attention is diverted by asking questions related to the pictures, reducing the child's focus on the medical process. The device is suitable for children aged 6 to 10 years. It can be used in hospitals and is suitable for mass production using 3D printers.
Absstract of: KR102979890B1
0001a 본 발명은 사용자의 인지 상태를 실시간으로 모니터링하고, 뇌의 시각 정보 처리 지연을 보상하기 위해 목표 궤적을 선행 투사하는 마그네틱 싱크 엔진(Magnetic-Sync Engine, MSE)을 이용한 실시간 인터랙티브 인지 유도 시스템 및 방법에 관한 것이다. 본 발명의 MSE는 사용자의 입력 지점과 목표 궤적 사이의 거리에 대응하는 가상 인력을 연산하여 자석처럼 사용자를 목표 경로로 견인하고, 선취 타이밍 제어를 통해 사용자가 도달할 예상 지점보다 0.1초 내지 0.2초 먼저 시각 가이드를 투사함으로써 인지 고속도로를 형성할 수 있다. 시선 추적 및 촉각 입력 등 멀티모달 센서를 융합하여 인지 부하를 정밀하게 산출하고, 이에 따라 가상 인력의 크기와 궤적의 형상을 실시간으로 가변시킬 수 있다. 동기화 성공 시 솔페지오 주파수 오디오 및 개화 애니메이션을 통한 뉴로 피드백을 제공하여 학습 효율을 극대화할 수 있으며, 의료 재활, 인지 훈련, 정밀 작업 교육 등 다양한 분야에 적용될 수 있다.
Absstract of: US20260165736A1
A cannula system is provided that enables hands-free operation of cameras by a surgeon and provides 3D images of the surgical site. An exemplary cannula system comprises a body portion, a rear portion, a proximal end, a distal end, a central lumen, and an insertion axis. One or more motion-controlled cameras are housed in one or more slots defined in the distal end of the cannula. An obturator has a proximal end and a distal end and is configured to be at least partially disposed within the cannula along the insertion axis. The cameras are controllable mechanically or electronically and are tiltable along a vertical axis, a horizontal axis, or a combination of the vertical axis and the horizontal axis. An alignment and stabilization system is configured to align the orientation of the cameras with views of the surgical opening as perceived by a medical practitioner and to stabilize the images perceived by the medical practitioner
Absstract of: WO2026128408A1
An absorbent article is provided including a first and second end edge and a longitudinal length L between the first and second end edge. The absorbent article also includes a liquid permeable topsheet, a liquid impermeable backsheet, and an absorbent core disposed between the topsheet and the backsheet. The topsheet comprises at least two visually discernible zones comprising a first zone and a second zone. The first zone has a first zone length that is 0.5L to L, where the first zone has a minimum width along the first zone length that is in the range of 0.7W to 1.3W. The first zone has a different core height value and/or a different core void volume, according to the Surface Topography Test. The first and second zones each comprise apertures and/or three-dimensional features. The three-dimensional features comprise morphological features that are at least partially concave or convex.
Absstract of: US20260165629A1
0000 A control circuit accesses electroanatomic mapping (EAM) two-dimensional image information for a particular patient's heart and then generates a three-dimensional EAM presentation of the particular patient's heart as a function of the EAM two-dimensional image information to provide a generated three-dimensional EAM presentation of the particular patient's heart. The control circuit can then generate a treatment plan to treat a condition of the particular patient's heart using the generated three-dimensional EAM presentation of the particular patient's heart, and then administer treatment to the particular patient's heart using the treatment plan.
Absstract of: AU2025275144A1
The present invention relates to a computer implemented method of generating a panoramic image of a patient (P), comprising: a step of defining a focal curve (F) relative to the patient’s oral cavity (O), wherein the focal curve (F) follows the shape of the jawbone (J) of the patient (P), wherein the focal curve (F) has a predefined thickness (L) 5 which includes at least the teeth (T) to be imaged; a step of acquiring a plurality of two dimensional x-ray projection images of the patient (P) along the focal curve (F) by means of rotating an x-ray source (3), an x-ray collimator (12) and a flat panel x-ray detector (4) around the patient’s head in accordance with a predefined trajectory relative to the patient (P), wherein the x-ray collimator (12) is positioned between the patient’s head and the x-10 ray source (3), wherein the collimator (12) has an x-ray aperture (13) to restrict the x-ray cone beam angle, wherein the width of the x-ray aperture (13) is adjustable for varying the x-ray cone beam angle. In the acquisition step, the width of the aperture (13) is continuously varied such that the width of the aperture (13) used to expose the molar region (M) of the focal curve (F) is larger than the width of the aperture (13) used to 15 expose to the incisal region (I); and in the acquisition step, the readout region (R) of the x- ray detector (4) is continuously varied in the horizontal direction such that the readout region (R) of the x-ray detector (4) is equal to or
Absstract of: WO2026126595A1
The present disclosure provides assistance in diagnosis related to pediatric oral functions by a dentist, a dental hygienist, or the like. In order to diagnose pediatric oral functions of a patient, the present disclosure provides a program for realizing functions of: a communication unit 21 that receives, from a server device 30, a plurality of diagnostic items regarding the pediatric oral cavity functions; a display control unit 22 that displays the plurality of diagnostic items regarding the pediatric oral cavity functions on a display of a terminal device; and an operation accepting unit 23 that accepts selection of the diagnostic items. The communication unit requests the server device for an evaluation criterion, an evaluation item, and a diagnostic action corresponding to the diagnostic items for which selection has been accepted by the operation accepting unit, and receives the same from the server device. The display control unit displays, on the display of the terminal device, the received evaluation criterion, evaluation item, and diagnostic action.
Absstract of: WO2026127279A1
Disclosed is a method of generating procedure plan information for a procedure utilizing focused ultrasound (FU), the method being performed by a computing device according to one embodiment of the present disclosure. The method may comprise the steps of: acquiring an image of a body part to be treated; identifying one or more layers in the body part to be treated; generating procedure plan information for a procedure using focused ultrasound for the one or more layers on the basis of the type of the identified layers; displaying the generated procedure plan information on the acquired image; and generating, on the basis of the generated procedure plan information, an actuator control signal for automatically moving a device generating the focused ultrasound to a target treatment site.
Absstract of: WO2026128639A1
Described are methods and systems for determining or identifying a disease in a subject. The methods may include obtaining a biological sample of the subject. The methods may also include performing a first assay on the biological sample or derivatives thereof to measure one or more multiomic biomarkers. The methods may also include extracting nucleic acid molecules from the biological sample of the subject. The methods may also include performing a second assay on the extracted nucleic acid molecules or derivatives thereof to generate an assay result. The methods may also include determining the presence or the absence of the disease in the subject. The systems described may be configured to execute the methods described.
Absstract of: WO2026127280A1
An ultrasound device according to one embodiment of the present disclosure is disclosed. The ultrasound device may comprise: a main body module including an ultrasound scanner for acquiring an ultrasound image; and a mounting module which is mounted on the main body module and which generates focused ultrasound (FU) waves in a target area, wherein the main body module and the mounting module are coupled such that at least some of the ultrasonic waves generated by the ultrasound scanner of the main body module pass through the inside of the mounting module and are emitted at the target area.
Absstract of: US20260166339A1
0000 One or more example embodiments relates to a method and apparatus which provides a smoothed radiation treatment plan. A time axis is defined for each control point setting a control point time. The control point time is set to be greater than a minimum time required to move all of the components of a treatment machine from a first control point to a second control point in order to slow down the components of the treatment machine resulting in a less jerky delivery.
Nº publicación: US20260165663A1 18/06/2026
Applicant:
WELCH ALLYN INC [US]
Welch Allyn, Inc.
Absstract of: US20260165663A1
0000 A medical device includes one or more modules configurable to connect to one or more sensors for capturing one or more physiological variable measurements. The medical device includes a display screen for displaying the physiological variable measurements. The medical device triggers an alarm based on the physiological variable measurements captured by the one or more sensors. The medical device displays a first option on the display screen to suppress the alarm and a second option on the display screen to submit a request for assistance.