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Method device and recording medium for selecting a standard pre-aligner

Publication No.:  KR20260089796A 16/06/2026
Applicant: 
오스템임플란트주식회사
WO_2025155025_PA

Absstract of: WO2025155025A1

Disclosed are a method, a device performing the method, and a recording medium, the method comprising the steps of: obtaining, by a processor, specification information about a plurality of standard pre-aligners, which is generated on the basis of statistical information; obtaining, by a reception unit, oral information about a user; determining, by the processor, one of the plurality of standard pre-aligners on the basis of the oral information and the specification information; obtaining, by the processor, a tooth model corresponding to the oral information; and deforming, by the processor, the determined standard pre-aligner to correspond to the tooth model so as to obtain a transparent orthodontic device corresponding to the tooth model.

システム

Publication No.:  JP2026097443A 16/06/2026
Applicant: 
ソフトバンクグループ株式会社
JP_2026097443_A

Absstract of: JP2026097443A

【課題】システムを提供する。【解決手段】患者の医用画像データを取得してデータベースに格納する手段と、取得した医用画像データを前処理し、解剖学的特徴を抽出する手段と、人工知能モデルを用いて抽出された解剖学的特徴に基づき、医療用インプラントの設計を最適化する手段と、最適化された医療用インプラントデザインを3Dプリンタに送信して製造を行う手段と、手術結果および患者の回復過程を記録し、そのデータを人工知能モデルの修正に用いる手段を含むシステム。【選択図】図1

一种基于数字化精准控制关节结构的下颌前导矫正方法及矫治器设计方法

Publication No.:  CN122208318A 16/06/2026
Applicant: 
四川大学华西口腔医院
CN_122208318_PA

Absstract of: CN122208318A

本发明公开了一种基于数字化精准控制关节结构的下颌前导矫正方法及矫治器设计方法,涉及口腔医学与数字化医疗器械技术领域。采集患者颅颌面影像数据以及上下颌牙列三维数据;基于颅颌面影像数据以及上下颌牙三维数据,利用数字孪生技术重建模型;依据患者的解剖标志点在三维模型中建立个性化三维坐标系作为颌位置调整提供参考基础;基于数字孪生模型完成下颌前导与关节结构调整。本发明能够实现个性化诱导下颌前伸的效果,既能纠正上下颌骨发育的不协调,又能同时恢复颞下颌关节的结构。

一种与医院信息系统深度集成的智能中药调剂煎煮控制方法及系统

Publication No.:  CN122224433A 16/06/2026
Applicant: 
浪潮智能终端有限公司
CN_122224433_PA

Absstract of: CN122224433A

0001 本申请涉及智能配药煎药技术领域,具体涉及一种与医院信息系统深度集成的智能中药调剂煎煮控制方法及系统,所述方法包括:接收结构化电子处方数据;进行数据校验与标准化处理,包括完整性检查、药品名称标准化映射、剂量单位统一转换及煎法指令解析;将处方拆分为单味药材的独立调剂任务项,并按剂数分组,关联煎法指令;基于解析结果,生成调剂任务单和煎煮工艺单;依据任务单控制硬件平台完成药材的自动抓取、称重与转运,再根据工艺单控制药材分时序投入、恒温煎煮及密封包装;生成唯一追溯码及二维码标签并附着于药包,同时向患者终端实时推送关联进度的信息。满足医疗机构高峰期大批量处方的快速处理需求。

一种肿瘤放射治疗的摆位方法

Publication No.:  CN122208972A 16/06/2026
Applicant: 
厦门大学附属第一医院(厦门市第一医院、厦门市红十字医院、厦门市糖尿病研究所)
CN_122208972_A

Absstract of: CN122208972A

0001 本发明公开了一种肿瘤放射治疗的摆位方法,包括以下步骤:S1、个体化固定装置预塑形与基准定位:基于患者定位CT图像,提取体表轮廓数据与肿瘤靶区三维坐标,通过3D打印技术制作个体化塑形垫,在患者治疗体位下完成贴合塑形,在塑形垫表面设置3个以上光学定位标记点,标记点坐标与CT图像坐标系绑定,患者躺卧于塑形垫后,采用热塑体膜进行二次固定。本发明通过“个体化固定+AI动态补偿+呼吸协同”三重保障,摆位误差控制在0.3mm以内,较传统方法误差降低60%以上,显著提升肿瘤控制率并减少正常组织损伤,且无需反复进出机房进行影像验证,单次摆位时间缩短至5分钟以内,同时避免额外CBCT扫描带来的辐射暴露。

一种基于多模态异构数据融合的高危足早期筛查系统及方法

Publication No.:  CN122224510A 16/06/2026
Applicant: 
重庆诺思达医疗器械有限公司
CN_122224510_PA

Absstract of: CN122224510A

0001 本发明公开了一种基于多模态异构数据融合的高危足早期筛查系统及方法,属于医疗人工智能领域。包括数据采集层、特征提取层、融合推理层和输出交互层。数据采集层至少整合了泌汗功能检测、红外热成像、足底压力测量、3D足部扫描及血流动力学评估五种核心检测手段,并可扩展至数字化触觉与震动感觉阈值采集;融合推理层包含数据对齐单元与多模态异构数据融合神经网络模型,通过跨模态门控注意力机制实现模态间特征交互,采用多任务学习框架输出风险等级、溃疡概率、风险主导因素及高风险区域定位。本发明首次将小纤维神经病变检测纳入AI多模态筛查体系,实现了对神经、血管、力学、形态的全方位量化评估,适用于糖尿病高危足的早期筛查与动态管理。

实现全机器人手术干预的两步配准程序的系统和方法

Publication No.:  CN122208283A 16/06/2026
Applicant: 
梅塔莫菲西斯有限公司
CN_122208283_PA

Absstract of: EP4759261A1

0001 A system is provided for intraoperative navigation comprising a processing unit and a tracking device for real time or near real time tracking of an object in a 3D coordinate system, wherein the processing unit is configured to receive an X-ray image depicting an anatomy including at least one bone and is configured to determine an incomplete registration of the position of the anatomy in the 3D coordinate system. The incomplete registration is determined based on a received 3D data set of the anatomy and on a plurality of virtual X-ray images generated based on the 3D data set of the anatomy from different directions. The incomplete registration may also be understood as an approximation of the position of the anatomy. Based on the incomplete registration, instruction for a navigation of a device are provided.

静脉注射套件在输注互操作性工作流程中的整合

Publication No.:  CN122224411A 16/06/2026
Applicant: 
康尔福盛公司
CN_122224411_PA

Absstract of: WO2026128052A1

Methods are provided that include scanning, by a scanner, a barcode of an intravenous (IV) set, placing the IV set into service and automatically populating, by one or more processors in response to the scanning of the IV set barcode, fields of an electronic medical record system associated with a patient or fields of an infusion pump display. Systems and non-transitory machine-readable storage medium are also provided.

Multimodal subcutaneous vasculature visualization and augmented reality overlays for hands-free clinical procedures

Publication No.:  US12653619B1 16/06/2026
Applicant: 
PLERION AI INC [US]
Plerion AI, Inc.
US_12653619_B1

Absstract of: US12653619B1

0000 A multimodal system, device, and method for capturing, processing, and overlaying subcutaneous vasculature and anatomical data onto extended reality (XR) displays, enabling hands-free visualization for clinical procedures. The system integrates one or more imaging modalities (e.g., ultrasound, near-infrared, infrared, photoacoustic imaging, optical coherence tomography, transillumination, hyperspectral imaging, laser speckle contrast) with AI-assisted processing pipelines to create real-time or pre-scanned overlays. The processed data is visualized via XR devices, including augmented reality (AR), mixed reality (MR), projection-based AR, and virtual reality (VR) systems. The system supports real-time segmentation, depth estimation, predictive analytics, adaptive overlays, and patient-specific recommendations, providing improved accuracy for vascular access, oncology, cardiology, neonatal care, trauma management, telemedicine, and other clinical workflows.

Health safety and status system, service, and platform, and corresponding methods

Publication No.:  US12658288B1 16/06/2026
Applicant: 
TENSORX INC [US]
TensorX, Inc.
US_12658288_B1

Absstract of: US12658288B1

A health safety and status system, implemented at least in part as an at-home test kit, may be employed for determining a presence of a virus in an individual. The test kit includes a test strip, which in turn includes an embedded data object having a unique identification of the test strip. The test strip further includes a test sample collection patch configured to receive a test sample from the individual. The application is configured to be resident on a host machine. The application includes machine instructions that when executed by a processor of the host machine, control the host machine to capture the content of the embedded data object, control the host machine to capture an indication of the test sample, and control the host machine to transmit the content and the indication of the test sample to a processing facility of the health safety and status system.

情報処理装置及び服薬支援システム

Publication No.:  JP2026097137A 16/06/2026
Applicant: 
エトリア株式会社
JP_2026097137_A

Absstract of: JP2026097137A

0001 【課題】服薬介助者の作業負担を軽減する。 【解決手段】服薬介助者から服薬者へ配薬する作業を支援するための情報処理装置220であって、服薬介助者が配薬する薬2に対応する服薬者情報を取得する服薬者情報取得部222と、薬を配薬される対象者(服薬予定者)の音声又は薬を配薬する服薬介助者の音声を集音部221により集音して得られる音声情報を取得する音声情報取得部222と、音声情報取得部が取得した音声情報に基づいて対象者を識別する識別部222と、識別部により識別された対象者が、服薬者情報取得部により取得された服薬者情報に対応する服薬者と一致するか否かを判定する服薬者判定部222と、を有する。 【選択図】図12

基于语音视觉双模态交互的智能血糖仪及操作方法

Publication No.:  CN122218238A 16/06/2026
Applicant: 
北京华益精点生物技术有限公司
CN_122218238_PA

Absstract of: CN122218238A

本申请公开了一种基于语音视觉双模态交互的智能血糖仪及操作方法,包括:壳体,壳体的侧面设置有试条插口模块,试条插口模块用于接收血糖试条并提供插入手感反馈,壳体的上表面固定设置有显示模块和操作模块,显示模块用于提供视觉交互界面,并显示血糖检测结果;壳体内部固定设置有电路板,电路板上集成有智能芯片、语音交互模块、检测模块和电源模块;智能芯片包括存储器和处理器,存储器存储有计算机程序,处理器执行计算机程序实现全流程的操作引导。本申请通过语音和视觉双模态全流程交互操作引导,使视力障碍患者能够独立完成血糖检测全过程,且通过试条插口模块提供的插入手感反馈降低了操作错误率,提升了用户体验。

一种胃镜反流误吸风险管理交互方法和系统

Publication No.:  CN122224482A 16/06/2026
Applicant: 
佛山市中医院
CN_122224482_PA

Absstract of: CN122224482A

本申请提供一种胃镜反流误吸风险管理交互方法和系统,涉及智慧医疗技术领域,该方法通过主界面统一整合多种界面入口,便于医生高效操作。该方法在术前引导录入患者个体化信息,并基于该信息智能推荐默认预警规则,同时允许医生根据临床判断灵活调整,提升风险配置的精准性。在检查过程中,监控仪表盘实时呈现多源监测数据,结合术前信息由风险评估模型动态生成反流误吸风险等级,一旦触发预设预警规则,立即在界面弹出风险干预建议窗口,推送具体可执行的临床措施并收集医生反馈,实现人机协同决策。检查结束后,通过风险日志子界面,支持回溯检查过程中的风险评估记录、干预交互信息及医生反馈,以支持所述风险评估模型的持续优化。

一种基于医嘱执行的吸氧在线控制与智能管理系统

Publication No.:  CN122224400A 16/06/2026
Applicant: 
金华市人民医院
CN_122224400_PA

Absstract of: CN122224400A

本发明提供一种基于医嘱执行的吸氧在线控制与智能管理系统,采用“云‑端‑边”三层架构,由后台服务器、PDA护理终端、物联吸氧设备构成,实现医嘱下发、设备控制、数据采集、计费核算、信息交互的全流程闭环管理。通过自动化流程替代人工:医嘱自动下发、记录自动生成、费用自动结算,减少手动操作;护士通过PDA扫码采集患者信息、调整参数、确认费用,无需纸质记录与人工跑腿;电子归档替代纸质台账,节约纸张、档案袋等资源,降低医院运营成本。系统通过消息推送机制,实时通知护士“新开吸氧”“新停吸氧”等任务,避免信息滞后。护士可通过PDA随时查看患者吸氧状态与执行记录,快速响应治疗需求,提升护理精准度与便捷性。

一种医用距骨植入体的复合增材制造方法

Publication No.:  CN122210074A 16/06/2026
Applicant: 
中国人民解放军空军工程大学
CN_122210074_PA

Absstract of: CN122210074A

本发明公开了一种医用距骨植入体的复合增材制造方法,方法中,设计面向激光冲击锻打工艺的梯度拓扑结构;激光粉末床熔融逐层打印,其中,采用选区激光熔化设备对所述三维缺损模型进行打印;原位亚稳态激光冲击锻打,其中,在每一打印层完成后的2000ms内、熔池处于亚稳态但尚未完全凝固时,施加脉冲能量为90‑110μJ的超快激光冲击波进行原位锻打获得成型件;构建功能化后处理与生物活性界面,其中,将成型件在惰性气氛中于490‑510℃热处理3.5‑4.5h,随后对骨接触面采用粒径100‑200μm的氧化铝磨料进行喷砂处理,获得表面粗糙度Sa为1.5‑2.5μm的生物活性微观形貌。

用于锚固牙科器具的牙基台

Publication No.:  CN122228067A 16/06/2026
Applicant: 
医乐世医疗技术皮诺公司
CN_122228067_PA

Absstract of: WO2025088134A1

The present invention relates to a dental abutment and assembly for anchoring a dental appliance comprising means addressing, by allowing lateral and angular movements, deviation from tolerance generated at an interface between the dental abutment and a dental appliance produced by additive or subtractive manufacturing.

神経幹細胞の培養のための維管束植物に基づく足場及びインビトロでの方法

Publication No.:  JP2026519274A 15/06/2026
Applicant: 
ユニバーシティ・オブ・オタワ
JP_2026519274_A

Absstract of: WO2024221106A1

A vascular plant based cellulose scaffold for in-vitro production or growth of neural stem cells is provided. The scaffold may be obtained by decellularizing a vascular plant or a part thereof and is capable of supporting the growth of neural stem cells. The scaffold may be coated with any traditional coating known in the art such as a biomolecule, a synthetic biomolecule (Poly-L-Ornithine), a ligand, a protein, an amino acid, an antibody, an extracellular matrix, fibrin, laminin, collagen, fibronectin, poly-l- lysine, a small molecule, a hydrogel, or a matrigel. An in-vitro method of growing or producing neural stem cells is also provided.

AI APPARATUS AND METHOD FOR AI-BASED CARDIAC REHABILITATION PREDICTION

Publication No.:  KR20260088723A 15/06/2026
Applicant: 
전남대학교산학협력단전남대학교병원
KR_20260088723_PA

Absstract of: KR20260088723A

본 발명은 AI 기반 심장재활 예측 장치 및 방법에 관한 것으로, 상기 장치는 웨어러블 디바이스를 통해 일련의 심장재활 측정 데이터를 수집하고 상기 일련의 심장재활 측정 데이터를 전처리하여 결측 데이터를 보완하고 제1 심장재활 데이터를 생성하는 심장재활 데이터 전처리부; 사용자의 건강상태에 따라 상기 제1 심장재활 데이터에서 심장재활 주요변수를 선별하고, 상기 심장재활 주요변수를 입력 데이터로 입력하며 상기 건강상태를 출력 데이터로 입력하여 심장재활 예측모델을 학습하는 예측모델 생성부; 상기 사용자의 제2 심장재활 주요변수를 상기 심장재활 예측모델에 입력하여 상기 사용자의 심폐 기능을 예측하는 심장상태 예측부; 및 상기 심폐 기능을 기초로 상기 사용자의 심장재활 운동 컨텐츠를 제공하여 상기 사용자의 심장재활 운동을 제어하는 심장재활 운동제어부를 포함한다.

3D 3D Portable 3D bioprinting system and a 3D bioprinting method using the system

Publication No.:  KR20260088672A 15/06/2026
Applicant: 
울산과학기술원
KR_20260088672_PA

Absstract of: KR20260088672A

0001a 본 발명은 수동으로 3D 바이오 프린터의 위치를 조정할 수 있는 수동 암을 구비하여 프린팅 작업 시 손떨림 방지에 따른 3D 프린팅 작업의 정밀도를 높일 수 있으며, 제품 단가를 낮추어 사용자의 접근성을 높일 수 있도록 한 휴대용 3D 바이오 프린팅 시스템 및 이를 이용한 3D 바이오 프린팅 방법에 관한 것이다. 이를 위해, 베이스 플레이트; 상기 베이스 플레이트에 형성되며, 복수의 관절을 포함하는 수동 암; 및 상기 수동 암에 형성되며, 인체의 환부에 바이오 프린팅을 수행할 수 있도록 이루어지는 프린트부를 포함하며, 상기 프린트부는, 3D 바이오 프린터; 상기 수동 암의 단부에 설치되며, 상기 인체의 환부에 대응되어 상기 3D 바이오 프린터에 상기 인체의 환부를 가이드해주는 바디 서피스; 상기 바디 서피스에 형성되며, 상기 바디 서피스의 상 측에서 상기 3D 바이오 프린터의 위치를 가변시킬 수 있도록 이루어지는 3D 모션 프레임을 포함하는 휴대용 3D 바이오 프린팅 시스템을 제공한다.

GEOMETRISK KOMPLEKSE INTRAVAGINALE RINGE, SYSTEMER OG FREMGANGSMÅDER TIL FREMSTILLING DERAF

Nº publicación: DK4129300T3 15/06/2026

Applicant:

UNIV NORTH CAROLINA CHAPEL HILL [US]
The University of North Carolina at Chapel Hill

DK_4129300_T3

Absstract of: WO2017165624A1

Geometrically complex intravaginal rings, systems and methods of making the same are provided herein. Disclosed herein are geometrically complex intravaginal rings with tunable and enhanced drug release, which in some embodiments can be fabricated by 3D printing technologies. The disclosed IVRs include a ring structure comprising a plurality of unit cells or macroscopic and/or microscopic architecture, which can be tuned to control the loading capacity of an active compound within the IVR, the diffusion of an active compound from the IVR, the surface area of the IVR, and/or the mechanical properties of the IVR. The disclosed geometrically complex IVRs can provide superior control over drug loading and drug release compared to conventional IVRs fabricated by injection molding or hot-melt extrusion.

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