यह मेडिकल उपकरणों पर अंग्रेजी में दुनिया भर के प्रकाशनों और पेटेंट का हमारा नवीनतम चयन है, जो कई वैज्ञानिक ऑनलाइन पत्रिकाओं में से वर्गीकृत और चिकित्सा उपकरण, कैथेटर, इन्फ्यूजन पंप, डायलिसिस मशीन, पेसमेकर, एंडोस्कोप, डेंटल इम्प्लांट, इंसुलिन पंप, सीपीएपी, सर्जिकल, ऑक्सीजन कंसन्ट्रेटर, कॉन्टैक्ट लेंस, स्टेथोस्कोप, हियरिंग एड, ग्लूकोज मीटर और इंसुलिन पेन पर केंद्रित हैं।
Method for treating conductive hearing loss by implanting an auditory system with peri-implant protection
Patent published on the 2026-05-31 in MD under Ref MD1942Y by IP UNIV DE STAT DE MEDICINA SI FARMACIE NICOLAE TESTEMITANU DIN REPUBLICA MOLDOVA [MD] (Noroc Iurie [md], Vetricean Sergiu [md], Sencu Eusebiu [md], Didencu Alexandru [md])
Abstract: The invention relates to medicine, in particular to otosurgery and auricular reconstructive surgery, and can be used for treating conductive, mixed, or unilateral hearing loss by implanting an audotory system with peri-implant protection in patients with thin soft tissues, postoperative scars, or multiple previous surgical interventions.Summary of the invention consists in that a computed tomography of the temporal bone of the side requiring implantation is performed in the preoperative period, [...]
Our summary: Method for treating conductive hearing loss involves implanting an auditory system with peri-implant protection. Preoperative imaging assesses bone structure and landmarks for implantation. The procedure includes creating a cavity for the implant and securing it with a vascular flap for stability.
hearing loss, auditory implant, otosurgery, peri-implant protection
Patent
Localization tag deployment system and method
Patent published on the 2026-05-28 in WO under Ref WO2026111805 by ELUCENT MEDICAL INC [US] (Dean Bryan [us])
Abstract: A deployment system for accurate placement of localization tags within biological tissue is disclosed. The system comprises a catheter hub with sheath, a stylet, and a loader. The catheter hub provides an interface for system components, while the flexible sheath allows navigation to target sites. The stylet, operable in multiple positions, guides the sheath and assists in tag deployment. The loader houses the localization tag and acts as a safety spacer during deployment. The system is compatib[...]
Our summary: The system enables precise deployment of localization tags in biological tissue using a catheter hub, sheath, and stylet. It improves accuracy and efficiency compared to traditional methods and is compatible with various imaging modalities. Applications include tumor marking, lymph node localization, and targeted therapy delivery.
localization tags, catheter system, minimally invasive, imaging modalities
Patent
Aspiration with impedance-based sensing
Patent published on the 2026-05-28 in WO under Ref WO2026112634 by MICROVENTION INC [US] (Han Simon [us], Raman Hari Narayanan [us])
Abstract: Aspiration with impedance-based sensing may be provided by a catheter system, including: a catheter, including: a catheter body having a proximal end, a distal end, and a lumen therebetween; and an electrode, including a first contact and a second contact located at the distal end of the catheter; and an impedance measuring device, in electrical communication with the first contact and the second contact.[...]
Our summary: The content describes a catheter system designed for aspiration using impedance-based sensing. It includes a catheter body with a lumen and an electrode with two contacts at the distal end. An impedance measuring device is connected to these contacts for functionality.
impedance sensing, catheter system, electrode contacts, aspiration technology
Patent
Tactile feedback sensor
Patent published on the 2026-05-28 in US under Ref US20260144608 by ARIZONA BOARD OF REGENTS ON BEHALF OF THE UNIV OF ARIZONA [US] (Govalla Dema [us], Rozenblit Jerzy [us])
Abstract: This invention provides systems and methods for tactile perception in robotic assisted minimally invasive surgery (RAMIS), focusing on deformation and texture detection. The system integrates microelectromechanical systems (MEMS) sensors and/or force-sensitive resistor (FSR) sensors attached to a thoracic grasper instrument and is compatible with the da Vinci MIS surgical system and other robotic surgical systems. The systems further utilize algorithms able to accurately classify objects with va[...]
Our summary: This invention enhances tactile perception in robotic assisted minimally invasive surgery. It integrates MEMS and FSR sensors with a thoracic grasper instrument. Algorithms classify objects based on softness and roughness for improved surgical outcomes.
tactile feedback, robotic surgery, MEMS sensors, texture detection
Patent
Skin marking device
Patent published on the 2026-05-28 in US under Ref US20260144611 by KRUMM CABEZAS SANTIAGO [US] (Krumm Cabezas Santiago [us])
Abstract: [0000] A skin marking device is provided. The skin marking device has an outer frame that can be fitted over an ultrasound probe. The ultrasound probe can be used to identify a location for a needle or other medical device. Once the location is identified, the probe may be removed while keeping the frame in place. A skin-marking tool may then be fitted with/into the frame to mark the skin, thereby identifying the precise location for action.[...]
Our summary: A skin marking device fits over an ultrasound probe to identify locations for medical procedures. The probe is removed, leaving the frame in place. A skin-marking tool is then used to mark the skin at the identified location.
skin marking device, ultrasound probe, medical device, skin marking tool
Patent
Artificial bladder
Patent published on the 2026-05-28 in US under Ref US20260144626 by ANDRADE ERNESTO [US] (Andrade Ernesto [us])
Abstract: [0000] An implantable medical device for use as an artificial urinary bladder can include a collection container configured to be placed in a patient s abdominal cavity and a pump configured to be subcutaneously placed outside the abdominal cavity to allow the patient to perceive the need for urination and controls timing of the urination. Flexible tubing can connect the patient s ureters to the collection container through anti-reflux valves preventing urine from flowing back to kidneys, connec[...]
Our summary: An implantable medical device serves as an artificial urinary bladder. It includes a collection container in the abdominal cavity and a subcutaneous pump. Flexible tubing and valves ensure proper urine flow and control urination timing.
implantable device, artificial bladder, urinary system, medical technology
Patent
Expert perspectives on the ecosystem of medical AI oversight in the GenAI era
Published on 2026-05-22 by Stephen Gilbert, Tinglong Dai @NATURE npj
Abstract: npj Digital Medicine, Published online: 22 May 2026; doi:10.1038/s41746-026-02785-1In this third article of a three-article series on interviews with Dr Shantanu Nundy, an advisor in the office of the Commissioner of the US FDA on AI governance and digital health policy, we explore how the oversight of generative AI (GenAI) and large language model (LLM)-enabled medical devices extends beyond the remit of any single regulator, requiring coordination among government agencies, health systems, and[...]
Our summary: The article discusses the complexities of overseeing medical AI in the GenAI era. It emphasizes the need for collaboration among various stakeholders, including regulators and health systems. Additionally, it provides practical guidance for innovators on engaging with the FDA.
medical AI, oversight, generative AI, FDA
Publication
Preparation of surgical indocyanine green-dyed gauze using an autoclave and its near-infrared fluorescence properties
Published on 2026-04-21 by Hidekazu Yasunaga, Yoshihiko Tashiro, Shinji Ando @NATURE
Abstract: Polymer Journal, Published online: 21 April 2026; doi:10.1038/s41428-026-01170-9A near-infrared fluorescent surgical gauze was developed by dyeing cotton with indocyanine green (ICG) using an autoclave at 121–132 °C and 0.21–0.29 MPa. The optimal condition (1.5 × 10⁻⁴ mol L–1 ICG, 132 °C, 10–15 min) yielded the brightest fluorescence. Post-sterilization (PS) enhanced fluorescence by dissolving ICG aggregates and improving fixation. The gauze’s color remained similar [...]
Our summary: A near-infrared fluorescent surgical gauze was created by dyeing cotton with indocyanine green using an autoclave. The optimal conditions for dyeing produced the brightest fluorescence, which was further enhanced by post-sterilization. This gauze effectively emits strong NIR signals through tissue and minimizes dye leakage, aiding in surgical site identification.
indocyanine green, near-infrared fluorescence, surgical gauze, autoclave
Publication
