Disinfection robot lends hospitals a big hand
Researchers have developed a smart functional robot that realized simultaneous disinfection of both air and object surface.
Researchers have developed a smart functional robot that realized simultaneous disinfection of both air and object surface.
研究人员已经找到了一种使用新型碘纳米粒子来增强放射治疗的方法。
By using 3D aerosol jet-printing to put perovskites on graphene, scientists have made X-ray detectors with record sensitivity that can greatly improve the efficiency and reduce the cost.
Researchers have achieved promising results with a new cancer therapy using focused ultrasound (FUS) and ionizing radiation.
智能环,产生连续温度数据可能预示着Covid-19,即使在不怀疑感染时也是如此。
Machine learning has the potential to vastly advance medical imaging, particularly CT scanning, by reducing radiation exposure and improving image quality.
A research program explores the use of mixed reality for enabling surgeons to identify brain tumors quickly and precisely.
第一次,可操纵的catheter will give neurosurgeons the ability to steer the device in any direction they want while navigating the brain's arteries and blood vessels.
发现人工智能血液检测技术检测来自近800名有癌症的样品中超过90%的肺癌。
Researchers developed a wearable X-ray detector prepared from nontoxic metal-organic frameworks layered between flexible plastic and gold electrodes for high-sensitivity sensing and imaging.
Researchers have developed a regenerative implant that could help repair bone-deep damage following physical trauma, surgery or osteoporosis.
为了使具有先进的紫外线检测功能的可穿戴设备的开发,科学家们创造了一种新型的光传感器,既灵活且高度敏感。
The MasSpec Pen has shown to accurately identify tissues and surgical margins directly in patients and differentiate healthy and cancerous tissue from banked pancreas samples.
Researchers have designed a prototype charging system for wearable devices - it uses human skin as conductor.
Cardiac surgeons may be able to better plan operations and improve their surgical field view with the help of a robot.
研究人员已经开发出一种生产方式stereotactic systems from plastic using a 3D printer – a cost-effective method that opens up new design potential.
To reduce tissue injury side effects from radiation therapy, researchers have developed 3D-printed gastrointestinal radioprotective devices that can be generated from patient CT scans.
Engineers have created a tiny wireless implant that can provide real-time measurements of tissue oxygen levels deep underneath the skin.
Scientists have designed a portable 3D imaging device which will improve the treatment and diagnosis of cancer.
Researchers have uncovered a way to tap into the over-capacity of 5G networks, turning them into "a wireless power grid" for powering Internet of Things devices.
Engineers use DNA nanotechnology to create highly resilient synthetic nanoparticle-based materials that can be processed through conventional nanofabrication methods.
Dr Jan Stallkamp has a vision: robots that can treat patients more efficiently and more precisely than any human physician.
Researchers are developing technology to improve high-resolution bioimaging of structures and tissues located deep within the body.
3D printers may one day become a permanent fixture of the operating theatre after scientists showed they could print bone-like structures containing living cells.
Skin and cartilage are both strong and flexible – properties that are hard to replicate in artificial materials. But a new fabrication process brings lifelike synthetic polymers a step closer.
Researchers have produced biodegradable stents with esophageal-derived bioink to directly treat radiation esophagitis.
Researchers have developed a high-power, portable version of a device called a quantum cascade laser, which can generate terahertz radiation outside of a laboratory setting.
Two surgeon tested a device that, when attached to everyday eyeglasses, can display fluoroscopic images used for surgical guidance directly to the surgeon.
Radiator-like fluid systems adjust the genetic wiring inside human liver cells in preliminary work toward artificial organ-tissue engineering.
Researchers have developed a new method of 3D printing gels and other soft materials.
The development of new medical technologies based on cutting-edge discoveries has accelerated during the coronavirus pandemic.
A new class of medical instruments equipped with an advanced soft electronics system could improve the diagnoses and treatments of a number of cardiac diseases and conditions.
One of the crucial future technologies in surgery is Augmented Reality. Most experts agree that AR will increase safety and efficiency, improve surgical training and decrease costs.
Researchers have developed an AI technique that will protect medical devices from malicious operating instructions in a cyberattack.
Robotic surgery for patients with early stage, oropharyngeal squamous cell cancer is associated with improved health outcomes, including better long-term survival.
研究人员表明,通过能够分析脑肿瘤患者的MRI扫描并区分癌症地区的健康脑组织的MRI扫描,联邦学习是成功的。
Researchers have developed an AI algorithm that uses computer vision to analyze tissue samples from cancer patients.
Researchers have created an artificial neural network that analyzes lung CT scans to provide information about lung cancer severity that can guide treatment options.
Researchers have developed a smart surface that can actively and repeatedly release and reabsorb substances by environmental stimuli.
科学家们通过利用石墨烯的显着热性能和柔韧性来创造了一种原型衣服,以展示一件衣服内的动态热辐射控制。
A device capable of automatically disinfecting common surfaces could be a vital tool in virus and disease mitigation during and after the COVID-19 pandemic.
Scientists are launching a project to apply machine learning methods to assess the role of climate variables in disease transmission
Establishing whether a patient is suffering from COVID-19 within a few minutes is possible using ultrasound machines that are enhanced with artificial intelligence.
Brain cancer patients in the coming years may not need to go under the knife to help doctors determine the best treatment for their tumors.
Researchers are developing a new high-precision radiology system for coronavirus pulmonary involvement.
EPFL students teamed up with startup IcosaMed to develop the SmartBra – the first piece of smart clothing that can be used for cancer prevention.
“AI is the biggest technological breakthrough of our lifetime. It will boost the entire healthcare ecosystem and will eventually re-invent the way we deliver medicine entirely.”
Researchers demonstrated a methodology that combines the bioprinting and imaging of glioblastoma cells in a way that more closely models what happens inside the human body.
研究人员精致应用Terahertz辐射以促进医学目的的多层组织分析,用于伤口处理。
A photonics tech company from Vilnius are on their path to solve the 50-year-old task of making non-invasive blood analysis possible.
Researchers have found a way to use graphene to make flexible photodetectors to measure heart rate, blood oxygen concentration, and breathing rate.
PhotoMedas是一个非侵入式系统的名称,可以帮助衡量婴儿的颅骨变形 - 新生儿,到12个月大的婴儿。
Carbon dioxide-based cancer tissue-freezing approach may help more breast cancer patients in lower income countries, animal studies show.
研究人员已经为可穿戴设备进行了一种全新的方式,可以互连,这使得能够更容易健康监测,医疗干预和人机界面。
Spine surgery: A new robotic technology increases the safety and precision of spinal fusion surgeries while reducing the time needed for the procedure.
At ECR 2019, speakers emphasized that 3D printing enables an innovative way to display imaging, and it allows radiologists to offer clinical value to their medical and surgical colleagues.
智能手术眼镜Caduceus使用革命性的技术将混合现实与手术导航结合,使外科医生实时在手术期间可视化患者身体的3D模型。
Researchers have engineered yeast "microbreweries" to help hospital lab workers better track their daily radiation exposure, enabling a faster assessment of tissue damage that could lead to cancer.
工程研究人员已经开发了自动化软件,旨在将开发放射治疗计划的时间降至30分钟。
VR brings medical images to life on screen, showing interventional radiologists a patient’s unique internal anatomy to help physicians effectively prepare and tailor their approach to complex treatments.