Remote assessment of health by robots
Intelligent sensing and tele-presence robotic technology, enabling health practitioners to remotely assess a person's physical and cognitive health.
Intelligent sensing and tele-presence robotic technology, enabling health practitioners to remotely assess a person's physical and cognitive health.
Scientists have developed a novel method that uses artificial intelligence to screen for glaucoma.
A new approach to tackling the spread of malaria in sub-Saharan Africa, which combines affordable, easy-to-administer blood tests with machine learning and unbreakable encryption, has generated encouraging early results in Uganda.
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 developed three soft, flexible, wireless sensors that allow movement and provide more precise data than existing ones.
Researchers have developed a new range of nanomaterial strain sensors that are 10 times more sensitive when measuring minute movements, compared to existing technology.
An AI platform derives an optimal combination of available therapies against SARS-CoV-2 - the optimal drug therapy was a combination of the drugs remdesivir, ritonavir, and lopinavir at specific doses.
A shirt that monitors your blood pressure or a pair of socks that can keep track of your cholesterol levels might be just a few years away from becoming reality.
Results of the first clinical trial of 3D printed NP swabs for COVID-19 testing are being presented at the annual meeting RSNA.
As COVID-19 quickly spread worldwide at the beginning of the year, an urgent need has risen worldwide for specialized health and medical products such as the nasal swabs to collect viral samples or PPE.
Scientists have paired 3D-printed, living human brain vasculature with advanced computational flow simulations to better understand tumor cell attachment to blood vessels.
Engineers have developed a “bio-ink” for 3D printed materials that could serve as scaffolds for growing human tissues to repair or replace damaged ones in the body.
A study from Florida Atlantic University introduces machine learning as new potantial tactic in assessing cognitive brain health and patient care.
Researchers have created a new app that can detect fluid behind the eardrum by simply using a piece of paper and a smartphone’s microphone and speaker.
A toilet-seat based cardiovascular monitoring system aims to lower the hospital readmission rates of patients with congestive heart failure.
Garmin and University of Kansas Medical Center are collaborating to better understand how wearables can assist in the detection and management of significant medical conditions.
The wearable devices aim to reduce or redistribute spine loading associated with heavy manual work.
Electronic skins will play a significant role in monitoring, personalized medicine, prosthetics, and robotics.
可穿戴sensor detects multiple chronic wound biomarkers to facilitate timely and personalised wound care.
Using VR, the patients felt improvements to their mental health and reported feeling less nervous, anxious, or on edge after the trial.
The past two decades have witnessed the emergence of extended reality as a tool for investigation, assessment, and management in mental healthcare.
Robotic cane with 3D camera can accurately guide user to chosen location, avoiding obstacles.
A research program explores the use of mixed reality for enabling surgeons to identify brain tumors quickly and precisely.
Biomedical engineers at Duke University have developed an open-source software platform that automates 3D electrical nerve stimulation modeling.
Engineers have designed a device that can detect SARS-CoV-2 from a saliva sample in about an hour. They showed that the diagnostic is just as accurate as the PCR tests now used.
A student from the Loughborough University has designed "SERVITA'- a small, compact drone for individuals who are in aquatic distress.
A consortium aims to develop a platform that will serve as the basis for novel services and test the use of new artificial intelligence tools.
A neuroscientist at University of Texas at Austin wants to democratize the field and support infrastructure.
A study from Stanford University found limitations in the Food and Drug Administration’s approval process.
Researchers have developed an injectable hydrogel that could help repair and prevent further damage to the heart muscle after a heart attack.
Researchers are developing a color-changing test strip that can be stuck on a mask and used to detect SARS-CoV-2 in a user’s breath or saliva.
Researchers have developed smartphone-based apps that solve the biggest problems for people with hearing loss: filtering out background noise and improving speech perception.
We should err on the side of caution and stop the global roll out of 5G telecoms networks until we are certain this technology is completely safe.
Recent breakthrough developments in technologies for real-time genome sequencing, analysis, and diagnosis are poised to deliver a new standard of personalized care.
Researchers have developed a system that combines a brain-computer interface and a robotic arm that responds to the actual intentions of treated patients.
Researchers have demonstrated a novel multifunctional ultrathin contact lens sensor layer with transistors that may revolutionise the manufacture of smart contact lenses.
Microneedle patches could provide a means for extracting interstitial fluid to study possible new biomarkers.
新的便携式手臂康复机器人将帮助patients to carry out robot-aided therapy at home, allowing them to perform intensive exercises without visiting hospitals or clinics.
Reseachers have developed robotic Trunk Support Trainer (TruST) that helps children with CP to sit more stably.
AI has shown early success in improving survival and outcomes in traffic accident victims transported by ambulance and in predicting survival after liver transplantation.
In the next-generation operating room interconnected sensors will collect data, analyse it in real-time and make it available to digital assistance functions.
研究人员表明,联合学习successful in the context of brain imaging, by being able to analyze MRI scans of brain tumor patients and distinguish healthy brain tissue from cancerous regions.
Scientists are harnessing the mind-bending potential of quantum computers to help us understand genetic diseases – even before quantum computers are a thing.
A deep learning powered single-strained electronic skin sensor can capture human motion from a distance.
A new mobile app can help clinicians determine which patients with the novel coronavirus (COVID-19) are likely to have severe cases.
According to new research, the Oura smart ring is indeed suitable for detecting COVID-19 infection up to three days before symptoms appear.
Researchers developed a device that can monitor bladder volume in real time and effectively empty the bladder.
Researchers have developed an artificial intelligence platform to dramatically increase the efficiency of drug combination therapies.
3D printing fuels efforts to rapidly increase ventilator capacity while providing each patient on vent support with individually tailored gas pressures and pressure monitoring.
A remote early warning system for the detection of COVID-19 symptoms among frontline medical staff is showing promising results.
In order for a COVID-19 vaccine and antiviral drugs to be developed, scientists first need to understand why this virus spreads so easily and quickly, and why it invades our bodies with seemingly little resistance from our immune system.
A robotic testing platform developed in just nine days by dementia researchers could substantially increase the UK’s capacity to test people for coronavirus.
A deep learning model can identify sleep stages as accurately as an experienced physician.
In a proof-of-concept work, scientists demonstrated their photonics-based sensors using fibers and liquid-filled petri dishes.
At the start of 2019 the EU project ELSAH began with the objective of designing a wearable within four years that enables the continuous determination of biomarker concentrations.
Researchers are developing a device that can sense the effects of a potentially fatal level of ingested opioids and deliver a life-saving dose of naloxone.
Collaborators are developing an endoscopic robotic system with two-handed dexterity at a much smaller scale than existing options.
Biomedical engineers have developed a portable optical coherence tomography scanner that promises to bring the vision-saving technology to underserved regions.
Prototype web portal shows technology’s potential to protect and streamline the clinical trials process.
Several research groups at the Berlin Institute of Health (BIH) are working on digitally combating cancer, comparing experiences with different diagnostic and treatment methods.
Researchers decided it was time to create smarter knee implants that could monitor changes in activity as they happened.
Radio-frequency identification (or RFID), the popular type of data collection, is helping Kellogg providers make visits more meaningful for patients and reduce wait times.
In a matter of seconds, a new algorithm read chest X-rays for 14 pathologies, performing as well as radiologists in most cases, a Stanford-led study says.
Researchers are working on an interactive robot called Pharos that will help the elderly with their daily household chores.
Baseline study using data from the Sea Hero Quest game identifies key findings for dementia research.
A Cambridge start-up has developed a low-cost next-generation wearable heart and cardiovascular function monitor which uses AI to diagnose heart rhythm and respiratory problems in real time.
Engineers have successfully developed and validated the feasibility of blockchain-based technologies for secure, confidential sharing of patient medical records.
The Virtual Physiotherapy project aims to improve patient experience while also making physiotherapy programmes more efficient.
我们在第三波digitaliz的边缘ation in healthcare which will make the medicine more precise.
Australian eHealth strategy pushes towards a digital health services ecosystem which will lead to greater involvement and responsibility for consumers.
How University of Alberta health scientists are helping fulfil the promise of big data to revolutionize everything from prevention to diagnosis to treatment.
The wafer-thin, feather-light sensor can fit on a fingernail and precisely measures a person’s exposure to UV light from the sun.