Artificial pancreas trialed for outpatients with type 2 diabetes
Tests show that the device can help patients safely and effectively manage their blood glucose levels and reduce the risk of low blood sugar levels.
Tests show that the device can help patients safely and effectively manage their blood glucose levels and reduce the risk of low blood sugar levels.
The number of gamified mobile applications is rising rapidly—especially in healthcare. This article illustrates how gamification is employed in diabetes care.
Artificial intelligence could be used to predict who is at risk of developing type 2 diabetes—information that could be used to improve the lives of millions of Canadians.
Patients with diabetes and cardiovascular disease who used wearable step-counting devices have shown small-to-medium improvements in physical activity.
Ubotica has developed a deep learning-based solution for detecting the presence of diabetic retinopathy indicators in retinal images.
Researchers have developed a technique that produces 3D bioprinted bone-repair "scaffolds" that could help in managing bone defects in diabetes patients.
Researchers have developed an AI platform that could one day be used in a system to assess vascular and eye diseases.
Wearable fitness trackers and step counters help people who are overweight/obese and/or who have weight-related health conditions to shed the pounds.
Researchers have developed a structurally representative liver-on-a-chip model which mimics the full progression sequence of NAFLD.
Researchers have explored whether a virtual reality program on mindfulness/meditation could alleviate the physical side effects of hemodialysis patients.
By downscaling the needles tool to micrometer-size, researchers open even more areas of application for them, while bypassing some of the most important issues.
By embedding nanosensors in the fibers of a bandage, researchers have created a continuous, noninvasive way to detect and monitor an infection in a wound.
A product design graduate has developed a discreet item of wearable technology that monitors blood sugar levels and delivers feedback in real-time.
科学家have designed a hydrogel membrane that may be used to house optical glucose sensing materials toward building a biosensor for monitoring sugar levels in diabetics.
A computer vision technology has been put into a free mobile phone app for regular monitoring of glucose levels in people with diabetes.
科学家have showed that applying "temporal pressure" to the skin of mice can create a new way to deliver drugs.
A wearable smart patch will deliver precision data to help people personalise their diets and reduce their risk of developing lifestyle-related chronic diseases like Type 2 diabetes.
Researchers have developed a procedure to produce extremely sensitive and energy-efficient sensors using 3D printing.
An AI model identifies a powerful new drug that can kill many species of antibiotic-resistant bacteria.
Researchers have developed a smart insulin-delivery patch that could one day monitor and manage glucose levels in people with diabetes and deliver the necessary insulin dosage.
Physicians have been using automatic digital retinal screening, without assistance from an ophthalmologist, to detect diabetic retinal disease.
Older people with diabetes would benefit from using wearable glucose monitors.
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.
Bionic breakthrough: Engineers develop computerized bionic leg to help amputees walk faster, easier and with better balance.
Using blockchain, researchers have developed a prototype of an app that may potentially prescribe the optimal dose of medicine for the individual patient, as well as prevent counterfeit products.
A gooey mixture is being added to newly printed 3D feet which are designed to mimic infected and non-infected diabetic foot wounds.
Doctors can now practice in VR medical emergencies, to improve care for patients with diabetes in the real world.
Researchers have developed pajamas embedded with self-powered sensors that provide unobtrusive and continuous monitoring of heartbeat, breathing and sleep posture.
应用“迅速皮肤和伤口”,准确easures and charts the progression of skin wounds, could potentially have a significant impact on clinical management and patient outcomes.
Alphabet, Amazon, Apple and Microsoft are all building technologies that have the potential to transform the delivery of care. Here are some examples of BigTech's road into healthcare.
Researchers are developing early detection technology for Type 1 diabetes that can accurately predict if a child is at risk of the chronic disease.
A team of engineers has developed a prototype bandage designed to actively monitor the condition of chronic wounds.
A team found that applying artificial intelligence to the right combination of data retrieved from wearable technology may detect whether your health is failing.