When studying diseases or testing potential drug therapies, researchers usually turn to cultured cells on Petri dishes or experiments with lab animals, but recently, researchers have been developing a different approach: small, organ-on-a-chip devices that mimic the functions of human organs, serving as potentially cheaper and more effective tools.
Now, researchers have built a new device that’s especially good for modeling atherosclerosis — the constriction of blood vessels that’s the leading cause of heart attacks and strokes. In a paper appearing this week in APL Bioengineering, from AIP Publishing, researchers illustrate how the new device can be used to study important inflammatory responses in cells that line the vessel in ways that could not be done in animal models. The research team also explains how this organ-on-a-chip could improve blood testing for patients. Continue reading “Organ-on-a-chip could improve blood testing for patients”
The first smart exoskeleton that recognizes the loss of balance – and prevents falling – has been developed by researchers at Scuola Sant’Anna in Italy, EPFL in Switzerland, and tested at the Rehabilitation Center “Fondazione Don Carlo Gnocchi” in Florence.
Wearable machines that enhance your movement and endurance no longer belong to the realm of science fiction. They are being developed today in the laboratory, and in this controlled setting, already prevent the elderly from falling.
Scientists at Scuola Sant’Anna in Italy and EPFL (Ecole polytechnique fédérale de Lausanne) in Switzerland have built a prototype of a smart, light-weight and easy-to-personalize exoskeleton that counteracts the loss of balance and promotes balance recovery after an accidental slip. This is a first in wearable machines, which are normally used to assist or enhance regular movement, instead of preventing an unexpected event like falling. The results are published on May 11th in Scientific Reports. Continue reading “First smart exoskeleton that recognizes the loss of balance & prevents falling, developed by Swiss researchers (Video)”
Mind Labs to develop virtual humans for training purposes in healthcare
Together with 13 partners, Tilburg University will start a project totaling 7 million euros to develop virtual humans for training purposes in healthcare. The project called VIBE (Virtual Humans in the Brabant Economy) is the first project in Mind Labs, the initiative on interactive technologies and behavior set up in the Tilburg Spoorzone area.
The European Union, OP Zuid, the Ministry of Economic Affairs, the Province of North Brabant, and the city of Tilburg have funded this collaboration. In addition to Tilburg University (principal investigator), various partners are involved, including knowledge institutions (NHTV Breda, Fontys, ROC Tilburg), hospitals (Amphia, Maxima Medical Center and Spaarne Gasthuis), industry (BlueTea, IC3D Media, Indicia, Noldus, Samure, Visionair3D) and the Netherlands Aerospace Center. Continue reading “Mind Labs to develop virtual humans for training purposes in healthcare”
Smart prosthetic leg equipped with sensors will alert users to wear & tear
Traditional leg prosthetics depend on soft limb tissue to function and can be painful to wear, resulting in awkward walking motion and possible skin infection.
To overcome these limitations, the US Office of Naval Research (ONR) is partnering with Walter Reed National Military Medical Center, the Naval Research Laboratory and several universities to develop MOIP (Monitoring OsseoIntegrated Prostheses).
“MOIP not only can improve quality of life, but also usher in the next generation of prosthetic limbs,” said Dr Liming Salvino, a program officer in ONR’s Warfighter Performance Department.
According to ONR, leg prosthetics most commonly fit amputees’ residual limbs via a socket that encloses the limb. Because the socket exerts pressure on the limb’s soft tissue, pain and chafing, sores and blisters, and infection can occur. Amputees often have their socket prosthetics adjusted, which is inconvenient and costly. Consequently, many amputees give up prosthetics for wheelchairs. Continue reading “Smart prosthetic leg equipped with sensors will alert users to wear & tear”
World’s first super-microsurgical intervention with ‘robot hands’ at Maastricht UMC+
Surgeons operate on lymphatic vessels of 0.3 millimeters using Microsure surgical robot
Plastic surgeons at Maastricht UMC+ have used a robotic device to surgically treat lymphedema in a patient. This is the world’s first super-microsurgical intervention with ‘robot hands’. The surgeons used the robotic device to suture vessels of 0.3 to 0.8 millimeter in the arm of the patient. The robotic device, created by Eindhoven company Microsure, enhances the surgeon’s precision, making this type of procedure easier to perform. The patient is doing well and the surgeons are enthusiastic. The news of this extraordinary operation has been announced on 27 September, at the 26th World Congress of Lymphology, in Barcelona. Continue reading “World’s first super-microsurgical intervention with ‘robot hands’ at Maastricht UMC+”
Tikcit is registration platform partner of Health Tech Event, which will take place on 08-12-2016 at High Tech Campus in Eindhoven, The Netherlands Continue reading “Tikcit is registration platform partner of Health Tech Event”
Health insurer ONVZ supports development of personalized healthcare.
As a Health insurer ONVZ strives for an optimal well being of their clients by a unique and personal approach and therefore recognizes our development of the AeraFit personalized respiratory masks.
They support our intention to have our products covered by the national health insurance in the best way possible, and they would like to encourage strategic partners and investors to ‘team-up’ with us. Continue reading “Health insurer ONVZ supports development of personalized healthcare”
Nurses are getting help from robots with scheduling tasks on labor floor. A new system that can anticipate room assignments and suggest which nurses to assign to patients for C-sections and other procedures provided satisfactory recommendations to nurses 90 percent of the time. Today’s robots are awkward co-workers because they are often unable to predict what humans need. In hospitals, robots are employed to perform simple tasks such as delivering supplies and medications.But they have to be explicitly told what to do. Continue reading “Nurses are getting help from robots with scheduling tasks on labor floor (Video)”
Researchers develop tiny origami robot that can unfold itself from a swallowed capsule. In experiments involving a simulation of the human esophagus and stomach, researchers at MIT, the University of Sheffield, and the Tokyo Institute of Technology have demonstrated a tiny origami robot that can unfold itself from a swallowed capsule and, steered by external magnetic fields, crawl across the stomach wall to remove a swallowed button battery or patch a wound. Continue reading “Researchers develop tiny origami robot that can unfold itself from a swallowed capsule (Video)”
Wearable electronics will revolutionize the way doctors diagnose and treat patients, according to researchers at MIT, who are developing stretchable hydrogels that share many of the same properties of human tissue.
“Hydrogel is a polymer network infiltrated with water. Even though it is only 5 to 10 percent polymer, this network is extremely important,” said Xuanhe Zhao, an associate professor of mechanical engineering at the Massachusetts Institute of Technology (MIT). Continue reading “Wearable electronics will revolutionize the way doctors diagnose and treat patients (Video)”