Âé¶¹ÒùÔº - latest science and technology news stories / en-us Âé¶¹ÒùÔº internet news portal provides the latest news on science including: Âé¶¹ÒùÔºics, Nanotechnology, Life Sciences, Space Science, Earth Science, Environment, Health and Medicine. Superbug can digest medical plastic, making it even more dangerous A dangerous hospital superbug has been found to digest plastic—specifically the kind used in some sutures, stents and implants inside the human body. Microbiologists at Brunel University of London show the bacteria can feed on plastic to survive, potentially enabling these pathogens to survive longer in hospital wards and within patients. /news/2025-05-superbug-digest-medical-plastic-dangerous.html Cell & Microbiology Molecular & Computational biology Wed, 07 May 2025 15:42:04 EDT news665851322 Unlocking a new class of materials with origami Origami—the Japanese art of folding paper—could be the next frontier in innovative materials. Practiced in Japan since the early 1600s, origami involves combining simple folding techniques to create intricate designs. Now, Georgia Tech researchers are leveraging the technique as the foundation for next-generation materials that can both act as a solid and predictably deform, "folding" under the right forces. The research could lead to innovations in everything from heart stents to airplane wings and running shoes. /news/2025-05-class-materials-origami.html General Âé¶¹ÒùÔºics Mon, 05 May 2025 11:15:59 EDT news665662549 Ultra-thin, flexible silicone nanosensor could have huge impact on brain injury treatment A car accident, football game, or even a bad fall can lead to a serious or fatal head injury. Annually, traumatic brain injuries (TBI) cause half a million permanent disabilities and 50,000 deaths. Monitoring pressure inside the skull is key to treating TBI and preventing long-lasting complications. /news/2025-04-ultra-thin-flexible-silicone-nanosensor.html Bio & Medicine Nanomaterials Mon, 14 Apr 2025 12:23:03 EDT news663852181 Liquid-bodied robot enables precise eradication of implant-related biofilm infections An international research team led by the Chinese University of Hong Kong (CUHK) has achieved a breakthrough in the field of medical microrobots by developing the world's first antibiofilm liquid-bodied magnetic-controlled robot. /news/2025-04-liquid-bodied-robot-enables-precise.html Bio & Medicine Tue, 01 Apr 2025 14:54:38 EDT news662738067 Tiny magnetic robots could treat bleeds in the brain Researchers have created nanoscale robots which could be used to manage bleeds in the brain caused by aneurysms. The development could enable precise, relatively low-risk treatment of brain aneurysms, which cause around 500,000 deaths globally each year. The medical condition—a blood-filled bulge on a brain artery that can rupture and cause fatal bleeds—can also lead to stroke and disability. /news/2024-09-tiny-magnetic-robots-brain.html Bio & Medicine Fri, 06 Sep 2024 09:26:04 EDT news644833561 Self-aware materials build the foundation for living structures From the biggest bridges to the smallest medical implants, sensors are everywhere, and for good reason: The ability to sense and monitor changes before they become problems can be both cost-saving and life-saving. /news/2021-06-self-aware-materials-foundation.html Nanomaterials Tue, 01 Jun 2021 14:57:56 EDT news541778226 Creating a 3-D-printed bioresorbable airway stent Narrowing of the trachea or the main bronchi due to injury or illness can end very badly. If patients get too little air,oxygen, they risk suffocating and often need medical help as quickly as possible. /news/2021-02-d-printed-bioresorbable-airway-stent.html Materials Science Wed, 03 Feb 2021 14:30:24 EST news531585019 3-D printing highly stretchable hydrogel with diverse UV curable polymers Hydrogel-polymer hybrids are widely used across a variety of applications to form biomedical devices and flexible electronics. However, the technologies are presently limited to hydrogel-polymer hybrid laminates containing silicone rubbers. This can greatly limit the functionality and performance of hydrogel-polymer-based devices and machines. In a new study, Qi Ge, and a team of scientists in mechanics, mechatronic systems, flexible electronics, chemistry and advanced design in China, Singapore and Israel demonstrated a simple and versatile multi-material three-dimensional (3-D) printing approach. The method allowed the development of complex hybrid 3-D structures containing highly stretchable and high water content acrylamide—poly(ethylene glycol)diacrylate (PEGDA) abbreviated as AP hydrogels, covalently bonded with diverse ultraviolet (UV) curable polymers. The team printed the hybrid structures on a self-built digital-light processing (DLP)-based multi-material 3-D printer. They facilitated covalent bonding between the AP hydrogel and other polymers through incomplete polymerization initiated by a water-soluble photoinitiator. The team displayed a few applications based on this approach to propose a new way to realize multifunctional soft devices and machines by bonding hydrogel with diverse polymer in 3-D forms. The work is now published on Science Advances. /news/2021-01-d-highly-stretchable-hydrogel-diverse.html Materials Science Wed, 20 Jan 2021 09:30:01 EST news530273111 Ingestible medical devices can be broken down with light A variety of medical devices can be inserted into the gastrointestinal tract to treat, diagnose, or monitor GI disorders. Many of these have to be removed by endoscopic surgery once their job is done. However, MIT engineers have now come up with a way to trigger such devices to break down inside the body when they are exposed to light from an ingestible LED. /news/2020-01-ingestible-medical-devices-broken.html Polymers Materials Science Fri, 17 Jan 2020 14:00:01 EST news498457251 Cardiac imaging with 3-D cellular resolution using few-mode interferometry to diagnose coronary artery disease A new imaging technique developed by Biwei Yin and interdisciplinary researchers at the Massachusetts General Hospital and Harvard Medical School in the U.S., provides resolution at the subcellular-level to image the heart's vascular system. As a result, heart researchers can study and diagnose human coronary artery disease with greater precision. Conventionally, cardiologists employ intravascular optical coherence tomography (OCT) to assess the buildup of coronary plaque, which can narrow arteries to cause coronary artery disease. /news/2019-11-cardiac-imaging-d-cellular-resolution.html Optics & Photonics Mon, 02 Dec 2019 09:30:01 EST news494244172 Monitoring the corrosion of bioresorbable magnesium ETH researchers have recently been able to monitor the corrosion of bioresorbable magnesium alloys at the nanoscale over a time scale of a few seconds to many hours. This is an important step towards accurately predicting how fast implants are resorbed by the body to enable the development of tailored materials for temporary implant applications. /news/2019-10-corrosion-bioresorbable-magnesium.html Materials Science Wed, 23 Oct 2019 08:34:43 EDT news491038473 Tiny robots powered by magnetic fields could help drug-delivery nanoparticles reach their targets MIT engineers have designed tiny robots that can help drug-delivery nanoparticles push their way out of the bloodstream and into a tumor or another disease site. Like crafts in "Fantastic Voyage"—a 1960s science fiction film in which a submarine crew shrinks in size and roams a body to repair damaged cells—the robots swim through the bloodstream, creating a current that drags nanoparticles along with them. /news/2019-04-tiny-robots-powered-magnetic-fields.html Bio & Medicine Fri, 26 Apr 2019 14:00:01 EDT news475505062 Engineering 3-D mesostructures with mechanically active materials Microelectromechanical systems (MEMS) have expansive applications in biotechnology and advanced engineering with growing interest in materials science and engineering due to their potential in emerging systems. Existing techniques have enabled applications in cell mechanobiology, high-precision mass sensing, microfluidics and in energy harvesting. Projected technical implications broadly include constructing precision-sensing MEMS, tissue scaffolds that mimic the principles of mechanobiology, and energy-harvesting applications that can operate on supported broad bandwidths. At present, devices (microsensors and MEMS) are fabricated using manufacturing methods of the semiconductor industry—specifically, two-dimensional (2-D) lithographic etching—with mechanical and electric components in planar configuration. /news/2018-09-d-mesostructures-mechanically-materials.html General Âé¶¹ÒùÔºics Fri, 28 Sep 2018 09:20:03 EDT news457338626 4-D printing reversible shape changing materials with light-based grayscale patterning Reversible shape change is a highly desirable property for many biomedical applications, including mechanical actuators, soft robotics and artificial muscles. Some materials can change size or shape when irradiated with light, triggering mechanical deformation without direct contact offering prospects for remote control. To engineer reversible, shape changing (RSC) structures—active materials that respond to external stimuli such as light, heat or electric fields are used together with other nonactive materials. Although advanced multi-material 3-D printing has enabled the design and fabrication of RSC structures, only specific materials can be printed, restricting broad use. /news/2018-09-d-reversible-materials-light-based-grayscale.html Materials Science Tue, 04 Sep 2018 10:30:01 EDT news455267848 Integrated sensor could monitor brain aneurysm treatment Implantation of a stent-like flow diverter can offer one option for less invasive treatment of brain aneurysms—bulges in blood vessels—but the procedure requires frequent monitoring while the vessels heal. Now, a multi-university research team has demonstrated proof-of-concept for a highly flexible and stretchable sensor that could be integrated with the flow diverter to monitor hemodynamics in a blood vessel without costly diagnostic procedures. /news/2018-08-sensor-brain-aneurysm-treatment.html Nanophysics Thu, 02 Aug 2018 10:23:36 EDT news452424203 Mathematicians devise new model to study response of endovascular aneurysm sealing Researchers at the University of Liverpool have developed a mathematical model that has the potential to improve the performance of endovascular aneurysm sealing (EVAS), which is an innovative procedure to treat abdominal aortic aneurysms (AAA). /news/2018-04-mathematicians-response-endovascular-aneurysm.html Mathematics Mon, 09 Apr 2018 07:25:15 EDT news442477505 Blood-repellent materials: A new approach to medical implants Medical implants like stents, catheters and tubing introduce risk for blood clotting and infection - a perpetual problem for many patients. /news/2017-01-blood-repellent-materials-approach-medical-implants.html Materials Science Wed, 18 Jan 2017 16:31:20 EST news403979472 Biohybrid robots built from living tissue start to take shape Think of a traditional robot and you probably imagine something made from metal and plastic. Such "nuts-and-bolts" robots are made of hard materials. As robots take on more roles beyond the lab, such rigid systems can present safety risks to the people they interact with. For example, if an industrial robot swings into a person, there is the risk of bruises or bone damage. /news/2016-08-biohybrid-robots-built-tissue.html Robotics Wed, 10 Aug 2016 09:05:16 EDT news390038696 Theoretical climbing rope could brake falls University of Utah mathematicians showed it is theoretically possible to design ideal climbing ropes to safely slow falling rock and mountain climbers like brakes decelerate a car. They hope someone develops a material to turn theory into reality. /news/2016-07-theoretical-climbing-rope-falls.html Mathematics Wed, 06 Jul 2016 02:33:49 EDT news386991211 Microscale 'transformer' robots are joining forces to break through blocked arteries Swarms of microscopic, magnetic, robotic beads could be scrubbing in next to the world's top vascular surgeons—all taking aim at blocked arteries. These microrobots, which look and move like corkscrew-shaped bacteria, are being developed by mechanical engineers at Drexel University as a part of a surgical toolkit being assembled by the Daegu Gyeongbuk Institute of Science and Technology (DGIST) in South Korea. /news/2015-06-microscale-robots-blocked-arteries.html Bio & Medicine Sat, 27 Jun 2015 06:00:01 EDT news354598910 Researchers develop revolutionary 3D printing technology A 3D printing technology developed by Silicon Valley startup, Carbon3D Inc., enables objects to rise from a liquid media continuously rather than being built layer by layer as they have been for the past 25 years, representing a fundamentally new approach to 3D printing. The technology, to appear as the cover article in the March 20 print issue of Science, allows ready-to-use products to be made 25 to 100 times faster than other methods and creates previously unachievable geometries that open opportunities for innovation not only in health care and medicine, but also in other major industries such as automotive and aviation. /news/2015-03-revolutionary-3d-technology.html Engineering Tue, 17 Mar 2015 10:20:43 EDT news345806433 Sticky nanoparticles fight heart disease (w/ video) Clemson University researchers have developed nanoparticles that can deliver drugs targeting damaged arteries, a non-invasive method to fight heart disease. /news/2014-02-sticky-nanoparticles-heart-disease.html Bio & Medicine Tue, 18 Feb 2014 12:03:25 EST news311947365 Math models enhance current therapies for coronary heart disease Coronary heart disease accounts for 18% of deaths in the United States every year. The disease results from a blockage of one or more arteries that supply blood to the heart muscle. This occurs as a result of a complex inflammatory condition called artherosclerosis, which leads to progressive buildup of fatty plaque near the surface of the arterial wall. /news/2013-12-math-current-therapies-coronary-heart.html Mathematics Mon, 09 Dec 2013 12:32:48 EST news305814742 Shape-shifting alloys hold promise Imagine untwisting a finger-size spring, then holding the flame from a lighter underneath the unraveled section. Like magic, it twirls itself into a spring again because the metal alloy remembered its original shape. /news/2013-08-shape-shifting-alloys.html Condensed Matter Tue, 27 Aug 2013 08:20:01 EDT news296808947 Magnetic fields drive drug-loaded nanoparticles to reduce blood vessel blockages in an animal study Scientists and engineers have used uniform magnetic fields to drive iron-bearing nanoparticles to metal stents in injured blood vessels, where the particles deliver a drug payload that successfully prevents blockages in those vessels. In this animal study, the novel technique achieved better results at a lower dose than conventional non-magnetic stent therapy. /news/2010-04-magnetic-fields-drug-loaded-nanoparticles-blood.html Bio & Medicine Mon, 19 Apr 2010 15:00:07 EDT news190815881 Superelastic iron alloy could be used for heart and brain surgery (Âé¶¹ÒùÔºOrg.com) -- Scientists in Japan have designed an elastic iron-based shape metal alloy for use in applications as diverse as heart and brain surgery and buildings in earthquake-prone areas. /news/2010-03-superelastic-iron-alloy-heart-brain.html Materials Science Tue, 23 Mar 2010 09:30:02 EDT news188547854 New 'nanoburrs' could add to arsenal of therapies against heart disease (Âé¶¹ÒùÔºOrg.com) -- Researchers at MIT and Harvard Medical School have built targeted nanoparticles that can cling to artery walls and slowly release medicine, an advance that potentially provides an alternative to drug-releasing stents in some patients with cardiovascular disease. /news/2010-01-nanoburrs-arsenal-therapies-heart-disease.html Bio & Medicine Mon, 18 Jan 2010 15:00:04 EST news183047997 A coating for life: Biodegradable fibers advance stent technology and brain surgery, then disappear Stents that keep weakened and flabby arteries from collapsing have been true life-savers. But after six months, those stents are no longer needed -- once the arteries are strengthened, they become unnecessary. Previously, doctors had no choice but to leave them in place. /news/2009-11-coating-life-biodegradable-fibers-advance.html Biotechnology Tue, 24 Nov 2009 11:48:28 EST news178284711 Laser processes promise better artificial joints, arterial stents Researchers are developing technologies that use lasers to create arterial stents and longer-lasting medical implants that could be manufactured 10 times faster and also less expensively than is now possible. /news/2009-09-laser-artificial-joints-arterial-stents.html Engineering Tue, 15 Sep 2009 10:56:49 EDT news172230934 A promising niche for nanotech In a cluster of rather drab buildings overlooking the Charles River, researchers at the Massachusetts Institute of Technology are incubating a tiny technology that packs an enormous punch. /news/2009-06-niche-nanotech.html Bio & Medicine Wed, 24 Jun 2009 09:40:02 EDT news165054131