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Brits Abroad Leave Depressed Friends At Home
New research reveals Brits prefer to rearrange or cancel their summer holiday than go with a friend who has mental illness. The British would prefer to go on their summer holiday with a friend who has a criminal record than go with a friend who has a mental health problem, a new survey as part of the Time to Change campaign [1] has found.
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Israeli Startup CLT Partners With Dutch Erasmus Medical Centre To Develop A Cure For Atrial Fibrillation
Today, the Israeli medtech startup company CLT Ltd. announced the establishment of Closed Loop Therapies (CLT) BV - a joint venture between Erasmus University Medical Centre (Rotterdam, the Netherlands), a highly prominent medical institute in Europe, and CLT Israel. The joint venture aims to develop and commercialise a novel therapeutic system, consisting of an arrhythmia-detecting drug pump combined with a unique drug, for automatic and immediate treatment of emerging atrial fibrillation (AF). Market size is estimated at 2.5-3 billion Euro, annually.
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One In Ten Advanced Colon Cancer Patients Worry About Prescription Drug Costs
The vast majority of advanced colon cancer patients in a clinical trial were not concerned about the cost of prescription drugs for managing chemotherapy side effects, such as infection, pain and nausea and few adopted strategies to reduce drug cost burdens after joining the clinical trial, according to a study led by researchers at Dana-Farber Cancer Institute in Boston. Although few patients reported substantial worry about drug costs, still fewer reported discussing drug cost issues with their physicians, suggesting there are opportunities for improving how physicians integrate discussions about drug costs into clinical practice.
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Progress Toward Artificial Tissue

For modern implants and the growth of artificial tissue and organs, it is important to generate materials with characteristics that closely emulate nature. However, the tissue in our bodies has a combination of traits that are very hard to recreate in synthetic materials: It is both soft and very tough. A team of Australian and Korean researchers led by Geoffrey M. Spinks and Seon Jeong Kim has now developed a novel, highly porous, sponge-like material whose mechanical properties closely resemble those of biological soft tissues. As reported in the journal Angewandte Chemie, it consists of a robust network of DNA strands and carbon nanotubes. Soft tissues, such as tendons, muscles, arteries, and skin or other organs, obtain their mechanical support from the extracellular matrix, a network of protein-based nanofibers. Different protein morphologies in the extracellular matrix produce tissue with a wide range of stiffness. Implants and scaffolding for tissue growth require porous, soft materials -- which are usually very fragile. Because many biological tissues are regularly subjected to intense mechanical loads, it is also important that the implant material have comparable elasticity in order to avoid inflammation. At the same time, the material must be very strong and resilient, or it may give out. The new concept uses DNA strands as a matrix; the strands completely "wrap" the scaffold-forming carbon nanotubes in the presence of an ionic liquid, networking them to form a gel. This gel can be spun: just as silk and synthetic fibers can be wet-spun for textiles, the gel can be made into very fine threads when injected into a special bath. The dried fibers have a porous, sponge-like structure and consist of a network of intertwined 50 nm-wide nanofibers. Soaking in a calcium chloride solution further cross-links the DNA, causing the fibers to become denser and more strongly connected. These spongy fibers resemble the collagen fiber networks of the biological extracellular matrix. They can also be knotted, braided, or woven into textile-like structures. This results in materials that are as elastic as the softest natural tissues while simultaneously deriving great strength from the robust DNA links. An additional advantage is the electrical conductivity of the new material, which can thus also be used in electrodes for mechanical actuators, energy storage, and sensors. For example, the researchers were able to produce a hydrogen peroxide sensor. The carbon nanotubes catalyze the oxidation of hydrogen peroxide, which results in a measurable current. Hydrogen peroxide plays a role in normal heart function and certain heart diseases. A robust sensor with elasticity similar to the heart muscle would be of great help in researching these relationships. Geoffrey M. Spinks Wiley-Blackwell


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