Gene-targeted cancer drugs, slow release overcome resistance
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- Category: Research
Biomedical engineers at Duke University have developed a method to address failures in a promising anti-cancer drug, bringing together tools from genome engineering, protein engineering and biomaterials science to improve the efficacy, accuracy and longevity of certain cancer therapies.
A promising treatment for an incurable, deadly kidney disease
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A potential treatment for polycystic kidney disease - a genetic disorder that causes the kidneys to swell with multiple cysts and can eventually lead to organ failure - has shown promising results in animal testing. A study describing the drug's development and testing appears today in Nature Communications. The study shows an approximately 50 percent reduction in kidney size in afflicted mice following treatment.
Existing drug could treat aggressive brain cancer
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A research team from the University of Georgia's Regenerative Bioscience Center has found that a compound molecule used for drug delivery of insulin could be used to treat glioblastoma, an aggressive, usually fatal form of brain cancer. Glioblastoma, also known as GBM, is a fast-growing, web-like tumor that arises from supportive tissue around the brain and resists surgical treatment.
New drug may protect against memory loss in Alzheimer's disease
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A new drug discovered through a research collaboration between the University at Buffalo and Tetra Therapeutics may protect against memory loss, nerve damage and other symptoms of Alzheimer's disease. Preclinical research found that the drug - called BPN14770 - deters the effects of amyloid beta, a hallmark protein of Alzheimer's that is toxic to nerve cells.
Experimental validation confirms the ability of artificial intelligence to accelerate drug discovery
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Insilico Medicine, a global leader in artificial intelligence for drug discovery, announced the publication of a paper titled, "Deep learning enables rapid identification of potent DDR1 kinase inhibitors," in Nature Biotechnology. The paper describes a timed challenge, where the new artificial intelligence system called Generative Tensorial Reinforcement Learning (GENTRL) designed six novel inhibitors of DDR1, a kinase target implicated in fibrosis and other diseases, in 21 days.
Breast cancer can form 'sleeper cells' after drug treatment
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Breast cancer medicines may force some cancer cells into 'sleeper mode', allowing them to potentially come back to life years after initial treatment. These are the early-stage findings from scientists at Imperial College London, who studied human breast cancer cells in the laboratory.
A new drug could revolutionize the treatment of neurological disorders
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The international team of scientists from Gero Discovery LLC, the Institute of Biomedical Research of Salamanca, and Nanosyn, Inc. has found a potential drug that may prevent neuronal death through glucose metabolism modification in stressed neurons. The positive results obtained in mice are rather promising for future use in humans.
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- Preventing tumor metastasis
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- Eating more plant-based foods may be linked to better heart health